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AirScale RNC, Rel. 20, Operating Documentation, Issue 04 AirScale RNC Measurements, Counters and KPIs DN09248561 Issue 04C Approval Date 2020-04-02

The information in this document applies solely to the hardware/software product (“Product”) specified herein, and only as specified herein. This document is intended for use by Nokia Solutions and Networks' customers (“You”) only, and it may not be used except for the purposes defined in the agreement between You and Nokia Solutions and Networks (“Agreement”) under which this document is distributed. No part of this document may be used, copied, reproduced, modified or transmitted in any form or means without the prior written permission of Nokia Solutions and Networks. If you have not entered into an Agreement applicable to the Product, or if that Agreement has expired or has been terminated, You may not use this document in any manner and You are obliged to return it to Nokia Solutions and Networks and destroy or delete any copies thereof. The document has been prepared to be used by professional and properly trained personnel, and You assume full responsibility when using it. Nokia Solutions and Networks welcome Your comments as part of the process of continuous development and improvement of the documentation. This document and its contents are provided as a convenience to You. Any information or statements concerning the suitability, capacity, fitness for purpose or performance of the Product are given solely on an “as is” and “as available” basis in this document, and Nokia Solutions and Networks reserves the right to change any such information and statements without notice. Nokia Solutions Networks has made all reasonable efforts to ensure that the content of this document is adequate and free of material errors and omissions, and Nokia Solutions and Networks will correct errors that You identify in this document. But, Nokia Solutions and Networks' total liability for any errors in the document is strictly limited to the correction of such error(s). Nokia Solutions and Networks does not warrant that the use of the software in the Product will be uninterrupted or error-free. NO WARRANTY OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY WARRANTY OF AVAILABILITY, ACCURACY, RELIABILITY, TITLE, NON-INFRINGEMENT, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, IS MADE IN RELATION TO THE CONTENT OF THIS DOCUMENT. IN NO EVENT WILL NOKIA SOLUTIONS AND NETWORKS BE LIABLE FOR ANY DAMAGES, INCLUDING BUT NOT LIMITED TO SPECIAL, DIRECT, INDIRECT, INCIDENTAL OR CONSEQUENTIAL OR ANY LOSSES, SUCH AS BUT NOT LIMITED TO LOSS OF PROFIT, REVENUE, BUSINESS INTERRUPTION, BUSINESS OPPORTUNITY OR DATA THAT MAY ARISE FROM THE USE OF THIS DOCUMENT OR THE INFORMATION IN IT, EVEN IN THE CASE OF ERRORS IN OR OMISSIONS FROM THIS DOCUMENT OR ITS CONTENT. This document is Nokia Solutions and Networks’ proprietary and confidential information, which may not be distributed or disclosed to any third parties without the prior written consent of Nokia Solutions and Networks. Nokia is a registered trademark of Nokia Corporation. Other product names mentioned in this document may be trademarks of their respective owners, and they are mentioned for identification purposes only. Copyright © 2017 Nokia Solutions and Networks. All rights reserved. Important Notice on Product Safety This product may present safety risks due to laser, electricity, heat, and other sources of danger. Only trained and qualified personnel may install, operate, maintain or otherwise handle this

distributed or disclosed to any third parties without the prior written consent of Nokia Solutions and Networks. Nokia is a registered trademark of Nokia Corporation. Other product names mentioned in this document may be trademarks of their respective owners, and they are mentioned for identification purposes only. Copyright © 2017 Nokia Solutions and Networks. All rights reserved. Important Notice on Product Safety This product may present safety risks due to laser, electricity, heat, and other sources of danger. Only trained and qualified personnel may install, operate, maintain or otherwise handle this product and only after having carefully read the safety information applicable to this product. The safety information is provided in the Safety Information section in the “Legal, Safety and Environmental Information” part of this document or documentation set. Nokia Solutions and Networks is continually striving to reduce the adverse environmental effects of its products and services. We would like to encourage you as our customers and users to join us in working towards a cleaner, safer environment. Please recycle product packaging and follow the recommendations for power use and proper disposal of our products and their components. If you should have questions regarding our Environmental Policy or any of the environmental services we offer, please contact us at Nokia Solutions and Networks for any additional information.

Product”) specified

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personnel, and You our comments as part of

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UT NOT LIMITED TO RINGEMENT, RELATION TO THE NETWORKS BE ECT, INDIRECT, TED TO LOSS OF R DATA THAT MAY EN IN THE CASE OF

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1. Introduction 1.1 Introduction to performance measurements

This manual describes performance measurements which are required to monitor the functionality of network elements and interfaces. The scope is to define performance measurements which allow to monitor procedures and the resource situation

2. How to read this Excel report

The Excel report provides complete information on counters and key performance indicatiors (KPIs). It shows the full set of counter and KPI attributes, including information about introduced changes. The Excel report consists of three main sections: - Measurement List - Counter List - KPI List The measurements, counters, and KPIs are listed in an alphanumeric ascending order.

2.1 Measurement List This section presents complete measurement information including the following: - measurement ID - measurement name - measurement description - information about changes

2.2 Counter List This section presents complete counter information including the following: - counter ID - counter name - counter description - trigger type - sampling interval - information about changes

2.3 KPI List This section presents complete KPI information including the following: - KPI ID - KPI name - KPI description - KPI formula - KPI class - information about changes

2.4 Fishing Macro Counters This section presents relevant information for counters usable with the fishing macro.

2.5 Field descriptions

Field descriptions are provided in the second row of Measurement List, Counter List, and KPI List sections. Use fold (-) and unfold (+) buttons on the left panel to hide and show the field descriptions respectively.

2.6 Information about changes Information about changes is a part of Measurement List, Counter List and KPI List sections and is available as follows:

1. Definition of whether the measurement/counter/KPI is new, removed. That definition is provided in the following columns: - Changes between issues ... which shows the changes since the previous issue of the document. - Changes between releases ... which shows the changes since the latest issue of the document in the previous product release. If the cell is empty, the measurement/counter/KPI is neither changed, nor new, nor removed. Note that removed measurements/counters/KPIs are listed at the very bottom, and they are marked with red font.

1. Definition of whether the measurement/counter/KPI is new, removed. That definition is provided in the following columns: - Changes between issues ... which shows the changes since the previous issue of the document. - Changes between releases ... which shows the changes since the latest issue of the document in the previous product release. If the cell is empty, the measurement/counter/KPI is neither changed, nor new, nor removed. Note that removed measurements/counters/KPIs are listed at the very bottom, and they are marked with red font. Filters are enabled for convenient browsing of the changed categories.

2. Detailed information about changes, showing the current and previous values of parameter attributes. This information is provided in the following columns:

- in issue ... which shows the value in the previous issue of the document. - in release ... which shows the value in the latest issue of the document in the previo product release.

The columns are grouped into attribute-specific sections for a well-structured and a more convenient view. Use unfold (+) a fold (-) buttons in the top bar to browse the attribute-specific details about changes. Use unfold all (2) and fold all (1) button on the left-hand side of the top bar to show and hide details about changes respectively for the whole report.

Note that for all measurements/counters/KPIs, except new and removed ones, the field values for a previous issue and previous release are always provided to show complete history information. Additionally, the changed attributes of measurements/counters/KPIs are highlighted in grey. Highlights are enabled to indicate whether there is a change between issues or releases.

onality of network elements and ures and the resource situation.

s (KPIs). It shows the full set of

I List sections. Use fold (-) and

and is available as follows:

ovided in the following columns:

ment. ment in the previous product

marked with red font.

ovided in the following columns:

ment. ment in the previous product

marked with red font.

er attributes. This information is

ue of the document. e of the document in the previous

nvenient view. Use unfold (+) and old all (2) and fold all (1) buttons he whole report.

es for a previous issue and changed attributes of her there is a change between

See the How to Read This Report tab for instructions on the Changes between issues usage of Measurement 04B List and 04C

See the How to Read This Report tab for instructions on the Changes between usage of Measurement releases ASRNC 19 and List ASRNC 20

See the How to Read This Report tab for instructions on the usage of Measurement Measurement ID List

568

609

610

802

803

804

Changed

1000

Changed

1001

Changed

1002

1003

Changed

1004

1005

Changed

1006

1007

Changed

1008

1009

Changed

1010

1011

1012

1013

1014

1015

1016

1017

1018

1019

1021

Changed

1022

Changed

1023

1024

1025

1026

1027

1028

1029

1031

1032

1033

1034

1035

1036

1037

1038

Changed

New

1039

2002

2007

2013

2014

2026

2027

2028

2037

2104

Changed

Changed

2124

2125

2167

2170

2171

2172

2173

2301

Removed

801

Measurement Name

Measurement Abbreviated Name

Measurement Description

IP Based Route

IP_based_route

DSP Service Statistics

DSP_service_stat

Logical Resource Usage

LogResUsage

RNC Capacity Usage

RNC_capa_usage

RNC RTP/RTCP

RNC_RTP_RTCP

RNC IP CAC

RNC_IP_CAC

Cell Resource

Cell_Resource

IP Based Route measurement (M568) measures the IP-based route throughput and the amount of connections. DSP Service Statistics measurement (M609) provides information about the amount of allocated services, for Logical Resource Usage example HSDPA users, measurement (M610) on network element level. provides information about the usage of network element RNC Capacity Usage hardware resources. measurement (M802)provides information about Iu-PS throughput, amount of CS RNC RTP/RTCP voice calls and the measurement (M803) amount of RRC measures RTP and RTCP connected mode users. protocol in the IP based Iu-CS interface. RNC IP CAC measurement (M804) measures connection admission control in the RNC external IP-based Cell Resource interfaces. measurement (M1000) measures cell resources and availability

Service Level

Service_Level

Traffic

Traffic

L3 signalling at Iu

L3Iu

L3 signalling at Iur

L3Iur_v2

Service Level measurement (M1001) measures RRC and RAB connections. Both RRC and RAB connection are Traffic measurement divided into three phases: (M1002) provides setup, access, and active information on DCH phase. This measurement requests and allocations, provides information on and on compressed mode L3 signalling at Iu and incoming handovers requests and allocations. measurement (M1003) SRNC relocations, RAB measures Iu-interface holding times, DCH signalling. holding times per NRT RAB type, RRC and RAB L3 signalling at Iur setup times, and multimeasurement (M1004) RABs measures Iur-interface signalling. This measurement was enhanced in RN4.0 to support both RNC & IADA object types as Handover Target.

L3 signalling at Iub

L3Iub

L3 signalling at Iub measurement (M1005) measures Iub-interface signalling.

RRC signalling

RRC

Soft Handover

Soft_Handover

Intra System Hard Handover

Intra_System_Handover

L3 Relocation signalling

L3Reloc_v2

Inter System Hard Handover

Inter_System_Handover

Location Services

LCS

Service Area Broadcast

SAB

Autodef SHO

AutoDef_SHO_v2

AutoDef IFHO

AutoDef_IFHO_v2

AutoDef ISHO

AutoDef_ISHO_v2

RCPM OLPC

RCPM_OLPC

RRC Signalling measurement (M1006) measures RRC signalling by recording signalling events on the RRC layer. Soft Handover measurement (M1007) measures soft handovers by collecting statistics of the performance of the Intra System Hard soft and softer handover Handover measurement procedures and the (M1008) measures intra CPICH Ec/No values. system hard handovers and HS-DSCH/E-DCH L3 Relocation Signalling serving cell changes. measurement (M1009) measures signalling of outgoing ISHO, HHO and SRNC relocation. It Inter System Hard includes Iur signalling Handover measurement between source and (M1010) measures target RNCs, Iu signalling outgoing inter system between source RNC and hard handovers from Location Services CN, and Iu signalling WCDMA to GSM. measurement (M1011) between CN and target measures RNC. This location measurement services by providing was enhanced in RN4.0 to information onRNC location support both & IADA Service Area Broadcast specific RANAP object types as Handover measurement (M1012) signalling, and on the Target. measures Iu-BC interface success of location signalling. It provides calculation. information on sent and Autodef Soft Handover received Service Area measurement (M1013) Broadcast Protocol measures soft handover (SABP) messages. success rate for cell pairs. This measurement was AutoDef Inter Frequency enhanced in RN4.0 to HHO measurement support both RNC & IADA (M1014) measures intra object types as Handover system hard handover Source and Target. success rate for cell pairs. AutoDef Inter System This measurement was Handover measurement enhanced in RN4.0 to (M1015) measures inter support both RNC & IADA system hard handover object types as Handover success rate for cell pairs. RCPM Source OLPC and Target. This measurement was measurement (M1016) enhanced in RN4.0 to measures outer loop support both RNC & IADA power control. It provides object types as Handover information on uplink radio Source. connection quality and on downlink radio link power. It is based on information available for the OLPC and NBAP entities of the RNC.

RCPM RLC

RCPM_RLC

RCPM UEQ

RCPM_UEQ

AutoDef LTE

AutoDef_LTE

Iu-PC Interface

IuPC_interface

Packet Call

Packet_call

Cell Throughput

Cell_thrput

RCPM OLPC WCEL

RCPM_OLPC_WCEL

RCPM OLPC RNC

RCPM_OLPC_RNC

RCPM RLC WCEL

RCPM_RLC_WCEL

RCPM RLC RNC

RCPM_RLC_RNC

Autodef SHO DSR

Autodef_SHO_DSR

Device Detection

Device_Detection

RCPM RLC measurement (M1017) measures AMRLC connection performance. It provides information on downlink RCPM UEQ measurement radio connection quality. It (M1018) measures UMis based on information RLC and Transparentavailable for the RLC downlink acknowledged mode RLC performance. It provides AutoDef LTERNC. entity of the information on the quality measurement (M1019) of the downlink radio measures inter system connections using RLC hard handover success Unacknowledged or rate from 3G to LTE per Iu-PC Interface Transparent Mode. It is source and target cell measurement (M1021) based on UE quality pair. measures Iu-PC interface measurements. towards Standalone SMLC. Packet Call measurement (M1022) measures the packet call statistics from the mobile and end user's perspective. Cell Throughput measurement (M1023) allows network wide monitoring of the radio resource throughput per RCPM OLPC WCEL cell by collecting measurement (M1024) measurement data from measures outer loop MAC-d layer in RNC. This power control enables customers to performance and uplink RCPM RNC cell monitorOLPC the average radio connection quality. measurement (M1025) throughput of MAC-d layer The RNC pre-aggregates measures outerE-DCH loop and for HS-DSCH, the measurement results power control DCH traffic, separately to WCEL level. performance and per traffic type. In uplink RCPM RLC WCEL radio connection quality. addition, it enables measurement (M1026) The RNC pre-aggregates optimisation possibilities measures the quality and the measurement about the share ofresults throughput of radio to RNC level. HSDPA vs. DCH connections usingcapacity. RCPM RLC RNC Acknowledged Mode measurement (M1027) RLC. The RNC premeasures the quality and aggregates the throughput of radio measurement results to connections using Autodef SHO DSR WCEL level. Acknowledged Mode (M1028) measurement RLC. The RNC premeasures the CPICH aggregates the EcNo and CPICH RSCP measurement results to reported by the UEs for Device Detection RNC level. detected set cells that the measurement (M1029) RNC cannot identify measures IMEI queries based on the neighbour and feature cell definitions. blacklist/whitelist actions performed by the RNC based on the UE model.

WBTS Resource

WBTS_resource

WBTS Resource measurement (M1031) measures the number of users in WBTS level.

CS Voice HSPA User Plane

CS_voice_HSPA

CPICH Quality

Cpich_quality

Operator Statistics in RNC

Oper_stat_RNC

DSCP Statistics

DSCP_stats

LTE Relocation

LTE_Relocation

Service Level Iur

Service_Level_Iur

CS Voice HSPA User Plane measurement (M1032) measures CS Voice over HSPA user plane quality. Measurement M1033 CPICH Quality provides information about CPICH RSCP and EcNo in RRC Connection Request. This measurement is a collection of basic statistics about accessibility, retainability, and resource usage This measurement reported based on the provides information on operator-ID when either the DSCP code marking the RAN2412 Inter Circle of the Iu-PS user plane Roaming feature or data received by the RNC. LTE Relocation RAN2825 MOCN measurement (M1036) Capacity Assurance measures RANAP feature is in use. signalling of outgoing inter-system handover The Service Level Iur from 3G to LTE. measurement monitors RRC and RAB connections per Iur.

DoS Attack

DoS_Attack

DoS Attack measurement meansures the DoS attack event towards RNC.

Elasticity

Elasticity

Elasticity measurement measures scalability related actions in AirScale RNC

CPU Usage Core Level

CpuUsage_core

CPU Usage Node Level

CpuUsage_node

M3UA Traffic Statistics

M3UATraffic

CPU Usage Core Level measurement (M2002) provides CPU usage statistics on CPU core level. CPU Usage Node Level measurement (M2007) provides CPU usage statistics on processing node level. The M3UA traffic measurement provides information on M3UA control and data messages measured on FPNODE level.

M3UA Connection Statistics

M3UAConnectionStats

SCCP Traffic Statistics

SCCPTraffic

SCCP Q752 Non-SSN Statistics

SCCPQ752ProtocolNonSSN

SCCP Q752 SSN Statistics

SCCPQ752ProtocolSSN

NIF Traffic Statistics

NifTrafficStats

cNetwork Statistics

cNetStat

FP Cpu Usage Core Level

FPCpuUsage

FP CPU Usage Node Level

FPNodeLevelCpuLoad

cSCTP Statistics

cSctpStat

cIPv4 Statistics

cIpv4Stat

M2170 measures IP interface traffic in the AirScale-RNC.

ICMPv4 Statistics

cIcmpv4Stat

Collects the ICMPv4 statistics for each node.

ICMPv6 Statistics

cIcmpv6Stat

The M3UA connection measurement provides message counters for a specific M3UA association or connection. The SCCP traffic measurement displays the message counters collected at a specific SCCP instance. The The SCCP Q752 nonmeasurement data is SSN statistics measured per SCCP measurement displays the instance/process, and on message and protocol a specific node. error counters collected at The SCCP Q752 SSN a specific SCCP instance. statistics measurement The measurement data is displays the counters for a measured per SCCP specific SSN. The SSN instance/process, and on could be a local or a M2037 means a specific node.the NIF remote subsystem. The Traffic Statistics measurement data is collected per SCCP SSN on a specific SCCP M2104 measures the instance/process, and on traffic in logical a specific node.network These interfaces of a processing measurements contain node. This measurement different message and is used only in collected the error counters M2124 measures the load AirScale-RNC product. for a specific subsystem. of AirScale-RNC vCPU cores running transport SW. The result is provided on CPU core level. M2125 measures the load of AirScale-RNC vCPU cores running transport SW. The result is provided as an aggregated value M2167 measures the on computing node level. SCTP traffic in the AirScale-RNC.

The measurement type collects information on the Collects the ICMPv6 count of the ICMP packets statistics for each node. and also the erroneous ICMP packets for IPv4 The measurement type addresses. The data is collects information on measured on a per node ICMPv6 packets on a per level. node level. MEASUREMENT MEASUREMENT OBJECT HIERARCHY OBJECT HIERARCHY Syntax : /FPNODESyntax : /FPNODE/VRF- Example: FPNODE-CLAExample: FPNODE-CLA-

IPV6 Statistics

cIpv6Stat

IP TWAMP statistics

cIP_TWAMP_stats

Iu-PS Performance

IU_PS_performance

Collects the IPv6 statistics for each node. The measurement type collects data on IPv6 IP TWAMP Statistics packets on a per node measurement (M2301) level. It collects provides round trip time information on the IPv6 and packet loss packets that are entering information on IP-based Iu-PS Performance and exiting the nodes. transport links. measurement (M801) MEASUREMENT OBJECT HIERARCHY Syntax : /FPNODE/VRF- Example: FPNODE-CLA0/VRF-vrf1

Measurement Network Profile

Measurement NW Aggregation Levels

PLMN-IADA-ip_route_id / PLMN-RNC-ip_route_id, RWBTS

ip_route_id

PLMN-IADA-serv_type / PLMN-RNC-serv_type

IADA: IADA, serv_type / RNC: RNC, serv_type

PLMN-IADA-up_type / PLMN-RNC-up_type

IADA: up_type / RNC: up_type

PLMN-RNC

RNC

PLMN-RNC-ip_route_id

ip_route_id

PLMN-RNC-ip_route_id, RWBTS

ip_route_id

PLMN-RNC-WBTS-WCEL, RNC, WCEL MCC-MNC

PLMN-RNC-WBTS-WCEL, RNC, WCEL / RNC MCC-MNC

PLMN-RNC-WBTS-WCEL, RNC, WCEL MCC-MNC

PLMN-RNC, RMSC, RSGSN, MCC-MNC

RNC

PLMN-RNC, HOT, MCCMNC

RNC

Measurement structure changes between issues 04B and 04C

PLMN-RNC-WBTS-WCEL, RNC, WCEL MCC-MNC

PLMN-RNC-WBTS-WCEL, RNC, WCEL MCC-MNC

PLMN-RNC-WBTS-WCEL, RNC, WCEL / RNC MCC-MNC / PLMN-RNC, MCC-MNC PLMN-RNC-WBTS-WCEL, RNC, WCEL / RNC MCC-MNC / PLMN-RNC, MCC-MNC PLMN-RNC, HOT, RMSC, RSGSN, MCC-MNC

RNC

RNC-WBTS-WCEL, MCCMNC

RNC, WCEL

PLMN-RNC, RMSC, RSGSN, MCC-MNC

RNC

PLMN-RNC, MCC-MNC

RNC

PLMN-RNC, HOS-SCID, MCC-MNC, HOT-TCID, MCC-MNC

SCID, TCID

PLMN-RNC, HOS-SCID, MCC-MNC, HOT-TCID, MCC-MNC

SCID, TCID

PLMN-RNC, HOS-SCID, MCC-MNC, LAC-CI, MCCMNC

SCID, CI

PLMN-RNC-WBTS-WCEL, RNC MCC-MNC, TR_CLASSTR_SUBCLASS-THP, RAB_max_dl-RAB_max_ul, RB_dl-RB_ul, error_ratio

PLMN-RNC-WBTS-WCEL, RNC MCC-MNC, TR_CLASSTR_SUBCLASS-THP, RAB_max_dl-RAB_max_ul, RB_dl-RB_ul, error_ratio PLMN-RNC-WBTS-WCEL, RNC MCC-MNC, TR_CLASSTR_SUBCLASS-THP, RAB_max_dl-RAB_max_ul, RB_dl-RB_ul, error_ratio PLMN-RNC,HOSSCID, ECEL SCID,ENB-ECEL,MCCMNC PLMN-RNC, SAS

SAS

PLMN-RNC-WBTS-WCEL, RNC, WCEL MCC-MNC

PLMN-RNC-WBTS-WCEL, RNC, WCEL MCC-MNC

PLMN-RNC-WBTS-WCEL, RNC, WCEL MCC-MNC, TR_CLASSTR_SUBCLASS, ChType PLMN-RNC, TR_CLASSRNC TR_SUBCLASS-THP, RAB_max_dl-RAB_max_ul, RB_dl-RB_ul PLMN-RNC-WBTS-WCEL, RNC, WCEL MCC-MNC, TR_CLASSTR_SUBCLASS, ChType PLMN-RNC, TR_CLASSRNC TR_SUBCLASS-THP, RAB_max_dl-RAB_max_ul, RB_dl-RB_ul PLMN-RNC, HOS-SCID, MCC-MNC, SCR

PLMN-RNC,FEAT

PLMN-RNC-WBTS

WBTS

PLMN-RNC-WBTS-WCEL, RNC, WCEL MCC-MNC

PLMN-RNC-WBTS-WCEL, RNC, WCEL MCC-MNC

PLMN-RNC-WBTS-WCEL, RNC, OperID OperID

PLMN-RNC, DSCP

DSCP

PLMNRNC,ENB,RMSC,RSGSN, MCC-MNC

RNC,ENB

PLMN-RNC, HOT-TCID, MCC-MNC

TCID

PLMN-RNC

RNC

PLMN-RNC-WBTS-WCEL, RNC MCC-MNC

PLMN-IADA-FPNODEFPCPU / PLMN-RNCFPNODE-FPCPU

FPCPU

PLMN-IADA-FPNODE / PLMN-RNC-FPNODE

FPNODE

PLMN-RNC-FPNODE

FPNODE

PLMN-RNC-FPNODEFPASOC

FPASOC

PLMN-RNC-FPNODEFPINST

FPINST

PLMN-RNC-FPNODEFPINST

FPINST

PLMN-RNC-FPNODEFPINST-FPSSN

FPSSN

PLMN-RNC-FPNODE

FPNODE

PLMN-RNC-FPNODE-VRF- FPIFC FPIFC

PLMN-RNC-FPNODEFPCPU

FPCPU

PLMN-RNC-FPNODE

FPNODE

PLMN-RNC-FPNODE-VRF VRF

PLMN-RNC-FPNODE-VRF VRF

PLMN-RNC-FPNODE-VRF VRF

PLMN-RNC-FPNODE-VRF VRF

Removed counters: 1

PLMN-RNC-FPNODE-VRF VRF

PLMN-RNC-TWsession, PLMN-SRCIP, PLMNDSTIP-DSTPORT, PLMNDSCP-PKTLEN

TWsession

PLMN-RNC-unit_typeunit_index

RNc, unit_type, unit_index

Measurement structure changes between releases ASRNC 19 and ASRNC 20

New counters: 8

New counters: 25

New counters: 7 Modified counters: 1

New counters: 6

New counters: 1

Modified counters: 2

Modified counters: 2

New counters: 1 Modified counters: 1

New counters: 2

New counters: 4

Removed counters: 1

Removed counters: 20

See the How to Read This Report tab for instructions on the Changes betweenList issues usage of Counter 04B and 04C

See the How to Read This Report tab for instructions on the Changes betweenList usage of Counter releases ASRNC 19 and ASRNC 20

See the How to Read This Report tab for instructions on the Counter usage ofID Counter List

M568C0

M568C1

M568C2

M568C3

M568C4

M568C5

M568C6

M568C7

M568C8

M568C9

M568C10

M568C11

M568C12

M568C13

M568C14

M568C15

M568C16

M568C17

M568C18

M568C19

M568C20

M568C21

M568C22

M609C0

M609C1

M609C2

M609C3

M609C4

M610C0

M610C1

M610C2

M802C0

M802C1

M802C2

M802C3

M802C4

M802C5

M802C6

M802C7

M802C8

M802C9

M802C10

M802C11

M802C12

M802C13

M802C14

M802C15

M802C16

M802C17

M802C18

M802C19

M802C20

M802C21

M802C22

M802C23

M802C24

M802C25

M802C26

M802C27

M802C28

M802C29

M803C0

M803C1

M803C2

M803C3

M803C4

M803C5

M803C6

M803C7

M803C8

M803C9

M803C10

M803C11

M803C12

M803C13

M803C14

M803C15

M803C16

M803C17

M803C18

M803C19

M803C20

M803C21

M803C22

M803C23

M803C24

M803C25

M803C26

M803C27

M803C28

M804C0

M804C1

M804C2

M804C3

M804C4

M804C5

M804C6

M1000C0

M1000C1

M1000C2

M1000C3

M1000C4

M1000C5

M1000C6

M1000C7

M1000C8

M1000C9

M1000C10

M1000C11

M1000C12

M1000C13

M1000C14

M1000C15

M1000C16

M1000C17

M1000C18

M1000C19

M1000C20

M1000C21

M1000C22

M1000C23

M1000C24

M1000C25

M1000C26

M1000C27

M1000C28

M1000C29

M1000C30

M1000C31

M1000C32

M1000C33

M1000C34

M1000C35

M1000C36

M1000C37

M1000C38

M1000C39

M1000C40

M1000C41

M1000C42

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New

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New

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New

M1000C482

New

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New

M1000C484

New

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New

M1000C486

M1001C0

M1001C1

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M1001C207

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M1001C231

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M1001C233

M1001C234

M1001C235

M1001C236

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M1001C238

M1001C239

M1001C240

M1001C241

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M1001C249

M1001C250

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M1001C273

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M1001C476

M1001C477

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M1001C481

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M1001C486

M1001C487

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M1001C516

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M1001C519

M1001C520

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M1001C522

M1001C523

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M1001C525

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M1001C528

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M1001C548

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M1001C567

M1001C568

M1001C569

M1001C570

M1001C571

M1001C572

M1001C573

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M1001C575

M1001C576

M1001C577

M1001C578

M1001C579

M1001C580

M1001C581

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M1001C585

M1001C586

M1001C587

M1001C588

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M1001C594

M1001C595

M1001C596

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M1001C600

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M1001C609

M1001C610

M1001C611

M1001C612

M1001C613

M1001C614

M1001C615

M1001C616

M1001C617

M1001C618

M1001C619

M1001C620

M1001C621

M1001C622

M1001C624

M1001C625

M1001C626

M1001C628

M1001C629

M1001C630

M1001C631

M1001C632

M1001C633

M1001C634

M1001C635

M1001C636

M1001C637

M1001C638

M1001C639

M1001C640

M1001C642

M1001C644

M1001C645

M1001C646

M1001C647

M1001C648

M1001C649

M1001C650

M1001C651

M1001C652

M1001C653

M1001C654

M1001C655

M1001C656

M1001C657

M1001C658

M1001C659

M1001C660

M1001C661

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M1001C663

M1001C664

M1001C665

M1001C666

M1001C667

M1001C668

M1001C669

M1001C670

M1001C671

M1001C672

M1001C673

M1001C674

M1001C675

M1001C676

M1001C677

M1001C678

M1001C679

M1001C680

M1001C681

M1001C689

M1001C690

M1001C691

M1001C692

M1001C693

M1001C694

M1001C695

M1001C696

M1001C697

M1001C698

M1001C699

M1001C700

M1001C701

M1001C702

M1001C703

M1001C704

M1001C705

M1001C706

M1001C707

M1001C708

M1001C709

M1001C711

M1001C712

M1001C713

M1001C714

M1001C715

M1001C716

M1001C722

M1001C723

M1001C724

M1001C725

M1001C726

M1001C727

M1001C728

M1001C729

M1001C730

M1001C731

M1001C732

M1001C733

M1001C734

M1001C735

M1001C736

M1001C743

M1001C744

M1001C745

M1001C746

M1001C747

M1001C748

M1001C749

M1001C750

M1001C751

M1001C752

M1001C753

M1001C754

M1001C755

M1001C756

M1001C757

M1001C758

M1001C800

M1001C801

M1001C802

M1001C803

M1001C804

M1001C805

M1001C806

M1001C807

M1001C808

M1001C810

M1001C817

M1001C819

M1001C826

M1001C828

M1001C835

M1001C836

M1001C837

M1001C838

M1001C839

M1001C840

M1001C841

M1001C842

M1001C843

M1001C844

New

M1001C845

New

M1001C846

New

M1001C847

New

M1001C848

New

M1001C849

New

M1001C850

New

M1001C851

New

M1001C852

New

M1001C853

New

M1001C854

New

M1001C855

New

M1001C856

New

M1001C857

New

M1001C858

New

M1001C859

New

M1001C860

New

M1001C861

New

M1001C862

New

M1001C863

New

M1001C864

New

M1001C865

New

M1001C866

New

M1001C867

New

M1001C868

New

M1001C869

M1002C0

M1002C1

M1002C2

M1002C3

M1002C4

M1002C5

M1002C7

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M1002C10

M1002C11

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M1002C110

M1002C111

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M1002C117

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M1002C230

M1002C231

M1002C232

M1002C233

M1002C234

M1002C235

M1002C237

M1002C238

M1002C239

M1002C240

M1002C241

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M1002C244

M1002C245

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M1002C261

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M1002C264

M1002C265

M1002C266

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M1002C268

M1002C269

M1002C270

M1002C271

M1002C272

M1002C273

M1002C274

M1002C275

M1002C276

M1002C277

M1002C278

M1002C279

M1002C280

M1002C281

M1002C282

M1002C283

M1002C284

M1002C285

M1002C286

M1002C287

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M1002C665

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M1002C676

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M1004C92

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M1022C130

M1022C131

M1022C132

M1022C133

M1022C134

M1022C135

M1022C136

M1022C137

M1022C138

M1022C139

M1022C140

M1022C141

M1022C142

M1022C143

M1022C144

M1022C145

M1022C146

M1022C147

M1022C148

M1022C149

M1022C150

M1022C151

M1022C152

M1022C153

M1022C154

M1022C155

M1022C156

M1022C157

M1022C158

M1022C159

M1022C160

M1022C161

M1022C162

M1022C163

M1022C164

M1022C165

M1022C166

M1022C167

M1022C168

M1022C169

M1022C170

M1022C171

M1022C172

M1022C173

M1022C174

M1022C175

M1022C176

M1022C177

M1022C178

M1022C179

M1022C180

M1022C181

M1022C182

M1022C183

M1022C184

M1022C185

M1022C186

M1022C187

M1022C188

M1022C189

M1022C190

M1022C191

M1022C192

M1022C193

M1022C194

M1022C195

M1022C196

M1022C197

M1022C198

M1022C199

M1022C200

M1022C201

M1022C202

M1022C203

M1022C204

M1022C205

M1022C206

M1022C207

M1022C208

M1022C209

M1022C210

M1022C211

M1022C212

M1022C213

M1022C214

M1022C215

M1022C216

M1022C217

M1022C218

M1022C219

M1022C220

M1022C221

M1022C222

M1022C223

M1022C224

M1022C225

M1022C226

M1022C227

M1022C228

M1022C229

M1022C230

M1022C231

M1022C232

M1022C233

M1022C234

M1022C235

M1022C236

M1022C237

M1022C238

M1022C239

M1022C240

M1022C241

M1022C242

M1022C243

M1022C244

M1022C245

M1022C246

M1022C247

M1022C248

M1022C249

M1022C250

M1022C251

M1022C252

M1022C253

M1022C254

M1022C255

M1022C256

M1022C257

M1022C258

M1022C259

M1022C260

M1022C261

M1022C262

M1022C263

M1022C264

New

M1022C265

M1023C0

M1023C1

M1023C2

M1023C3

M1023C4

M1023C5

M1023C6

M1023C7

M1023C8

M1023C9

M1023C10

M1023C11

M1023C12

M1023C13

M1023C14

M1023C15

M1023C16

M1023C17

M1023C18

M1023C19

M1023C20

M1023C21

M1023C22

M1023C23

M1023C24

M1023C25

M1023C26

M1023C27

M1023C28

M1023C29

New

M1023C30

New

M1023C31

M1024C0

M1024C1

M1024C3

M1024C4

M1024C5

M1024C7

M1024C8

M1024C9

M1024C11

M1024C12

M1024C13

M1024C14

M1024C15

M1024C17

M1024C18

M1024C19

M1025C0

M1025C1

M1025C3

M1025C4

M1025C5

M1025C7

M1025C8

M1025C9

M1025C11

M1025C12

M1025C13

M1025C14

M1025C15

M1025C17

M1025C18

M1025C19

M1026C0

M1026C1

M1026C4

M1026C5

M1026C6

M1026C8

M1026C9

M1026C10

M1026C11

M1026C12

M1026C14

M1026C15

M1026C18

M1026C19

M1026C21

M1026C22

M1026C24

M1026C25

M1026C26

M1026C28

M1026C29

M1026C30

M1026C31

M1026C32

M1026C33

M1026C34

M1026C35

M1026C36

M1026C37

M1026C38

M1026C39

M1026C40

M1026C41

M1026C42

M1026C43

M1026C44

M1026C45

M1026C46

M1026C47

M1026C48

M1026C49

M1026C50

M1026C51

M1026C52

M1026C53

M1026C54

M1026C55

M1026C56

M1026C57

M1027C0

M1027C1

M1027C4

M1027C5

M1027C6

M1027C8

M1027C9

M1027C10

M1027C11

M1027C12

M1027C14

M1027C15

M1027C18

M1027C19

M1027C21

M1027C22

M1027C24

M1027C25

M1027C26

M1027C28

M1027C29

M1027C30

M1027C31

M1027C32

M1027C33

M1027C34

M1027C35

M1027C36

M1027C37

M1027C38

M1027C39

M1027C40

M1027C41

M1027C42

M1027C43

M1027C44

M1027C45

M1027C46

M1027C47

M1027C48

M1027C49

M1027C50

M1027C51

M1027C52

M1027C53

M1027C54

M1027C55

M1027C56

M1027C57

M1028C0

M1028C1

M1028C2

M1028C3

M1029C0

M1029C1

M1029C2

M1031C0

M1031C1

M1031C2

M1031C3

M1031C4

M1031C5

M1031C6

M1031C7

M1031C8

M1032C0

M1032C1

M1032C2

M1032C3

M1032C4

M1032C5

M1032C6

M1032C7

M1032C8

M1032C9

M1032C10

M1032C11

M1032C12

M1032C13

M1032C14

M1032C15

M1032C16

M1032C17

M1032C18

M1032C19

M1032C20

M1032C21

M1033C0

M1033C1

M1033C2

M1033C3

M1033C4

M1033C5

M1033C6

M1033C7

M1033C8

M1033C9

M1033C10

M1033C11

M1033C12

M1033C13

M1033C14

M1033C15

M1033C16

M1033C17

M1033C18

M1033C19

M1033C20

M1033C21

M1033C22

M1033C23

M1033C24

M1033C25

M1033C26

M1034C0

M1034C1

M1034C2

M1034C3

M1034C4

M1034C5

M1034C6

M1034C7

M1034C8

M1034C9

M1034C10

M1034C11

M1034C12

M1034C13

M1034C14

M1034C15

M1034C16

M1034C17

M1034C18

M1034C19

M1034C20

M1034C21

M1034C22

M1034C23

M1034C24

M1034C25

M1034C26

M1034C27

M1034C28

M1034C29

M1034C30

M1034C31

M1034C32

M1034C33

M1034C34

M1034C35

M1034C36

M1034C37

M1034C38

M1034C39

M1034C40

M1034C42

M1034C43

M1034C44

M1034C45

M1034C46

M1034C47

M1034C48

M1034C49

M1034C50

M1034C51

M1034C52

M1034C53

M1034C54

M1034C55

M1034C56

M1035C0

M1035C1

M1035C2

M1035C3

M1035C4

M1035C5

M1035C6

M1035C7

M1036C0

M1036C1

M1036C2

M1036C3

M1036C4

M1036C5

M1036C6

M1036C7

M1036C8

M1036C9

M1036C10

M1037C0

M1037C1

M1037C2

M1037C3

M1037C4

M1037C5

M1037C6

M1037C7

M1037C8

M1038C0

M1038C1

M1038C2

M1038C3

M1038C4

M1038C5

M1038C6

New

M1039C0

New

M1039C1

New

M1039C2

New

M1039C3

M2002C3

M2002C4

M2002C5

M2007C3

M2007C4

M2007C5

M2013C2

M2013C3

M2013C4

M2013C5

M2013C6

M2013C7

M2014C2

M2014C3

M2014C4

M2014C5

M2014C6

M2014C7

M2014C8

M2014C9

M2014C10

M2014C11

M2014C12

M2014C13

M2014C14

M2014C15

M2014C16

M2014C17

M2014C18

M2014C19

M2014C20

M2014C21

M2014C22

M2014C23

M2014C24

M2014C25

M2014C26

M2014C27

M2014C28

M2014C29

M2014C30

M2014C31

M2014C32

M2014C33

M2014C34

M2014C35

M2014C36

M2014C37

M2014C38

M2014C39

M2014C40

M2014C41

M2014C42

M2014C43

M2014C44

M2014C45

M2026C1

M2026C2

M2026C3

M2026C4

M2026C5

M2026C6

M2026C7

M2026C8

M2026C9

M2026C10

M2027C1

M2027C2

M2027C3

M2027C4

M2027C5

M2027C6

M2027C7

M2027C8

M2027C9

M2027C10

M2027C11

M2027C12

M2027C13

M2027C14

M2027C15

M2027C16

M2027C17

M2027C18

M2027C19

M2027C20

M2027C21

M2027C22

M2027C23

M2027C24

M2028C1

M2028C2

M2028C3

M2028C4

M2028C5

M2028C6

M2028C7

M2028C8

M2028C9

M2028C10

M2028C11

M2028C12

M2028C13

M2028C14

M2037C1

M2037C2

M2104C1

M2104C2

M2104C3

M2104C4

M2104C5

M2104C6

M2104C7

M2104C8

M2124C3

M2124C4

M2125C3

M2125C4

M2125C5

M2167C1

M2167C2

M2167C3

M2167C4

M2167C5

M2167C6

M2167C7

M2167C8

M2167C9

M2167C10

M2167C11

M2167C12

M2167C13

M2167C14

M2167C15

M2167C16

M2167C17

M2167C18

M2167C19

M2170C1

M2170C2

M2170C3

M2170C4

M2170C5

M2170C6

M2170C7

M2170C8

M2170C9

M2170C10

M2170C11

M2170C12

M2170C13

M2170C14

M2170C15

M2170C16

M2171C1

M2171C2

M2171C3

M2172C1

M2172C2

M2172C3

M2173C1

M2173C2

M2173C3

M2173C4

M2173C5

M2173C6

M2173C7

M2173C8

M2173C9

M2173C10

M2173C11

M2173C12

M2173C13

M2173C14

M2173C15

M2173C16

M2173C17

M2173C18

M2301C0

M2301C1

M2301C2

M2301C3

M2301C4

Removed

Removed

M2124C5

Removed

M801C0

Removed

M801C1

Removed

M801C2

Removed

M801C3

Removed

M801C4

Removed

M801C5

Removed

M801C6

Removed

M801C7

Removed

M801C8

Removed

M801C9

Removed

M801C10

Removed

M801C11

Removed

M801C12

Removed

M801C13

Removed

M801C14

Removed

M801C15

Removed

M801C16

Removed

M801C17

Removed

M801C18

Removed

M801C19

See the How to Read This Report tab for instructions on the usage of Counter List Measurement ID and Name

Network Element Name

NetAct Name

568: IP Based Route

OUT_DATA_IP_ROUTE

OUT_DATA_IP_ROUTE

568: IP Based Route

IN_DATA_IP_ROUTE

IN_DATA_IP_ROUTE

568: IP Based Route

COMMITTED_BIT_RATE_IP_R OUTE

COMMITTED_BIT_RATE_IP_R OUTE

568: IP Based Route

SUM_RESERVED_RATE_IP_R SUM_RESERVED_RATE_IP_R OUTE OUTE

568: IP Based Route

MIN_RESERVED_RATE_IP_RO MIN_RESERVED_RATE_IP_R UTE OUTE

568: IP Based Route

MAX_RESERVED_RATE_IP_R OUTE

568: IP Based Route

SUM_IP_UDP_CONN_IP_ROUT SUM_IP_UDP_CONN_IP_ROU E TE

568: IP Based Route

MIN_IP_UDP_CONN_IP_ROUT MIN_IP_UDP_CONN_IP_ROUT E E

568: IP Based Route

MAX_IP_UDP_CONN_IP_ROUT MAX_IP_UDP_CONN_IP_ROU E TE

568: IP Based Route

NBR_SAMPLES_IP_ROUTE

NBR_SAMPLES_IP_ROUTE

568: IP Based Route

IP_EG_BW_UTI_CLASS_1

IP_EG_BW_UTI_CLASS_1

MAX_RESERVED_RATE_IP_R OUTE

568: IP Based Route

IP_EG_BW_UTI_CLASS_2

IP_EG_BW_UTI_CLASS_2

568: IP Based Route

IP_EG_BW_UTI_CLASS_3

IP_EG_BW_UTI_CLASS_3

568: IP Based Route

IP_EG_BW_UTI_CLASS_4

IP_EG_BW_UTI_CLASS_4

568: IP Based Route

IP_EG_BW_UTI_CLASS_5

IP_EG_BW_UTI_CLASS_5

568: IP Based Route

IP_EG_BW_CONFIG

IP_EG_BW_CONFIG

568: IP Based Route

IP_EG_PEAK_THRPUT

IP_EG_PEAK_THRPUT

568: IP Based Route

IP_IN_PEAK_THRPUT

IP_IN_PEAK_THRPUT

568: IP Based Route

IN_MUX_PACKETS_IP_ROUTE IN_MUX_PACKETS_IP_ROUT E

568: IP Based Route

IN_MUXED_PACKETS_IP_ROU IN_MUXED_PACKETS_IP_RO TE UTE

568: IP Based Route

IN_DISC_MUX_PACKETS_IP_R IN_DISC_MUX_PACKETS_IP_ OUTE ROUTE

568: IP Based Route

OUT_MUX_PACKETS_IP_ROU OUT_MUX_PACKETS_IP_ROU TE TE

568: IP Based Route

OUT_MUXED_PACKETS_IP_R OUT_MUXED_PACKETS_IP_R OUTE OUTE

609: DSP Service Statistics

DSP_SERVICE_CURR_RES_AL DSP_SERVICE_CURR_RES_A LOC LLOC

609: DSP Service Statistics

DSP_SERVICE_PEAK_RES_AL DSP_SERVICE_PEAK_RES_A LOC LLOC

609: DSP Service Statistics

DSP_SERVICE_SUCC_RES_AL DSP_SERVICE_SUCC_RES_A LOC LLOC

609: DSP Service Statistics

DSP_SERVICE_FAIL_RES_ALL DSP_SERVICE_FAIL_RES_AL OC LOC

609: DSP Service Statistics

DSP_SERVICE_FAIL_RES_MO DSP_SERVICE_FAIL_RES_MO DIFY DIFY

610: Logical Resource Usage

DSP_RES_AVER_USAGE_PER DSP_RES_AVER_USAGE_PE CENT RCENT

610: Logical Resource Usage

DSP_RES_MAX_USAGE_PERC DSP_RES_MAX_USAGE_PER ENT CENT

610: Logical Resource Usage

DSP_RES_MIN_USAGE_PERC DSP_RES_MIN_USAGE_PERC ENT ENT

802: RNC Capacity Usage

AMR_AVERAGE

AMR_AVERAGE

802: RNC Capacity Usage

AMR_MAX

AMR_MAX

802: RNC Capacity Usage

AMR_DISTR_CLASS_0

AMR_DISTR_CLASS_0

802: RNC Capacity Usage

AMR_DISTR_CLASS_1

AMR_DISTR_CLASS_1

802: RNC Capacity Usage

AMR_DISTR_CLASS_2

AMR_DISTR_CLASS_2

802: RNC Capacity Usage

AMR_DISTR_CLASS_3

AMR_DISTR_CLASS_3

802: RNC Capacity Usage

AMR_DISTR_CLASS_4

AMR_DISTR_CLASS_4

802: RNC Capacity Usage

AMR_LIC_CAPACITY

AMR_LIC_CAPACITY

802: RNC Capacity Usage

IU_PS_THR_AVERAGE

IU_PS_THR_AVERAGE

802: RNC Capacity Usage

IU_PS_THR_PEAK

IU_PS_THR_PEAK

802: RNC Capacity Usage

IUB_PS_THR_DISTR_CLASS_0 IUB_PS_THR_DISTR_CLASS_ 0

802: RNC Capacity Usage

IUB_PS_THR_DISTR_CLASS_1 IUB_PS_THR_DISTR_CLASS_ 1

802: RNC Capacity Usage

IUB_PS_THR_DISTR_CLASS_2 IUB_PS_THR_DISTR_CLASS_ 2

802: RNC Capacity Usage

IUB_PS_THR_DISTR_CLASS_3 IUB_PS_THR_DISTR_CLASS_ 3

802: RNC Capacity Usage

IUB_PS_THR_DISTR_CLASS_4 IUB_PS_THR_DISTR_CLASS_ 4

802: RNC Capacity Usage

IUB_PS_THR_LIC_CAPACITY

IUB_PS_THR_LIC_CAPACITY

802: RNC Capacity Usage

IU_PS_THR_LIMIT_DURATION IU_PS_THR_LIMIT_DURATION

802: RNC Capacity Usage

AVE_RRC_CONN_MODE_USE AVE_RRC_CONN_MODE_USE RS RS

802: RNC Capacity Usage

MAX_RRC_CONN_MODE_USE MAX_RRC_CONN_MODE_US RS ERS

802: RNC Capacity Usage

AVE_USERS_CELL_DCH

AVE_USERS_CELL_DCH

802: RNC Capacity Usage

AVE_USERS_CELL_FACH

AVE_USERS_CELL_FACH

802: RNC Capacity Usage

AVE_USERS_CELL_PCH

AVE_USERS_CELL_PCH

802: RNC Capacity Usage

AVE_USERS_URA_PCH

AVE_USERS_URA_PCH

802: RNC Capacity Usage

AMR_OVER_HSPA_AVERAGE AMR_OVER_HSPA_AVERAGE

802: RNC Capacity Usage

AMR_OVER_HSPA_MAX

802: RNC Capacity Usage

AVE_RRC_CONN_MODE_LFD_ AVE_RRC_CONN_MODE_LFD UE _UE

802: RNC Capacity Usage

SIGNALING_CAPA_USE_AVE

SIGNALING_CAPA_USE_AVE

802: RNC Capacity Usage

SIGNALING_CAPA_USE_MAX

SIGNALING_CAPA_USE_MAX

AMR_OVER_HSPA_MAX

802: RNC Capacity Usage

SIGNALING_CAPA_LICENSED SIGNALING_CAPA_LICENSED

802: RNC Capacity Usage

PS_THR_LIMIT_DUR_SIGN

PS_THR_LIMIT_DUR_SIGN

803: RNC RTP/RTCP

REC_RTP_PACKETS

REC_RTP_PACKETS

803: RNC RTP/RTCP

REC_RTP_PAYLOAD

REC_RTP_PAYLOAD

803: RNC RTP/RTCP

SENT_RTP_PACKETS

SENT_RTP_PACKETS

803: RNC RTP/RTCP

SENT_RTP_PAYLOAD

SENT_RTP_PAYLOAD

803: RNC RTP/RTCP

LOST_RTP_PACKETS

LOST_RTP_PACKETS

803: RNC RTP/RTCP

SENT_RTCP_PACKETS

SENT_RTCP_PACKETS

803: RNC RTP/RTCP

REC_RTCP_PACKETS

REC_RTCP_PACKETS

803: RNC RTP/RTCP

RTP_JITTER_CLASS_1

RTP_JITTER_CLASS_1

803: RNC RTP/RTCP

RTP_JITTER_CLASS_2

RTP_JITTER_CLASS_2

803: RNC RTP/RTCP

RTP_JITTER_CLASS_3

RTP_JITTER_CLASS_3

803: RNC RTP/RTCP

RTP_JITTER_CLASS_4

RTP_JITTER_CLASS_4

803: RNC RTP/RTCP

RTP_JITTER_CLASS_5

RTP_JITTER_CLASS_5

803: RNC RTP/RTCP

RTP_JITTER_CLASS_6

RTP_JITTER_CLASS_6

803: RNC RTP/RTCP

RTP_JITTER_CLASS_7

RTP_JITTER_CLASS_7

803: RNC RTP/RTCP

RTP_JITTER_CLASS_8

RTP_JITTER_CLASS_8

803: RNC RTP/RTCP

RTP_JITTER_CLASS_9

RTP_JITTER_CLASS_9

803: RNC RTP/RTCP

RTP_JITTER_CLASS_10

RTP_JITTER_CLASS_10

803: RNC RTP/RTCP

RTP_JITTER_CLASS_11

RTP_JITTER_CLASS_11

803: RNC RTP/RTCP

RTP_JITTER_CLASS_12

RTP_JITTER_CLASS_12

803: RNC RTP/RTCP

RTP_JITTER_CLASS_13

RTP_JITTER_CLASS_13

803: RNC RTP/RTCP

RTP_JITTER_CLASS_14

RTP_JITTER_CLASS_14

803: RNC RTP/RTCP

RTP_JITTER_CLASS_15

RTP_JITTER_CLASS_15

803: RNC RTP/RTCP

RTP_JITTER_CLASS_16

RTP_JITTER_CLASS_16

803: RNC RTP/RTCP

RTP_JITTER_CLASS_17

RTP_JITTER_CLASS_17

803: RNC RTP/RTCP

RTP_JITTER_CLASS_18

RTP_JITTER_CLASS_18

803: RNC RTP/RTCP

RTP_JITTER_CLASS_19

RTP_JITTER_CLASS_19

803: RNC RTP/RTCP

RTP_JITTER_CLASS_20

RTP_JITTER_CLASS_20

803: RNC RTP/RTCP

MAX_RTP_JITTER

MAX_RTP_JITTER

803: RNC RTP/RTCP

LOST_EGRESS_RTP_PACKET LOST_EGRESS_RTP_PACKET S S

804: RNC IP CAC

SUCC_RNC_IP_RES

SUCC_RNC_IP_RES

804: RNC IP CAC

FAIL_RNC_IP_RES_EXT

FAIL_RNC_IP_RES_EXT

804: RNC IP CAC

FAIL_RNC_IP_RES_INT

FAIL_RNC_IP_RES_INT

804: RNC IP CAC

FAIL_RNC_IP_RES_OTHER

FAIL_RNC_IP_RES_OTHER

804: RNC IP CAC

SUCC_BTS_IP_RES

SUCC_BTS_IP_RES

804: RNC IP CAC

FAIL_BTS_IP_RES_EXT_TRAN FAIL_BTS_IP_RES_EXT_TRA S NS

804: RNC IP CAC

FAIL_BTS_IP_RES_OTHER_TR FAIL_BTS_IP_RES_OTHER_T ANS RANS

1000: Cell Resource

AVE PRXTOT CLASS 0

ave_prxtot_class_0

1000: Cell Resource

PRXTOT DENOM 0

prxtot_denom_0

1000: Cell Resource

AVE PRXTOT CLASS 1

ave_prxtot_class_1

1000: Cell Resource

PRXTOT DENOM 1

prxtot_denom_1

1000: Cell Resource

AVE PRXTOT CLASS 2

ave_prxtot_class_2

1000: Cell Resource

PRXTOT DENOM 2

prxtot_denom_2

1000: Cell Resource

AVE PRXTOT CLASS 3

ave_prxtot_class_3

1000: Cell Resource

PRXTOT DENOM 3

prxtot_denom_3

1000: Cell Resource

AVE PRXTOT CLASS 4

ave_prxtot_class_4

1000: Cell Resource

PRXTOT DENOM 4

prxtot_denom_4

1000: Cell Resource

AVE PRX NOISE

ave_prx_noise

1000: Cell Resource

PRX NOISE DENOM 1

prx_noise_denom_1

1000: Cell Resource

MAXIMUM PRX NOISE VALUE

max_prx_noise_value

1000: Cell Resource

MINIMUM PRX NOISE VALUE

min_prx_noise_value

1000: Cell Resource

AVE PTXTOT CLASS 0

ave_ptxtot_class_0

1000: Cell Resource

PTXTOT DENOM 0

ptxtot_denom_0

1000: Cell Resource

AVE PTXTOT CLASS 1

ave_ptxtot_class_1

1000: Cell Resource

PTXTOT DENOM 1

ptxtot_denom_1

1000: Cell Resource

AVE PTXTOT CLASS 2

ave_ptxtot_class_2

1000: Cell Resource

PTXTOT DENOM 2

ptxtot_denom_2

1000: Cell Resource

AVE PTXTOT CLASS 3

ave_ptxtot_class_3

1000: Cell Resource

PTXTOT DENOM 3

ptxtot_denom_3

1000: Cell Resource

AVE PTXTOT CLASS 4

ave_ptxtot_class_4

1000: Cell Resource

PTXTOT DENOM 4

ptxtot_denom_4

1000: Cell Resource

AVE LRT CLASS 0

ave_lrt_class_0

1000: Cell Resource

LRT DENOM 0

lrt_denom_0

1000: Cell Resource

AVE LRT CLASS 1

ave_lrt_class_1

1000: Cell Resource

LRT DENOM 1

lrt_denom_1

1000: Cell Resource

AVE LRT CLASS 2

ave_lrt_class_2

1000: Cell Resource

LRT DENOM 2

lrt_denom_2

1000: Cell Resource

AVE LRT CLASS 3

ave_lrt_class_3

1000: Cell Resource

LRT DENOM 3

lrt_denom_3

1000: Cell Resource

AVE LRT CLASS 4

ave_lrt_class_4

1000: Cell Resource

LRT DENOM 4

lrt_denom_4

1000: Cell Resource

AVE LNRT CLASS 0

ave_lnrt_class_0

1000: Cell Resource

LNRT DENOM 0

lnrt_denom_0

1000: Cell Resource

AVE LNRT CLASS 1

ave_lnrt_class_1

1000: Cell Resource

LNRT DENOM 1

lnrt_denom_1

1000: Cell Resource

AVE LNRT CLASS 2

ave_lnrt_class_2

1000: Cell Resource

LNRT DENOM 2

lnrt_denom_2

1000: Cell Resource

AVE LNRT CLASS 3

ave_lnrt_class_3

1000: Cell Resource

LNRT DENOM 3

lnrt_denom_3

1000: Cell Resource

AVE LNRT CLASS 4

ave_lnrt_class_4

1000: Cell Resource

LNRT DENOM 4

lnrt_denom_4

1000: Cell Resource

AVE PTX NRT CLASS 0

ave_ptx_nrt_class_0

1000: Cell Resource

PTX NRT DENOM 0

ptx_nrt_denom_0

1000: Cell Resource

AVE PTX NRT CLASS 1

ave_ptx_nrt_class_1

1000: Cell Resource

PTX NRT DENOM 1

ptx_nrt_denom_1

1000: Cell Resource

AVE PTX NRT CLASS 2

ave_ptx_nrt_class_2

1000: Cell Resource

PTX NRT DENOM 2

ptx_nrt_denom_2

1000: Cell Resource

AVE PTX NRT CLASS 3

ave_ptx_nrt_class_3

1000: Cell Resource

PTX NRT DENOM 3

ptx_nrt_denom_3

1000: Cell Resource

AVE PTX NRT CLASS 4

ave_ptx_nrt_class_4

1000: Cell Resource

PTX NRT DENOM 4

ptx_nrt_denom_4

1000: Cell Resource

AVE RACH THROUGHPUT

ave_rach_throughput

1000: Cell Resource

RACH DENOM 3

rach_denom_3

1000: Cell Resource

AVE RACH DATA THROUGHPUT

ave_rach_data_throughput

1000: Cell Resource

RACH DENOM 4

rach_denom_4

1000: Cell Resource

AVE SCCPCH INC PCH LOAD

ave_sccpch_inc_pch_load

1000: Cell Resource

SCCPCH LOAD DENOM 0

sccpch_load_denom_0

1000: Cell Resource

AVE FACH USER TOT THROUGHPUT FOR SCCPCH INC PCH

ave_fach_u_tot_tput_sccp_pch

1000: Cell Resource

FACH USER TOT THROUGHPUT DENOM 0

fach_user_tot_tput_denom_0

1000: Cell Resource

AVE FACH USER DATA THROUGHPUT FOR SCCPCH INC PCH

ave_fach_udata_tp_sccpch_pch

1000: Cell Resource

FACH USER DATA THROUGHPUT DENOM 0

fach_u_data_tput_denom_0

1000: Cell Resource

AVE PCH THROUGHPUT

ave_pch_throughput

1000: Cell Resource

PCH THROUGHPUT DENOM 0

pch_throughput_denom_0

1000: Cell Resource

AVERAGE USAGE OF CODE CAPACITY

code_capacity

1000: Cell Resource

DENOMINATOR FOR AVERAGE USAGE OF CODE CAPACITY

denom_code_capacity

1000: Cell Resource

MINIMUM CODE OCCUPANCY min_code_occupancy_percent PERCENTAGE

1000: Cell Resource

MAX CODE OCCUPANCY PERCENTAGE

max_code_occupance_percent

1000: Cell Resource

NO CODES AVAILABLE SF4

no_codes_available_sf4

1000: Cell Resource

NO CODES AVAILABLE SF8

no_codes_available_sf8

1000: Cell Resource

NO CODES AVAILABLE SF16

no_codes_available_sf16

1000: Cell Resource

NO CODES AVAILABLE SF32

no_codes_available_sf32

1000: Cell Resource

NO CODES AVAILABLE SF64

no_codes_available_sf64

1000: Cell Resource

NO CODES AVAILABLE SF128

no_codes_available_sf128

1000: Cell Resource

NO CODES AVAILABLE SF256

no_codes_available_sf256

1000: Cell Resource

THE NBR OF SUCC CODE TREE ALLO

nbr_succ_code_tree_allo

1000: Cell Resource

AVE TRX FOR RL IN CELL

ave_trx_for_rl_in_cell

1000: Cell Resource

NBR OF RLS

nbr_of_rls

1000: Cell Resource

SUM SQR TRX FOR RL IN CELL

sum_sqr_for_rl_in_cell

1000: Cell Resource

NBR OF RL MEAS REPS

nbr_of_rl_meas_reps

1000: Cell Resource

AVE PTX RT CLASS 0

ave_ptx_rt_class_0

1000: Cell Resource

PTX RT DENOM 0

ptx_rt_denom_0

1000: Cell Resource

AVE PTX RT CLASS 1

ave_ptx_rt_class_1

1000: Cell Resource

PTX RT DENOM 1

ptx_rt_denom_1

1000: Cell Resource

AVE PTX RT CLASS 2

ave_ptx_rt_class_2

1000: Cell Resource

PTX RT DENOM 2

ptx_rt_denom_2

1000: Cell Resource

AVE PTX RT CLASS 3

ave_ptx_rt_class_3

1000: Cell Resource

PTX RT DENOM 3

ptx_rt_denom_3

1000: Cell Resource

AVE PTX RT CLASS 4

ave_ptx_rt_class_4

1000: Cell Resource

PTX RT DENOM 4

ptx_rt_denom_4

1000: Cell Resource

AVE SCCPCH EXC PCH LOAD

ave_sccpch_load

1000: Cell Resource

SCCPCH LOAD DENOM 1

sccpch_load_denom_1

1000: Cell Resource

AVE FACH USER TOT THROUGHPUT FOR SCCPCH EXC PCH

ave_fach_user_tot_tput

1000: Cell Resource

FACH USER TOT THROUGHPUT DENOM 1

fach_user_tot_tput_denom_1

1000: Cell Resource

AVE FACH USER DATA THROUGHPUT FOR SCCPCH EXC PCH

ave_fach_udata_tp_sccpch

1000: Cell Resource

FACH USER DATA THROUGHPUT DENOM 1

fach_u_data_tput_denom_1

1000: Cell Resource

AVE FACH TOTAL THROUGHPUT SAB

FACH_THRPUT_SAB_USER_S IGN

1000: Cell Resource

AVE FACH TOTAL THROUGHPUT SAB DENOM

FACH_THRPUT_SAB_USER_S IG_DEN

1000: Cell Resource

AVE FACH USER THROUGHPUT SAB

FACH_THRPUT_SAB_USER

1000: Cell Resource

AVE FACH USER THROUGHPUT SAB DENOM

FACH_THRPUT_SAB_USER_ DEN

1000: Cell Resource

AVERAGE RATIO BETWEEN AVG_NON_HSDPA_PWR NON HSDPA POWER AND THE MAXIMUM POWER

1000: Cell Resource

NON HSDPA POWER DENOMINATOR

1000: Cell Resource

AVERAGE RATIO FOR ACTIVE AVG_ACTIVE_NON_HSDPA_P NON HSDPA POWER AND THE WR MAXIMUM POWER

1000: Cell Resource

ACTIVE NON HSDPA POWER DENOMINATOR

AVG_NON_HSDPA_PWR_DEN OM

AVG_ACT_NON_HSDPA_PWR _DENOM

1000: Cell Resource

RB DOWNGRADE BY ENH OVERLOAD CONTROL USING TFC SUBSET

RB_DOWNGR_DUE_OLC_TFC _SUBS

1000: Cell Resource

RB DOWNGRADE BY DYN LINK OPT DUE TO RL POWER CONGESTION

RB_DOWNGR_DUE_DYLO_RL _POWER

1000: Cell Resource

RB DOWNGRADE BY PBS DUE RB_DOWNGR_DUE_PBS_AAL TO AAL2 CONGESTION 2

1000: Cell Resource

RB DOWNGRADE BY PBS DUE RB_DOWNGR_DUE_PBS_BTS TO BTS CONGESTION

1000: Cell Resource

RB DOWNGRADE BY PBS DUE RB_DOWNGR_DUE_PBS_INT TO INTERFERENCE ERF CONGESTION

1000: Cell Resource

RB DOWNGRADE BY PBS DUE RB_DOWNGR_DUE_PBS_SPR TO SPREADING CODE EAD CONGESTION

1000: Cell Resource

RB DOWNGRADE BY PREEMPTION DUE TO AAL2 CONGESTION

RB_DOWNGR_DUE_PRE_EM P_AAL2

1000: Cell Resource

RB DOWNGRADE BY PREEMPTION DUE TO BTS CONGESTION

RB_DOWNGR_DUE_PRE_EM P_BTS

1000: Cell Resource

RB DOWNGRADE BY PRERB_DOWNGR_DUE_PRE_EM EMPTION DUE TO P_INTERF INTERFERENCE CONGESTION

1000: Cell Resource

RB DOWNGRADE BY PRERB_DOWNGR_DUE_PRE_EM EMPTION DUE TO SPREADING P_SPREAD CODE CONGESTION

1000: Cell Resource

RB DOWNGRADE BY ENH OVERLOAD CONTROL USING RL RECONF

RB_DOWNGR_DUE_OLC_RL_ RECONF

1000: Cell Resource

RB RELEASE BY DYN LINK OPT DUE TO RL POWER CONGESTION

RB_RELEASE_DUE_DYLO_RL _POWER

1000: Cell Resource

RB RELEASE BY PBS DUE TO AAL2 CONGESTION

RB_RELEASE_DUE_PBS_AAL 2

1000: Cell Resource

RB RELEASE BY PBS DUE TO BTS CONGESTION

RB_RELEASE_DUE_PBS_BTS

1000: Cell Resource

RB RELEASE BY PBS DUE TO RB_RELEASE_DUE_PBS_INT INTERFERENCE CONGESTION ERF

1000: Cell Resource

RB RELEASE BY PBS DUE TO SPREADING CODE CONGESTION

RB_RELEASE_DUE_PBS_SPR EAD

1000: Cell Resource

RB RELEASE BY PREEMPTION DUE TO AAL2 CONGESTION

RB_RELEASE_DUE_PRE_EM P_AAL2

1000: Cell Resource

RB RELEASE BY PREEMPTION DUE TO BTS CONGESTION

RB_RELEASE_DUE_PRE_EM P_BTS

1000: Cell Resource

RB RELEASE BY PRERB_RELEASE_DUE_PRE_EM EMPTION DUE TO P_INTF INTERFERENCE CONGESTION

1000: Cell Resource

RB RELEASE BY PRERB_RELEASE_DUE_PRE_EM EMPTION DUE TO SPREADING P_SPREA CODE CONGESTION

1000: Cell Resource

RB RELEASE DUE TO ENH OVERLOAD CONTROL USING RL RECONF

RB_RELEASE_DUE_OLC_RL_ RECONF

1000: Cell Resource

DURATION OF NO ACTIVE HSDPA USERS

DUR_HSDPA_NO_USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DUR_HSDPA_USERS_1_OR_2 USERS - 1 OR 2 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DUR_HSDPA_USERS_3_OR_4 USERS - 3 OR 4 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DUR_HSDPA_USERS_5_OR_6 USERS - 5 OR 6 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DUR_HSDPA_USERS_7_OR_8 USERS - 7 OR 8 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DUR_HSDPA_USERS_9_OR_1 USERS - 9 OR 10 0 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DUR_HSDPA_USERS_11_OR_ USERS - 11 OR 12 12 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DUR_HSDPA_USERS_13_OR_ USERS - 13 OR 14 14 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DUR_HSDPA_USERS_15_OR_ USERS - 15 OR 16 16 SIMULTANEOUS USERS

1000: Cell Resource

SUM RACH ACK PREAMBLES

SUM_RACH_ACK_PREAMBLE S

1000: Cell Resource

DENOM RACH ACK PREAMBLES

DENOM_RACH_ACK_PREAM BLES

1000: Cell Resource

AVAILABILITY WCELL IN WORKING STATE

AVAIL_WCELL_IN_WO_STATE

1000: Cell Resource

AVAILABILITY WCELL BLOCKED BY USER

AVAIL_WCELL_BLOCKED_BY _USER

1000: Cell Resource

AVAILABILITY WCELL EXISTS IN RNW DATABASE

AVAIL_WCELL_EXISTS_IN_R NW_DB

1000: Cell Resource

NUMBER OF SAMPLES FOR CE CALCULATION

CE_SAMPLE_AMOUNT

1000: Cell Resource

AVERAGE USED CE FOR AMR AVE_CE_USED_AMR ALLOCATIONS

1000: Cell Resource

AVERAGE USED CE FOR CS CONVERSATIONAL 64 KBPS

AVE_CE_USED_CS_CONV_64

1000: Cell Resource

AVERAGE USED CE FOR CS STREAMING 14.4 KBPS

AVE_CE_USED_CS_STR_14_ 4

1000: Cell Resource

AVERAGE USED CE FOR CS STREAMING 57.6 KBPS

AVE_CE_USED_CS_STR_57_ 6

1000: Cell Resource

AVERAGE USED CE FOR PS STREAMING 8 KBPS UL

AVE_CE_USED_PS_STR_8_U L

1000: Cell Resource

AVERAGE USED CE FOR PS STREAMING 16 KBPS UL

AVE_CE_USED_PS_STR_16_ UL

1000: Cell Resource

AVERAGE USED CE FOR PS STREAMING 32 KBPS UL

AVE_CE_USED_PS_STR_32_ UL

1000: Cell Resource

AVERAGE USED CE FOR PS STREAMING 64 KBPS UL

AVE_CE_USED_PS_STR_64_ UL

1000: Cell Resource

AVERAGE USED CE FOR PS STREAMING 128 KBPS UL

AVE_CE_USED_PS_STR_128 _UL

1000: Cell Resource

AVERAGE USED CE FOR PS STREAMING 8 KBPS DL

AVE_CE_USED_PS_STR_8_D L

1000: Cell Resource

AVERAGE USED CE FOR PS STREAMING 16 KBPS DL

AVE_CE_USED_PS_STR_16_ DL

1000: Cell Resource

AVERAGE USED CE FOR PS STREAMING 32 KBPS DL

AVE_CE_USED_PS_STR_32_ DL

1000: Cell Resource

AVERAGE USED CE FOR PS STREAMING 64 KBPS DL

AVE_CE_USED_PS_STR_64_ DL

1000: Cell Resource

AVERAGE USED CE FOR PS STREAMING 128 KBPS DL

AVE_CE_USED_PS_STR_128 _DL

1000: Cell Resource

AVERAGE USED CE FOR PS STREAMING 256 KBPS DL

AVE_CE_USED_PS_STR_256 _DL

1000: Cell Resource

AVERAGE USED CE FOR PS STREAMING 384 KBPS DL

AVE_CE_USED_PS_STR_384 _DL

1000: Cell Resource

AVERAGE USED CE FOR PS INTERACTIVE 8 KBPS UL

AVE_CE_USED_PS_INT_8_UL

1000: Cell Resource

AVERAGE USED CE FOR PS INTERACTIVE 16 KBPS UL

AVE_CE_USED_PS_INT_16_U L

1000: Cell Resource

AVERAGE USED CE FOR PS INTERACTIVE 32 KBPS UL

AVE_CE_USED_PS_INT_32_U L

1000: Cell Resource

AVERAGE USED CE FOR PS INTERACTIVE 64 KBPS UL

AVE_CE_USED_PS_INT_64_U L

1000: Cell Resource

AVERAGE USED CE FOR PS INTERACTIVE 128 KBPS UL

AVE_CE_USED_PS_INT_128_ UL

1000: Cell Resource

AVERAGE USED CE FOR PS INTERACTIVE 256 KBPS UL

AVE_CE_USED_PS_INT_256_ UL

1000: Cell Resource

AVERAGE USED CE FOR PS INTERACTIVE 384 KBPS UL

AVE_CE_USED_PS_INT_384_ UL

1000: Cell Resource

AVERAGE USED CE FOR PS INTERACTIVE 8 KBPS DL

AVE_CE_USED_PS_INT_8_DL

1000: Cell Resource

AVERAGE USED CE FOR PS INTERACTIVE 16 KBPS DL

AVE_CE_USED_PS_INT_16_D L

1000: Cell Resource

AVERAGE USED CE FOR PS INTERACTIVE 32 KBPS DL

AVE_CE_USED_PS_INT_32_D L

1000: Cell Resource

AVERAGE USED CE FOR PS INTERACTIVE 64 KBPS DL

AVE_CE_USED_PS_INT_64_D L

1000: Cell Resource

AVERAGE USED CE FOR PS INTERACTIVE 128 KBPS DL

AVE_CE_USED_PS_INT_128_ DL

1000: Cell Resource

AVERAGE USED CE FOR PS INTERACTIVE 256 KBPS DL

AVE_CE_USED_PS_INT_256_ DL

1000: Cell Resource

AVERAGE USED CE FOR PS INTERACTIVE 384 KBPS DL

AVE_CE_USED_PS_INT_384_ DL

1000: Cell Resource

AVERAGE USED CE FOR PS BACKGROUND 8 KBPS UL

AVE_CE_USED_PS_BGR_8_U L

1000: Cell Resource

AVERAGE USED CE FOR PS BACKGROUND 16 KBPS UL

AVE_CE_USED_PS_BGR_16_ UL

1000: Cell Resource

AVERAGE USED CE FOR PS BACKGROUND 32 KBPS UL

AVE_CE_USED_PS_BGR_32_ UL

1000: Cell Resource

AVERAGE USED CE FOR PS BACKGROUND 64 KBPS UL

AVE_CE_USED_PS_BGR_64_ UL

1000: Cell Resource

AVERAGE USED CE FOR PS BACKGROUND 128 KBPS UL

AVE_CE_USED_PS_BGR_128 _UL

1000: Cell Resource

AVERAGE USED CE FOR PS BACKGROUND 256 KBPS UL

AVE_CE_USED_PS_BGR_256 _UL

1000: Cell Resource

AVERAGE USED CE FOR PS BACKGROUND 384 KBPS UL

AVE_CE_USED_PS_BGR_384 _UL

1000: Cell Resource

AVERAGE USED CE FOR PS BACKGROUND 8 KBPS DL

AVE_CE_USED_PS_BGR_8_D L

1000: Cell Resource

AVERAGE USED CE FOR PS BACKGROUND 16 KBPS DL

AVE_CE_USED_PS_BGR_16_ DL

1000: Cell Resource

AVERAGE USED CE FOR PS BACKGROUND 32 KBPS DL

AVE_CE_USED_PS_BGR_32_ DL

1000: Cell Resource

AVERAGE USED CE FOR PS BACKGROUND 64 KBPS DL

AVE_CE_USED_PS_BGR_64_ DL

1000: Cell Resource

AVERAGE USED CE FOR PS BACKGROUND 128 KBPS DL

AVE_CE_USED_PS_BGR_128 _DL

1000: Cell Resource

AVERAGE USED CE FOR PS BACKGROUND 256 KBPS DL

AVE_CE_USED_PS_BGR_256 _DL

1000: Cell Resource

AVERAGE USED CE FOR PS BACKGROUND 384 KBPS DL

AVE_CE_USED_PS_BGR_384 _DL

1000: Cell Resource

RB DOWNGRADE DUE TO THROUGHPUT BASED OPTIMIZATION

RB_DOWNGR_DUE_THRPOP T

1000: Cell Resource

RB RELEASE DUE TO THROUGHPUT BASED OPTIMIZATION

RB_RELEASE_DUE_THRPOP T

1000: Cell Resource

MAXIMUM PRXTOTAL

MAXIMUM_PRXTOTAL

1000: Cell Resource

MINIMUM PRXTOTAL

MINIMUM_PRXTOTAL

1000: Cell Resource

MAXIMUM PTXTOTAL

MAXIMUM_PTXTOTAL

1000: Cell Resource

MINIMUM PTXTOTAL

MINIMUM_PTXTOTAL

1000: Cell Resource

MINIMUM PTXTARGETPS

MIN_PTX_TARGET_PS

1000: Cell Resource

MAXIMUM PTXTARGETPS

MAX_PTX_TARGET_PS

1000: Cell Resource

AVERAGE PTXTARGETPS

AVE_PTX_TARGET_PS

1000: Cell Resource

PTXTARGETPS DENOM

PTX_TARGET_PS_DENOM

1000: Cell Resource

MIN HSPA DL POWER

MIN_HSPA_DL_POWER

1000: Cell Resource

MAX HSPA DL POWER

MAX_HSPA_DL_POWER

1000: Cell Resource

AVE HSPA DL POWER

AVE_HSPA_DL_POWER

1000: Cell Resource

HSPA DL POWER SAMPLES

HSPA_DL_POWER_SAMPLES

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_17_TO USERS - 17 TO 20 _20 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_21_TO USERS - 21 TO 24 _24 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_25_TO USERS - 25 TO 28 _28 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_29_TO USERS - 29 TO 32 _32 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_33_TO USERS - 33 TO 36 _36 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_37_TO USERS - 37 TO 40 _40 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_41_TO USERS - 41 TO 44 _44 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_45_TO USERS - 45 TO 48 _48 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF HSDPA 5 CODES RESERVATION

DURA_HSDPA_5_CODE

1000: Cell Resource

DURATION OF HSDPA 6 CODES RESERVATION

DURA_HSDPA_6_CODE

1000: Cell Resource

DURATION OF HSDPA 7 CODES RESERVATION

DURA_HSDPA_7_CODE

1000: Cell Resource

DURATION OF HSDPA 8 CODES RESERVATION

DURA_HSDPA_8_CODE

1000: Cell Resource

DURATION OF HSDPA 9 CODES RESERVATION

DURA_HSDPA_9_CODE

1000: Cell Resource

DURATION OF HSDPA 10 CODES RESERVATION

DURA_HSDPA_10_CODE

1000: Cell Resource

DURATION OF HSDPA 11 CODES RESERVATION

DURA_HSDPA_11_CODE

1000: Cell Resource

DURATION OF HSDPA 12 CODES RESERVATION

DURA_HSDPA_12_CODE

1000: Cell Resource

DURATION OF HSDPA 13 CODES RESERVATION

DURA_HSDPA_13_CODE

1000: Cell Resource

DURATION OF HSDPA 14 CODES RESERVATION

DURA_HSDPA_14_CODE

1000: Cell Resource

DURATION OF HSDPA 15 CODES RESERVATION

DURA_HSDPA_15_CODE

1000: Cell Resource

CHANNELIZATION CODE SF4 REQUESTED

CHAN_CODE_SF4_REQUEST

1000: Cell Resource

CHANNELIZATION CODE SF8 REQUESTED

CHAN_CODE_SF8_REQUEST

1000: Cell Resource

CHANNELIZATION CODE SF16 CHAN_CODE_SF16_REQUES REQUESTED T

1000: Cell Resource

CHANNELIZATION CODE SF32 CHAN_CODE_SF32_REQUES REQUESTED T

1000: Cell Resource

CHANNELIZATION CODE SF64 CHAN_CODE_SF64_REQUES REQUESTED T

1000: Cell Resource

CHANNELIZATION CODE SF128 REQUESTED

CHAN_CODE_SF128_REQUE ST

1000: Cell Resource

CHANNELIZATION CODE SF256 REQUESTED

CHAN_CODE_SF256_REQUE ST

1000: Cell Resource

HSDPA CH CODE DOWNGRADE DUE TO RT

CH_CODE_DOWNG_RT

1000: Cell Resource

HSDPA CH CODE DOWNGRADE DUE TO NRT DCH

CH_CODE_DOWNG_NRT_DC H

1000: Cell Resource

BTS HSUPA NOT HW LIMITED DURATION

BTS_HSUPA_HW_NOT_LIMIT ED_DUR

1000: Cell Resource

BTS HSUPA HW LIMITED DURATION

BTS_HSUPA_HW_LIMITED_D UR

1000: Cell Resource

BTS HSUPA HW NO CAPACITY BTS_HSUPA_NO_HW_CAPA_ DURATION DUR

1000: Cell Resource

DURATION OF NO ACTIVE HSUPA USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DUR_HSUPA_USERS_1_OR_2 USERS - 1 OR 2 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DUR_HSUPA_USERS_3_OR_4 USERS - 3 OR 4 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DUR_HSUPA_USERS_5_OR_6 USERS - 5 OR 6 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DUR_HSUPA_USERS_7_OR_8 USERS - 7 OR 8 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DUR_HSUPA_USERS_9_OR_1 USERS - 9 OR 10 0 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DUR_HSUPA_USERS_11_OR_ USERS - 11 OR 12 12 SIMULTANEOUS USERS

DUR_HSUPA_NO_USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DUR_HSUPA_USERS_13_OR_ USERS - 13 OR 14 14 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DUR_HSUPA_USERS_15_OR_ USERS - 15 OR 16 16 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DUR_HSUPA_USERS_17_OR_ USERS - 17 OR 18 18 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DUR_HSUPA_USERS_19_OR_ USERS - 19 OR 20 20 SIMULTANEOUS USERS

1000: Cell Resource

MAX NUMBER OF HSDPA USERS PER CELL

MAX_HSDPA_USERS_IN_CEL L

1000: Cell Resource

MAX NUMBER OF HSUPA USERS PER CELL

MAX_HSUPA_USERS_IN_CEL L

1000: Cell Resource

SUM OF HSDPA USERS PER CELL

SUM_HSDPA_USERS_IN_CEL L

1000: Cell Resource

HSDPA USERS PER CELL DENOMINATOR

DENOM_HSDPA_USERS_PER _CELL

1000: Cell Resource

SUM OF HSUPA USERS PER CELL

SUM_HSUPA_USERS_IN_CEL L

1000: Cell Resource

HSUPA USERS PER CELL DENOMINATOR

DENOM_HSUPA_USERS_PER _CELL

1000: Cell Resource

AMR TXPOWER LOAD UNDERLOAD

AMR_TXPOW_LOAD_UNDERL OAD

1000: Cell Resource

AMR TXPOWER LOAD BELOW AMR_TXPOW_LOAD_BELOW_ TARGET TARGET

1000: Cell Resource

AMR TXPOWER LOAD OVER TARGET

AMR_TXPOW_LOAD_OVER_T ARGET

1000: Cell Resource

AMR TXPOWER LOAD OVERLOAD

AMR_TXPOW_LOAD_OVERLO AD

1000: Cell Resource

AMR SPREADING CODE UNDERLOAD

AMR_CODE_LOAD_UNDERLO AD

1000: Cell Resource

AMR SPREADING CODE LOAD AMR_CODE_LOAD_BELOW_T BELOW TARGET ARGET

1000: Cell Resource

AMR SPREADING CODE LOAD AMR_CODE_LOAD_OVER_TA OVER TARGET RGET

1000: Cell Resource

AMR SPREADING CODE LOAD AMR_CODE_LOAD_OVERLOA OVERLOAD D

1000: Cell Resource

AMR TRANSMISSION LOAD UNDERLOAD

AMR_TRANSM_LOAD_UNDER LOAD

1000: Cell Resource

AMR TRANSMISSION LOAD BELOW TARGET

AMR_TRANSM_LOAD_BELOW _TARGET

1000: Cell Resource

AMR TRANSMISSION LOAD OVER TARGET

AMR_TRANSM_LOAD_OVER_ TARGET

1000: Cell Resource

AMR TRANSMISSION LOAD OVERLOAD

AMR_TRANSM_LOAD_OVERL OAD

1000: Cell Resource

SUM STREAMING HS-DSCH MAC-D IN CELL

SUM_HSDSCH_MACD_STREA

1000: Cell Resource

STREAMING HS-DSCH MAC-D DENOM_HSDSCH_MACD_ST DENOMINATOR REA

1000: Cell Resource

SUM INTERACTIVE HS-DSCH MAC-D IN CELL

SUM_HSDSCH_MACD_INTER A

1000: Cell Resource

INTERACTIVE HS-DSCH MACD DENOMINATOR

DENOM_HSDSCH_MACD_INT ERA

1000: Cell Resource

SUM BACKGROUND HS-DSCH SUM_HSDSCH_MACD_BGR MAC-D IN CELL

1000: Cell Resource

BACKGROUND HS-DSCH MAC- DENOM_HSDSCH_MACD_BG D DENOMINATOR R

1000: Cell Resource

SUM STREAMING E-DCH MAC- SUM_EDCH_MACD_STREA D IN CELL

1000: Cell Resource

STREAMING E-DCH MAC-D DENOMINATOR

DENOM_EDCH_MACD_STRE A

1000: Cell Resource

SUM INTERACTIVE E-DCH MAC-D IN CELL

SUM_EDCH_MACD_INTERA

1000: Cell Resource

INTERACTIVE E-DCH MAC-D DENOMINATOR

DENOM_EDCH_MACD_INTER A

1000: Cell Resource

SUM BACKGROUND E-DCH MAC-D IN CELL

SUM_EDCH_MACD_BGR

1000: Cell Resource

BACKGROUND E-DCH MAC-D DENOMINATOR

DENOM_EDCH_MACD_BGR

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_1 USERS - 1 SIMULTANEOUS USER

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_3 USERS - 3 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_49_TO USERS - 49 TO 52 _52 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_53_TO USERS - 53 TO 56 _56 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_57_TO USERS - 57 TO 60 _60 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_61_TO USERS - 61 TO 64 _64 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DUR_HSUPA_USERS_1 USERS - 1 SIMULTANEOUS USER

1000: Cell Resource

DURATION OF ACTIVE HSUPA DUR_HSUPA_USERS_3 USERS - 3 SIMULTANEOUS USERS

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 0

RTWP_CLASS_0

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 1

RTWP_CLASS_1

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 2

RTWP_CLASS_2

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 3

RTWP_CLASS_3

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 4

RTWP_CLASS_4

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 5

RTWP_CLASS_5

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 6

RTWP_CLASS_6

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 7

RTWP_CLASS_7

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 8

RTWP_CLASS_8

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 9

RTWP_CLASS_9

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 10

RTWP_CLASS_10

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 11

RTWP_CLASS_11

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 12

RTWP_CLASS_12

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 13

RTWP_CLASS_13

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 14

RTWP_CLASS_14

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 15

RTWP_CLASS_15

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 16

RTWP_CLASS_16

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 17

RTWP_CLASS_17

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 18

RTWP_CLASS_18

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 19

RTWP_CLASS_19

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 20

RTWP_CLASS_20

1000: Cell Resource

RECEIVED TOTAL WIDEBAND POWER CLASS 21

RTWP_CLASS_21

1000: Cell Resource

TRANSMITTED CARRIER POWER CLASS 0

TX_CR_PWR_CLASS_0

1000: Cell Resource

TRANSMITTED CARRIER POWER CLASS 1

TX_CR_PWR_CLASS_1

1000: Cell Resource

TRANSMITTED CARRIER POWER CLASS 2

TX_CR_PWR_CLASS_2

1000: Cell Resource

TRANSMITTED CARRIER POWER CLASS 3

TX_CR_PWR_CLASS_3

1000: Cell Resource

TRANSMITTED CARRIER POWER CLASS 4

TX_CR_PWR_CLASS_4

1000: Cell Resource

TRANSMITTED CARRIER POWER CLASS 5

TX_CR_PWR_CLASS_5

1000: Cell Resource

TRANSMITTED CARRIER POWER CLASS 6

TX_CR_PWR_CLASS_6

1000: Cell Resource

TRANSMITTED CARRIER POWER CLASS 7

TX_CR_PWR_CLASS_7

1000: Cell Resource

TRANSMITTED CARRIER POWER CLASS 8

TX_CR_PWR_CLASS_8

1000: Cell Resource

TRANSMITTED CARRIER POWER CLASS 9

TX_CR_PWR_CLASS_9

1000: Cell Resource

TRANSMITTED CARRIER POWER CLASS 10

TX_CR_PWR_CLASS_10

1000: Cell Resource

TRANSMITTED CODE POWER TX_CODE_PWR_CLASS_0 CLASS 0

1000: Cell Resource

TRANSMITTED CODE POWER TX_CODE_PWR_CLASS_1 CLASS 1

1000: Cell Resource

TRANSMITTED CODE POWER TX_CODE_PWR_CLASS_2 CLASS 2

1000: Cell Resource

TRANSMITTED CODE POWER TX_CODE_PWR_CLASS_3 CLASS 3

1000: Cell Resource

TRANSMITTED CODE POWER TX_CODE_PWR_CLASS_4 CLASS 4

1000: Cell Resource

TRANSMITTED CODE POWER TX_CODE_PWR_CLASS_5 CLASS 5

1000: Cell Resource

TRANSMITTED CODE POWER TX_CODE_PWR_CLASS_6 CLASS 6

1000: Cell Resource

TRANSMITTED CODE POWER TX_CODE_PWR_CLASS_7 CLASS 7

1000: Cell Resource

TRANSMITTED CODE POWER TX_CODE_PWR_CLASS_8 CLASS 8

1000: Cell Resource

TRANSMITTED CODE POWER TX_CODE_PWR_CLASS_9 CLASS 9

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_17_O USERS - 17 OR 18 R_18 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_65_TO USERS - 65 TO 72 _72 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DURA_HSUPA_USERS_21_TO USERS - 21 TO 24 _24 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DURA_HSUPA_USERS_25_TO USERS - 25 TO 28 _28 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DURA_HSUPA_USERS_29_TO USERS - 29 TO 32 _32 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DURA_HSUPA_USERS_33_TO USERS - 33 TO 36 _36 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DURA_HSUPA_USERS_37_TO USERS - 37 TO 40 _40 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DURA_HSUPA_USERS_41_TO USERS - 41 TO 44 _44 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DURA_HSUPA_USERS_45_TO USERS - 45 TO 48 _48 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DURA_HSUPA_USERS_49_TO USERS - 49 TO 52 _52 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DURA_HSUPA_USERS_53_TO USERS - 53 TO 56 _56 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DURA_HSUPA_USERS_57_TO USERS - 57 TO 60 _60 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DURA_HSUPA_USERS_61_TO USERS - 61 TO 64 _64 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DURA_HSUPA_USERS_65_TO USERS - 65 TO 72 _72 SIMULTANEOUS USERS

1000: Cell Resource

WCELL POWER SAVING MODE WCELL_POWER_SAVING_MO ACTIVATIONS DE_ACT

1000: Cell Resource

AVAILABILITY WCELL IN POWER SAVING MODE

1000: Cell Resource

RB DOWNGRADE BY PBS DUE RB_DOWNGR_DUE_PBS_INT TO INTERFERENCE ERF_UL CONGESTION UL

1000: Cell Resource

RB RELEASE BY PBS DUE TO RB_RELEASE_DUE_PBS_INT INTERFERENCE CONGESTION ERF_UL UL

1000: Cell Resource

RB RELEASE BY PRERB_REL_DUE_PRE_EMP_INT EMPTION DUE TO F_UL INTERFERENCE CONGESTION UL

1000: Cell Resource

AVE RESIDUAL UL POWER

AVE_RESID_UL_POWER

1000: Cell Resource

RESIDUAL UL POWER SAMPLES

RESID_UL_POWER_SAMPLE S

1000: Cell Resource

DURATION OF ACTIVE HSUPA DURA_HSUPA_USERS_73_TO USERS - 73 TO 80 _80 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DURA_HSUPA_USERS_81_TO USERS - 81 TO 96 _96 SIMULTANEOUS USERS

AVAIL_WCELL_IN_POWER_S AVING

1000: Cell Resource

DURATION OF ACTIVE HSUPA DURA_HSUPA_USERS_97_TO USERS - 97 TO 112 _112 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSUPA DURA_HSUPA_USERS_113_O USERS - 113 OR MORE USERS R_MORE

1000: Cell Resource

MAX NUMBER OF HSUPA USERS PER SERVING CELL

MAX_HSUPA_USERS_IN_SER V_CELL

1000: Cell Resource

SUM OF HSUPA USERS IN SERVING CELL

SUM_HSUPA_USERS_IN_SER V_CELL

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_73_TO USERS - 73 TO 80 _80 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_81_TO USERS - 81 TO 96 _96 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_97_TO USERS - 97 TO 112 _112 SIMULTANEOUS USERS

1000: Cell Resource

DURATION OF ACTIVE HSDPA DURA_HSDPA_USERS_113_O USERS - 113 OR MORE R_MORE SIMULTANEOUS USERS

1000: Cell Resource

CELL RESOURCE SPARE 5

CELL_RESOURCE_SPARE_5

1000: Cell Resource

CELL RESOURCE SPARE 6

CELL_RESOURCE_SPARE_6

1000: Cell Resource

MAX AVAILABLE SF256 CODE FOR REL99

MAX_AVAIL_R99_DL_CODE

1000: Cell Resource

CHANNELIZATION CODE SF16 CHAN_CODE_SF16_HS_REQ FOR HSDPA REQUESTED UEST

1000: Cell Resource

RTWP TOO LOW

RTWP_TOO_LOW

1000: Cell Resource

BMC DATA REQUEST

BMC_DATA_REQUEST

1000: Cell Resource

BMC DATA INDICATION

BMC_DATA_INDICATION

1000: Cell Resource

BMC DATA CONFIRMATION

BMC_DATA_CONFIRMATION

1000: Cell Resource

CTCH BLOCKS SCHEDULED FOR TRANSMISSION OVER IUB

CTCH_BLK_SCHEDULED

1000: Cell Resource

CTCH BLOCKS NOT SENT OVER IUB DUE TO FACH DISCARD

CTCH_BLK_FACH_DISCARD

1000: Cell Resource

ACCESS CLASS RESTRICTION ACCESS_RESTR_ACTIVE_SA ACTIVE SAMPLES MPLES

1000: Cell Resource

ACCESS CLASSES BLOCKED AMOUNT

ACCESS_CLASSES_BLOCKE D

1000: Cell Resource

MASS EVENT HANDLER ACTIVE DURATION

MEH_ACTIVE_DURATION

1000: Cell Resource

MASS EVENT HANDLER ACTIVATIONS

MEH_ACTIVATIONS

1000: Cell Resource

ACCESS CLASS RESTRICTION ACCESS_RESTR_ACT_BTS_S ACTIVE BTS SAMPLES AMPLES

1000: Cell Resource

SUM OF HSPA LOAD LEVEL SAMPLES

SUM_HSPA_LOAD_LEVEL

1000: Cell Resource

HSPA LOAD LEVEL DENOMINATOR

DENOM_HSPA_LOAD_LEVEL

1000: Cell Resource

MAX HSPA LOAD LEVEL

MAX_HSPA_LOAD_LEVEL

1000: Cell Resource

HSPA IN LOAD STATE SAMPLES

HSPA_LOAD_STATE_SAMPLE S

1000: Cell Resource

HSPA NRT-OVER-NRT DUE TO HSPA_NRT_O_NRT_DUE_US USER AMOUNT R

1000: Cell Resource

HSPA NRT-OVER-NRT DUE TO HSPA_NRT_O_NRT_DUE_BTS BTS HW CONGESTION _HW

1000: Cell Resource

HSPA NRT-OVER-NRT DUE TO HSPA_NRT_O_NRT_DUE_SC_ SPREADING CODE OR FSLOT DPCH SLOT FORMAT CONGESTION

1000: Cell Resource

HSPA NRT-OVER-NRT DUE TO HSPA_NRT_O_NRT_DUE_TR TRANSPORT CONGESTION ANS

1000: Cell Resource

HSPA RT-OVER-NRT DUE TO SPREADING CODE CONGESTION

HSPA_RT_O_NRT_DUE_SC

1000: Cell Resource

MASS EVENT HANDLER PREVENTIVE STATE DURATION

MEH_PREV_STATE_DURATIO N

1000: Cell Resource

MASS EVENT HANDLER REACTIVE STATE DURATION

MEH_REACT_STATE_DURATI ON

1000: Cell Resource

SUM OF DYNAMIC HSUPA USER LIMIT SAMPLES

SUM_DYN_HSUPA_USER_LIM IT

1000: Cell Resource

CELL INTERFERENCE DETECTION TIME

CELL_INTERF_DETEC_TM

1000: Cell Resource

DYNAMIC PRIMARY CPICH POWER ATTEMPT

DYN_PRICPICH_ATT

1000: Cell Resource

DECREASE PRIMARY CPICH POWER SUCCESSFUL

DECRE_PRICPICH_SUCC

1000: Cell Resource

INCREASE PRIMARY CPICH POWER SUCCESSFUL

INCRE_PRICPICH_SUCC

1000: Cell Resource

SUM OF ADJUSTED PRIMARY CPICH POWER

SUM_ADJ_PRICPICH

1000: Cell Resource

ADJUSTED PRIMARY CPICH POWER DURATION

DURA_ADJ_PRICPICH

1000: Cell Resource

DYNAMIC HSUPA SCHEDULING TARGET ATTEMPT

DYN_PRXHSUPA_ATT

1000: Cell Resource

DECREASE HSUPA SCHEDULING TARGET SUCCESSFUL

DECRE_PRXHSUPA_SUCC

1000: Cell Resource

INCREASE HSUPA SCHEDULING TARGET SUCCESSFUL

INCRE_PRXHSUPA_SUCC

1000: Cell Resource

SUM OF ADJUSTED HSUPA SCEDULING TARGET

SUM_ADJ_PRXHSUPA

1000: Cell Resource

ADJUSTED HSUPA SCEDULING TARGET DURATION

DURA_ADJ_PRXHSUPA

1000: Cell Resource

AMR TXPOWER LOAD BELOW AMR_TXPOW_BELOW_HDV TARGET OF HD VOICE

1000: Cell Resource

AMR TXPOWER LOAD OVER TARGET OF HD VOICE

AMR_TXPOW_OVER_HDV

1000: Cell Resource

AMR TXPOWER LOAD OVERLOAD OF HD VOICE

AMR_TXPOW_HDV_OVERLO AD

1000: Cell Resource

AMR SPREADING CODE LOAD AMR_CODE_BELOW_HDV BELOW TARGET OF HD VOICE

1000: Cell Resource

AMR SPREADING CODE LOAD AMR_CODE_OVER_HDV OVER TARGET OF HD VOICE

1000: Cell Resource

AMR SPREADING CODE LOAD AMR_CODE_HDV_OVERLOAD OVERLOAD OF HD VOICE

1000: Cell Resource

AMR TRANSMISSION LOAD AMR_TRANSM_BELOW_HDV BELOW TARGET OF HD VOICE

1000: Cell Resource

AMR TRANSMISSION LOAD OVER TARGET OF HD VOICE

AMR_TRANSM_OVER_HDV

1000: Cell Resource

AMR TRANSMISSION LOAD OVERLOAD OF HD VOICE

AMR_TRANSM_HDV_OVERLO AD

1000: Cell Resource

DURATION OF WAMR 23.85 KBPS USAGE PREVENTED DUE BTS HW OVERLOAD

DURA_WAMR_23_85_OVERL OAD

1000: Cell Resource

DURATION OF WAMR 23.85 KBPS ALLOCATION PREVENTED DUE BTS HW LOAD

DURA_WAMR_23_85_LOAD

1000: Cell Resource

RT OVER NRT DUE TO DYNAMIC VOICE CALL INIT

RT_OVER_NRT_DYN_V_CALL _INIT

1000: Cell Resource

HSPA RELEASE DUE TO DYNAMIC VOICE CALL INIT

HSPA_REL_DYN_V_CALL_INI T

1000: Cell Resource

RT OVER NRT DURING HO RT_OVER_NRT_DYN_V_CALL DUE TO DYNAMIC VOICE CALL _HO

1000: Cell Resource

HSPA RELEASE DURING HO HSPA_REL_DYN_V_CALL_HO DUE TO DYNAMIC VOICE CALL

1000: Cell Resource

DURATION OF RESTRICTED HSDPA USERS DUE TO DYNAMIC VOICE CALL

1000: Cell Resource

RESTRICTED HSDPA USERS VAL_DMHD_DYN_V_CALL DUE TO DYNAMIC VOICE CALL

1000: Cell Resource

TIME DURATION USING 2-10 MS HBDC IN CELL

1000: Cell Resource

TIME DURATION USING 20 MS TIME_USE_20MS_HDBC_IN_C HBDC IN CELL ELL

1000: Cell Resource

LTE PREVENTION AMOUNT IN LTE_PREVENT_AMOUNT_IN_ SIB19 SIB19

1000: Cell Resource

NUMBER OF USED NUM_USED_SUR_CELLS_BY_ SURROUNDING CELLS BY ICB ICB

1000: Cell Resource

AMOUNT OF USE OF USE_SUR_CELLS_BY_ICB_C SURROUNDING CELLS BY ICB NT

1000: Cell Resource

AMOUNT OF CAND CELLS FOR ICLCG

CAND_CELLS_FOR_ICLCG_C NT

1000: Cell Resource

TOTAL AMOUNT OF AACR ICLC CELLS UNDER FIRST LEVEL

ICLC_CELL_TOT_UND_1ST_L V_CNT

1000: Cell Resource

AMOUNT OF AACR ICLC CELLS UNDER FIRST LEVEL

ICLC_CELL_UND_1ST_LV_CN T

1000: Cell Resource

AMOUNT OF FIRST LEVEL AACR ICLC UPDATES

ICLC_CELL_UND_1ST_LV_UP D

DUR_DMHD_DYN_V_CALL

TIME_USE_2_10MS_HDBC_IN _CELL

1000: Cell Resource

AMOUNT OF AACR ICLC CELLS UNDER SECOND LEVEL

ICLC_CELL_UND_2ND_LV_CN T

1000: Cell Resource

AMOUNT OF SECOND LEVEL AACR ICLC UPDATES

ICLC_CELL_UND_2ND_LV_UP D

1000: Cell Resource

AMOUNT OF AACR ICLC CELLS UNDER THIRD LEVEL

ICLC_CELL_UND_3RD_LV_CN T

1000: Cell Resource

AMOUNT OF THIRD LEVEL AACR ICLC UPDATES

ICLC_CELL_UND_3RD_LV_UP D

1000: Cell Resource

AMOUNT OF AACR ICLC ICLC_CELL_UND_4TH_LV_CN CELLS UNDER FOURTH LEVEL T

1000: Cell Resource

AMOUNT OF FOURTH LEVEL AACR ICLC UPDATES

ICLC_CELL_UND_4TH_LV_UP D

1000: Cell Resource

AMOUNT OF AACR ICLC CELLS UNDER FIFTH LEVEL

ICLC_CELL_UND_5TH_LV_CN T

1000: Cell Resource

AMOUNT OF FIFTH LEVEL AACR ICLC UPDATES

ICLC_CELL_UND_5TH_LV_UP D

1000: Cell Resource

DURATION OF AACR ICLC CONTROLLED ROLE

DUR_OF_AACR_ICLC_CTRL_ ROLE

1000: Cell Resource

AMOUNT OF ORDERED AACR ORD_AACR_BOOST_CNT BOOSTING

1000: Cell Resource

AMOUNT OF AACR BOOSTING AACR_BOOST_ORDERS_CNT ORDERS

1000: Cell Resource

AMOUNT OF BOOSTED AACR LEVELS

BOOST_AACR_LEVELS_CNT

1000: Cell Resource

AMOUNT OF AACR BOOSTING AACR_BOOST_DONE_CNT DONE

1000: Cell Resource

MINIMUM AMOUNT AACR BOOSTING

MIN_AMOUNT_AACR_BOOSTI NG

1000: Cell Resource

MAXIMUM AMOUNT OF AACR BOOSTING

MAX_AMOUNT_AACR_BOOST ING

1000: Cell Resource

DURATION OF AACR LEVEL DECREASE PREVENTION

DUR_AACR_LV_DEC_PREVE NTION

1000: Cell Resource

RADIO BASED AACR LEVEL

RADIO_BASED_AACR_LEVEL

1000: Cell Resource

AMOUNT OF RADIO BASED AACR LEVEL UPDATES

AMOUNT_RADIO_AACR_LV_U PD

1000: Cell Resource

MINIMUM RADIO BASED AACR MIN_RADIO_BASED_AACR_L LEVEL EVEL

1000: Cell Resource

MAXIMUM RADIO BASED AACR LEVEL

MAX_RADIO_BASED_AACR_L EVEL

1000: Cell Resource

AMOUNT OF DYNAMICAL IC CAPACITY BOOST ADJUSTMENT ATTEMPTS

SUM_DYN_ADJUSTMENT_AT TEMPTS

1000: Cell Resource

AMOUNT OF SUCCESSFUL DECREMENTS OF PRXMAXORIGTARGETBTS

SUM_DEC_PRXMAXORIGTAR GEBTS

1000: Cell Resource

AMOUNT OF SUCCESSFUL DECREMENTS OF PRXMAXORIGTARGETBTS DUE TO SURROUNDING CELL LOAD AMOUNT OF SUCCESSFUL INCREMENTS OF PRXMAXORIGTARGETBTS

SUM_DEC_PRX_DUE_TO_SU R_CELL

1000: Cell Resource

SUM_INC_PRXMAXORIGTAR GEBTS

1000: Cell Resource

SIZE OF PRXMAXORIGTARGETBTS ADJUSTMENT IN A CELL

SIZE_PRXMAXORIGTARGEBT S_ADJ

1000: Cell Resource

MEASURE THE PERIOD OF TIME DURING WHICH THE PRXMAXORIGTARGETBTS IS ADJUSTED

TIME_PRXMAXORIGTARGEBT S_ADJ

1000: Cell Resource

NUMBER OF USED SURROUNDING CELLS BY HICCB

NUM_USED_SUR_CELL_BY_ HICCB

1000: Cell Resource

AMOUNT OF USE OF SURROUNDING CELLS BY HICCB

SUM_USED_SUR_CELL_BY_H ICCB

1001: Service Level

RRC SETUP ATT

rrc_conn_stp_att

1001: Service Level

RRC SETUP COMPL

rrc_conn_stp_comp

1001: Service Level

RRC SETUP FAIL DUE TO HC

rrc_conn_stp_fail_hc

1001: Service Level

RRC SETUP FAIL DUE TO AC

rrc_conn_stp_fail_ac

1001: Service Level

RRC SETUP FAIL DUE TO BTS rrc_conn_stp_fail_bts REASONS

1001: Service Level

RRC SETUP FAIL DUE TO TRANS

1001: Service Level

RRC SETUP FAIL DUE TO RNC rrc_conn_stp_fail_rnc INTER REASONS

1001: Service Level

RRC SETUP FAIL DUE TO FROZEN BTS

rrc_conn_stp_fail_trans

rrc_conn_stp_fail_frozbs

1001: Service Level

RRC ACC COMP

rrc_conn_acc_comp

1001: Service Level

RRC ACC FAIL DUE TO RADIO rrc_conn_acc_fail_radio INT SYNCH

1001: Service Level

RRC ACC FAIL DUE TO UU INT rrc_conn_acc_fail_ms

1001: Service Level

RRC ACC FAIL DUE TO RNC INTER REASONS

rrc_conn_acc_fail_rnc

1001: Service Level

RRC ACTIVE COMP

rrc_conn_act_comp

1001: Service Level

RRC ACTIVE REL DUE TO SRNC RELOC

rrc_conn_act_rel_srnc

1001: Service Level

RRC ACTIVE REL DUE TO PRE rrc_conn_act_rel_p_emp EMP

1001: Service Level

RRC ACTIVE FAIL DUE TO IU INT

rrc_conn_act_fail_iu

1001: Service Level

RRC ACTIVE FAIL DUE TO RADIO INTERFACE

rrc_conn_act_fail_radio

1001: Service Level

RRC ACTIVE FAIL DUE TO BTS rrc_conn_act_fail_bts REASONS

1001: Service Level

RRC ACTIVE FAIL DUE TO THE rrc_conn_act_fail_iur IUR INT

1001: Service Level

RRC ACTIVE FAIL DUE TO CIPH FAIL

rrc_conn_act_fail_ciph

1001: Service Level

RRC ACTIVE FAIL DUE TO RNC INTER REASONS

rrc_conn_act_fail_rnc

1001: Service Level

MOBILE ORIGINATING CONVERSATIONAL CALL ATTEMPTS

moc_conv_call_atts

1001: Service Level

MOBILE ORIGINATING CONVERSATIONAL CALL FAILURES

moc_conv_call_fails

1001: Service Level

MOBILE ORIGINATING moc_strea_call_atts STREAMING CALL ATTEMPTS

1001: Service Level

MOBILE ORIGINATING STREAMING CALL FAILURES

moc_strea_call_fails

1001: Service Level

MOBILE ORIGINATING INTERACTIVE CALL ATTEMPTS

moc_inter_call_atts

1001: Service Level

MOBILE ORIGINATING moc_inter_call_fails INTERACTIVE CALL FAILURES

1001: Service Level

MOBILE ORIGINATING BACKGROUND CALL ATTEMPTS

moc_backg_call_atts

1001: Service Level

MOBILE ORIGINATING BACKGROUND CALL FAILURES

moc_backg_call_fails

1001: Service Level

MOBILE ORIGINATING SUBSCRIBED TRAFFIC CALL ATTEMPTS

moc_subsc_traf_call_atts

1001: Service Level

MOBILE ORIGINATING SUBSCRIBED TRAFFIC CALL FAILURES

moc_subsc_traf_call_fails

1001: Service Level

MOBILE TERMINATING CONVERSATIONAL CALL ATTEMPTS

mtc_conv_call_atts

1001: Service Level

MOBILE TERMINATING CONVERSATIONAL CALL FAILURES

mtc_conv_call_fails

1001: Service Level

MOBILE TERMINATING mtc_strea_call_atts STREAMING CALL ATTEMPTS

1001: Service Level

MOBILE TERMINATING STREAMING CALL FAILURES

mtc_strea_call_fails

1001: Service Level

MOBILE TERMINATING INTERACTIVE CALL ATTEMPTS

mtc_inter_call_atts

1001: Service Level

MOBILE TERMINATING mtc_inter_call_fails INTERACTIVE CALL FAILURES

1001: Service Level

MOBILE TERMINATING BACKGROUND CALL ATTEMPTS

mtc_backg_call_atts

1001: Service Level

MOBILE TERMINATING BACKGROUND CALL FAILURES

mtc_backg_call_fails

1001: Service Level

EMERGENCY CALL ATTEMPTS emergency_call_atts

1001: Service Level

EMERGENCY CALL FAILURES emergency_call_fails

1001: Service Level

INTR_RAT_CELL_RE_SELECT intr_rat_cell_re_sel_atts ATTEMPTS

1001: Service Level

INTR_RAT_CELL_RE_SELECT intr_rat_cell_re_sel_fails FAILURES

1001: Service Level

INTR_RAT_CELL_CHNG_ORD ATTEMPTS

cell_chng_ord_atts

1001: Service Level

INTR_RAT_CELL_CHNG_ORD FAILURES

cell_chng_ord_fails

1001: Service Level

REGISTRATION ATTEMPTS

registration_atts

1001: Service Level

REGISTRATION FAILURES

registration_fails

1001: Service Level

DETACH ATTEMPTS

detach_atts

1001: Service Level

DETACH FAILURES

detach_fails

1001: Service Level

MOBILE ORIGINATING HIGH PRIORITY SIGNALLING ATTEMPTS

moc_high_prior_sign_atts

1001: Service Level

MOBILE ORIGINATING HIGH PRIORITY SIGNALLING FAILURES

moc_high_prior_sign_fails

1001: Service Level

MOBILE TERMINATING HIGH PRIORITY SIGNALLING ATTEMPTS

mtc_high_prior_sign_atts

1001: Service Level

MOBILE TERMINATING HIGH PRIORITY SIGNALLING FAILURES

mtc_high_prior_sign_fails

1001: Service Level

MOBILE ORIGINATING LOW PRIORITY SIGNALLING ATTEMPTS

moc_low_prior_sign_atts

1001: Service Level

MOBILE ORIGINATING LOW PRIORITY SIGNALLING FAILURES

moc_low_prior_sign_fails

1001: Service Level

MOBILE TERMINATING LOW PRIORITY SIGNALLING ATTEMPTS

mtc_low_prior_sign_atts

1001: Service Level

MOBILE TERMINATING LOW PRIORITY SIGNALLING FAILURES

mtc_low_prior_sign_fails

1001: Service Level

CALL RE ESTAB ATTEMPTS

call_re_estab_atts

1001: Service Level

CALL RE ESTAB FAILURES

call_re_estab_fails

1001: Service Level

TERMINATING CAUSE UNKNOWN ATTEMPTS

mtc_cause_unknown_atts

1001: Service Level

TERMINATING CAUSE UNKNOWN FAILURES

mtc_cause_unknown_fails

1001: Service Level

NUMBER OF SRNC RELOCATION ATTEMPTS

srnc_reloc_atts

1001: Service Level

NUMBER OF UNSUCCESSFUL srnc_reloc_fails SRNC RELOCATION ATTEMPTS

1001: Service Level

NUMBER OF INTER-RNC INTRA FREQ HHO ATTEMPTS

1001: Service Level

NUMBER OF UNSUCCESSFUL intra_freq_hho_fails INTER RNC INTRA FREQ HHO ATTEMPTS

1001: Service Level

RAB SETUP ATTEMPTS FOR CS VOICE

rab_stp_att_cs_voice

1001: Service Level

RAB SETUP ATTEMPTS FOR CS DATA CONV

rab_stp_att_cs_conv

1001: Service Level

RAB SETUP ATTEMPTS FOR CS DATA STREAM

rab_stp_att_cs_strea

intra_freq_hho_atts

1001: Service Level

RAB SETUP ATTEMPTS FOR PS DATA STREAM

RAB_STP_ATT_PS_STREA

1001: Service Level

RAB SETUP ATTEMPTS FOR PS DATA INTERA

rab_stp_att_ps_inter

1001: Service Level

RAB SETUP ATTEMPTS FOR PS DATA BACKG

RAB_STP_ATT_PS_BACKG

1001: Service Level

RAB SETUP COMPLETIONS FOR CS VOICE

rab_stp_comp_cs_voice

1001: Service Level

RAB SETUP COMPLETIONS FOR CS DATA CONV

rab_stp_comp_cs_conv

1001: Service Level

RAB SETUP COMPLETIONS FOR CS DATA STREAM

RAB_STP_COMP_CS_STREA

1001: Service Level

RAB SETUP COMPLETIONS FOR PS DATA STREAM

rab_stp_comp_ps_strea

1001: Service Level

RAB SETUP COMPLETIONS FOR PS DATA INTERA

rab_stp_comp_ps_inter

1001: Service Level

RAB SETUP COMPLETIONS FOR PS DATA BACKG

rab_stp_comp_ps_backg

1001: Service Level

RAB SETUP FAILURES DUE TO AC FOR CS VOICE

rab_stp_fail_cs_voice_ac

1001: Service Level

RAB SETUP FAILURES DUE TO BTS FOR CS VOICE

rab_stp_fail_cs_voice_bts

1001: Service Level

RAB SETUP FAILURES DUE TO TRANSPORT FOR CS VOICE

rab_stp_fail_cs_voice_trans

1001: Service Level

RAB SETUP FAILURES DUE TO RNC FOR CS VOICE

rab_stp_fail_cs_voice_rnc

1001: Service Level

RAB SETUP FAILURES DUE TO FROZEN BTS FOR CS VOICE

rab_stp_fail_cs_voice_frozbs

1001: Service Level

RAB SETUP FAILURES DUE TO AC FOR CS DATA CONV

rab_stp_fail_cs_conv_ac

1001: Service Level

RAB SETUP FAILURES DUE TO BTS FOR CS DATA CONV

rab_stp_fail_cs_conv_bts

1001: Service Level

RAB SETUP FAILURES DUE rab_stp_fail_cs_conv_trans TO TRANSPORT FOR CS DATA CONV

1001: Service Level

RAB SETUP FAILURES DUE TO RNC FOR CS DATA CONV

rab_stp_fail_cs_conv_rnc

1001: Service Level

RAB SETUP FAILURES DUE TO FROZEN BTS FOR CS DATA CONV

rab_stp_fail_cs_conv_frozbs

1001: Service Level

RAB SETUP FAILURES DUE rab_stp_fail_cs_strea_ac TO AC FOR CS DATA STREAM

1001: Service Level

RAB SETUP FAILURES DUE TO BTS FOR CS DATA STREAM

1001: Service Level

RAB SETUP FAILURES DUE rab_stp_fail_cs_strea_trans TO TRANSPORT FOR CS DATA STREAM

1001: Service Level

RAB SETUP FAILURES DUE TO RNC FOR CS DATA STREAM

rab_stp_fail_cs_strea_rnc

1001: Service Level

RAB SETUP FAILURES DUE TO FROZEN BTS FOR CS DATA STREAM

rab_stp_fail_cs_strea_frozbs

rab_stp_fail_cs_strea_bts

1001: Service Level

RAB SETUP FAILURES DUE rab_stp_fail_ps_strea_ac TO AC FOR PS DATA STREAM

1001: Service Level

RAB SETUP FAILURES DUE TO BTS FOR PS DATA STREAM

1001: Service Level

RAB SETUP FAILURES DUE rab_stp_fail_ps_strea_trans TO TRANSPORT FOR PS DATA STREAM

1001: Service Level

RAB SETUP FAILURES DUE TO RNC FOR PS DATA STREAM

rab_stp_fail_ps_strea_rnc

1001: Service Level

RAB SETUP FAILURES DUE TO FROZEN BTS FOR PS DATA STREAM

rab_stp_fail_ps_strea_frozbs

1001: Service Level

RAB SETUP FAILURES DUE TO AC FOR PS DATA INTERA

rab_stp_fail_ps_inter_ac

1001: Service Level

RAB SETUP FAILURES DUE rab_stp_fail_ps_inter_rnc TO RNC FOR PS DATA INTERA

1001: Service Level

RAB SETUP FAILURES DUE rab_stp_fail_ps_inter_anch TO ANCHORING FOR PS DATA INTERA

1001: Service Level

RAB SETUP FAILURES DUE TO FROZEN BTS FOR PS DATA INTERA

rab_stp_fail_ps_inter_frozbs

1001: Service Level

RAB SETUP FAILURES DUE TO AC FOR PS DATA BACKG

rab_stp_fail_ps_backg_ac

1001: Service Level

RAB SETUP FAILURES DUE rab_stp_fail_ps_backg_rnc TO RNC FOR PS DATA BACKG

1001: Service Level

RAB SETUP FAILURES DUE rab_stp_fail_ps_backg_anch TO ANCHORING FOR PS DATA BACKG

rab_stp_fail_ps_strea_bts

1001: Service Level

RAB SETUP FAILURES DUE TO FROZEN BTS FOR PS DATA BACKG

rab_stp_fail_ps_backg_frozbs

1001: Service Level

RAB ACCESS COMPLETIONS FOR CS VOICE

rab_acc_comp_cs_voice

1001: Service Level

RAB ACCESS COMPLETIONS FOR CS DATA CONV

rab_acc_comp_cs_conv

1001: Service Level

RAB ACCESS COMPLETIONS FOR CS DATA STREAM

rab_acc_comp_cs_strea

1001: Service Level

RAB ACCESS COMPLETIONS FOR PS DATA STREAM

rab_acc_comp_ps_strea

1001: Service Level

RAB ACCESS COMPLETIONS FOR PS DATA INTERA

rab_acc_comp_ps_inter

1001: Service Level

RAB ACCESS COMPLETIONS FOR PS DATA BACKG

rab_acc_comp_ps_backg

1001: Service Level

RAB SETUP ACC FAIL FOR CS rab_acc_fail_cs_voice_ms VOICE CALL DUE TO UE

1001: Service Level

RAB SETUP ACC FAIL FOR CS rab_acc_fail_cs_voice_rnc VOICE CALL DUE TO RNC INTERNAL

1001: Service Level

RAB SETUP ACC FAIL FOR CS rab_acc_fail_cs_conv_ms DATA CALL CONV CLASS DUE TO UE

1001: Service Level

RAB SETUP ACC FAIL FOR CS rab_acc_fail_cs_conv_rnc DATA CALL CONV CLASS DUE TO RNC INTERNAL

1001: Service Level

RAB SETUP ACC FAIL FOR CS rab_acc_fail_cs_strea_ms DATA CALL STREAM CLASS DUE TO UE

1001: Service Level

RAB SETUP ACC FAIL FOR CS rab_acc_fail_cs_strea_rnc DATA CALL STREAM CLASS DUE TO RNC INTERNAL

1001: Service Level

RAB SETUP ACC FAIL FOR PS rab_acc_fail_ps_strea_ms DATA CALL STREAM CLASS DUE TO UE

1001: Service Level

RAB SETUP ACC FAIL FOR PS rab_acc_fail_ps_strea_rnc DATA CALL STREAM CLASS DUE TO RNC INTERNAL

1001: Service Level

RAB SETUP ACC FAIL FOR PS rab_acc_fail_ps_inter_ms DATA CALL INTERA CLASS DUE TO UE

1001: Service Level

RAB SETUP ACC FAIL FOR PS rab_acc_fail_ps_inter_rnc DATA CALL INTERA CLASS DUE TO RNC INTERNAL

1001: Service Level

RAB SETUP ACC FAIL FOR PS rab_acc_fail_ps_backg_ms DATA CALL BACKG CLASS DUE TO UE

1001: Service Level

RAB SETUP ACC FAIL FOR PS rab_acc_fail_ps_backg_rnc DATA CALL BACKG CLASS DUE TO RNC INTERNAL

1001: Service Level

RAB ACTIVE COMPLETIONS FOR CS VOICE

rab_act_comp_cs_voice

1001: Service Level

RAB ACTIVE COMPLETIONS FOR CS DATA CONV

rab_act_comp_cs_conv

1001: Service Level

RAB ACTIVE COMPLETIONS FOR CS DATA STREAM

rab_act_comp_cs_strea

1001: Service Level

RAB ACTIVE COMPLETIONS FOR PS DATA STREAM

rab_act_comp_ps_strea

1001: Service Level

RAB ACTIVE COMPLETIONS FOR PS DATA INTERA

rab_act_comp_ps_inter

1001: Service Level

RAB ACTIVE COMPLETIONS FOR PS DATA BACKG

rab_act_comp_ps_backg

1001: Service Level

RAB ACTIVE RELEASES DUE TO SRNC RELOC FOR CS VOICE

rab_act_rel_cs_voice_srnc

1001: Service Level

RAB ACTIVE RELEASES DUE TO PRE-EMPTION FOR CS VOICE

rab_act_rel_cs_voice_p_emp

1001: Service Level

RAB ACTIVE FAILURES DUE TO IU FOR CS VOICE

rab_act_fail_cs_voice_iu

1001: Service Level

RAB ACTIVE FAILURES DUE TO RADIO INT FOR CS VOICE

rab_act_fail_cs_voice_radio

1001: Service Level

RAB ACTIVE FAILURES DUE TO BTS FOR CS VOICE

rab_act_fail_cs_voice_bts

1001: Service Level

RAB ACTIVE FAILURES DUE TO IUR FOR CS VOICE

rab_act_fail_cs_voice_iur

1001: Service Level

RAB ACTIVE FAILURES DUE TO RNC FOR CS VOICE

rab_act_fail_cs_voice_rnc

1001: Service Level

RAB ACTIVE RELEASES DUE TO SRNC RELOC FOR CS DATA CONV

rab_act_rel_cs_conv_srnc

1001: Service Level

RAB ACTIVE RELEASES DUE TO PRE-EMPTION FOR CS DATA CONV

rab_act_rel_cs_conv_p_emp

1001: Service Level

RAB ACTIVE RELEASES DUE TO SRNC RELOC FOR CS DATA STREAM

rab_act_rel_cs_strea_srnc

1001: Service Level

RAB ACTIVE RELEASES DUE TO PRE-EMPTION FOR CS DATA STREAM

rab_act_rel_cs_strea_p_emp

1001: Service Level

RAB ACTIVE FAILURES DUE TO IU FOR CS DATA CONV

rab_act_fail_cs_conv_iu

1001: Service Level

RAB ACTIVE FAILURES DUE TO RADIO INT FOR CS DATA CONV

rab_act_fail_cs_conv_radio

1001: Service Level

RAB ACTIVE FAILURES DUE TO BTS FOR CS DATA CONV

rab_act_fail_cs_conv_bts

1001: Service Level

RAB ACTIVE FAILURES DUE TO IUR FOR CS DATA CONV

rab_act_fail_cs_conv_iur

1001: Service Level

RAB ACTIVE FAILURES DUE TO RNC FOR CS DATA CONV

rab_act_fail_cs_conv_rnc

1001: Service Level

RAB ACTIVE FAILURES DUE TO IU FOR CS DATA STREAM

rab_act_fail_cs_strea_iu

1001: Service Level

RAB ACTIVE FAILURES DUE TO RADIO INT FOR CS DATA STREAM

rab_act_fail_cs_strea_radio

1001: Service Level

RAB ACTIVE FAILURES DUE TO BTS FOR CS DATA STREAM

rab_act_fail_cs_strea_bts

1001: Service Level

RAB ACTIVE FAILURES DUE rab_act_fail_cs_strea_iur TO IUR FOR CS DATA STREAM

1001: Service Level

RAB ACTIVE FAILURES DUE TO RNC FOR CS DATA STREAM

rab_act_fail_cs_strea_rnc

1001: Service Level

RAB ACTIVE RELEASES DUE TO SRNC RELOC FOR PS DATA STREAM

rab_act_rel_ps_strea_srnc

1001: Service Level

RAB ACTIVE RELEASES DUE TO PRE-EMPTION FOR PS DATA STREAM

rab_act_rel_ps_strea_p_emp

1001: Service Level

RAB ACTIVE RELEASES DUE TO SRNC RELOC FOR PS DATA INTERA

rab_act_rel_ps_inter_srnc

1001: Service Level

RAB ACTIVE RELEASES DUE TO SRNC RELOC FOR PS DATA BACKG

rab_act_rel_ps_backg_srnc

1001: Service Level

RAB ACTIVE FAILURES DUE TO IU FOR PS DATA STREAM

rab_act_fail_ps_strea_iu

1001: Service Level

RAB ACTIVE FAILURES DUE TO RADIO INT FOR PS DATA STREAM

rab_act_fail_ps_strea_radio

1001: Service Level

RAB ACTIVE FAILURES DUE TO BTS FOR PS DATA STREAM

rab_act_fail_ps_strea_bts

1001: Service Level

RAB ACTIVE FAILURES DUE rab_act_fail_ps_strea_iur TO IUR FOR PS DATA STREAM

1001: Service Level

RAB ACTIVE FAILURES DUE TO RNC FOR PS DATA STREAM

rab_act_fail_ps_strea_rnc

1001: Service Level

RAB ACTIVE FAILURES DUE TO IU FOR PS DATA INTERA

rab_act_fail_ps_inter_iu

1001: Service Level

RAB ACTIVE FAILURES DUE TO RADIO INT FOR PS DATA INTERA

rab_act_fail_ps_inter_radio

1001: Service Level

RAB ACTIVE FAILURES DUE rab_act_fail_ps_inter_bts TO BTS FOR PS DATA INTERA

1001: Service Level

RAB ACTIVE FAILURES DUE TO IUR FOR PS DATA INTERA

1001: Service Level

RAB ACTIVE FAILURES DUE rab_act_fail_ps_inter_rnc TO RNC FOR PS DATA INTERA

rab_act_fail_ps_inter_iur

1001: Service Level

RAB ACTIVE FAILURES DUE TO IU FOR PS DATA BACKG

rab_act_fail_ps_backg_iu

1001: Service Level

RAB ACTIVE FAILURES DUE TO RADIO INT FOR PS DATA BACKG

rab_act_fail_ps_backg_radio

1001: Service Level

RAB ACTIVE FAILURES DUE rab_act_fail_ps_backg_bts TO BTS FOR PS DATA BACKG

1001: Service Level

RAB ACTIVE FAILURES DUE TO IUR FOR PS DATA BACKG

1001: Service Level

RAB ACTIVE FAILURES DUE rab_act_fail_ps_backg_rnc TO RNC FOR PS DATA BACKG

1001: Service Level

RAB RECONFIGURATION ATTEMPTS

rab_reconf_att

1001: Service Level

RAB RECONFIGURATION FAILURES

rab_reconf_fail

1001: Service Level

AVE RAB HOLDING TIME FOR CS VOICE CALL

avg_rab_hld_tm_cs_voice

1001: Service Level

DENOMINATOR FOR RAB denom_rab_hld_tm_cs_voice HOLDING TIME FOR CS VOICE

1001: Service Level

AVE RAB HOLDING TIME FOR CS DATA CALL WITH CONVERSATIONAL CLASS

avg_rab_hld_tm_cs_conv

1001: Service Level

DENOMINATOR FOR RAB HOLDING TIME FOR CS DATA CONV

denom_rab_hld_tm_cs_conv

1001: Service Level

AVE RAB HOLDING TIME FOR CS DATA CALL WITH STREAMING CLASS

avg_rab_hld_tm_cs_strea

rab_act_fail_ps_backg_iur

1001: Service Level

DENOMINATOR FOR RAB HOLDING TIME FOR CS DATA STREAM

denom_rab_hld_tm_cs_strea

1001: Service Level

AVE RAB HOLDING TIME FOR PS CALL WITH STREAMING CLASS

avg_rab_hld_tm_ps_strea

1001: Service Level

DENOMINATOR FOR RAB HOLDING TIME FOR PS DATA STREAM

denom_rab_hld_tm_ps_strea

1001: Service Level

AVE RAB HOLDING TIME FOR PS CALL WITH INTERACTIVE CLASS

avg_rab_hld_tm_ps_inter

1001: Service Level

DENOMINATOR FOR RAB HOLDING TIME FOR PS DATA INTERA

denom_rab_hld_tm_ps_inter

1001: Service Level

AVE RAB HOLDING TIME FOR avg_rab_hld_tm_ps_backg PS CALL WITH BACKGROUND CLASS

1001: Service Level

DENOMINATOR FOR RAB HOLDING TIME FOR PS DATA BACKG

1001: Service Level

AVERAGE DCH HOLDING TIME avg_dch_hld_tm_ps_inter FOR PS RAB WITH INTERACTIVE CLASS

1001: Service Level

DENOMINATOR FOR DCH HOLDING TIME FOR PS DATA INTERA

1001: Service Level

AVERAGE DCH HOLDING TIME avg_dch_hld_tm_ps_backg FOR PS RAB WITH BACKGROUND CLASS

1001: Service Level

DENOMINATOR FOR DCH HOLDING TIME FOR PS DATA BACKG

denom_dch_hld_tm_ps_backg

1001: Service Level

NUMBER OF INT RNC INTER FREQ HHO ATTEMPTS

inter_freq_hho_atts

denom_rab_hld_tm_ps_backg

denom_dch_hld_tm_ps_inter

1001: Service Level

NUMBER OF UNSUCCESSFUL inter_freq_hho_fails INT RNC INTER FREQ HHO ATTEMPTS

1001: Service Level

NUMBER OF INTER SYS HHO ATTEMPTS

1001: Service Level

NUMBER OF UNSUCCESSFUL inter_system_hho_fails INTER SYS HHO ATTEMPTS

1001: Service Level

SUM OF RRC SETUP TIMES

avg_rrc_setup_tm

1001: Service Level

DENOMINATOR FOR SUM OF RRC SETUP TIMES

denom_rrc_setup_tm

1001: Service Level

SUM OF RAB SETUP TIMES FOR CS VOICE

avg_rab_setup_tm_cs_voice

1001: Service Level

DENOMINATOR FOR SUM OF RAB SETUP TIMES FOR CS VOICE

denom_rab_setup_tm_cs_voice

1001: Service Level

SUM OF RAB SETUP TIMES FOR CS DATA CONV

avg_rab_setup_tm_cs_conv

1001: Service Level

DENOMINATOR FOR SUM OF RAB SETUP TIMES FOR CS DATA CONV

denom_rab_setup_tm_cs_conv

1001: Service Level

SUM OF RAB SETUP TIMES FOR CS DATA STREAM

avg_rab_setup_tm_cs_strea

1001: Service Level

DENOMINATOR FOR SUM OF RAB SETUP TIMES FOR CS DATA STREAM

denom_rab_setup_tm_cs_strea

1001: Service Level

SUM OF RAB SETUP TIMES FOR PS DATA STREAM

avg_rab_setup_tm_ps_strea

inter_sys_hho_atts

1001: Service Level

DENOMINATOR FOR SUM OF RAB SETUP TIMES FOR PS DATA STREAM

denom_rab_setup_tm_ps_strea

1001: Service Level

SUM OF RAB SETUP TIMES FOR PS DATA INTERA

avg_rab_setup_tm_ps_inter

1001: Service Level

DENOMINATOR FOR SUM OF RAB SETUP TIMES FOR PS DATA INTERA

denom_rab_setup_tm_ps_inter

1001: Service Level

SUM OF RAB SETUP TIMES FOR PS DATA BACKG

avg_rab_setup_tm_ps_backg

1001: Service Level

DENOMINATOR FOR SUM OF RAB SETUP TIMES FOR PS DATA BACKG

denom_rab_setup_tm_ps_back g

1001: Service Level

RAB ACT FAIL FOR MULTI RAB rab_act_fail_multi_amr_nrt WITH AMR AND NRT

1001: Service Level

RAB ACT FAIL FOR MULTI RAB rab_act_fail_multi_amr_conv WITH CS CONV DATA AND PS NRT

1001: Service Level

RAB ACT FAIL FOR MULTI RAB rab_act_fail_multi_amr_stre WITH CS STREAMING DATA AND PS NRT

1001: Service Level

RAB ACT FAIL FOR MULTI RAB rab_act_fail_multi_nrt WITH MULTIPLE NRT

1001: Service Level

RRC CONNECTION ACCESS RELEASE DUE TO CELL RESELECTION

RRC_CONN_ACC_REL_CELL_ RESEL

1001: Service Level

RRC CONNECTION SETUP ATTEMPT REPEATS

RRC_CONN_SETUP_ATT_RE PEAT

1001: Service Level

RAB ACTIVE COMPLETIONS IN RAB_ACT_COMP_CS_VOICE_ SAME CELL FOR CS VOICE SAMECE

1001: Service Level

RAB ACTIVE COMPLETIONS IN RAB_ACT_COMP_CS_CONV_ SAME CELL FOR CS DATA SAMECE CONV

1001: Service Level

RAB ACTIVE COMPLETIONS IN RAB_ACT_COMP_CS_STREA SAME CELL FOR CS DATA _SAMECE STREAM

1001: Service Level

RAB ACTIVE COMPLETIONS IN RAB_ACT_COMP_PS_STREA SAME CELL FOR PS DATA _SAMECE STREAM

1001: Service Level

RAB ACTIVE COMPLETIONS IN RAB_ACT_COMP_PS_INTER_ SAME CELL FOR PS DATA SAMECE INTERA

1001: Service Level

RAB ACTIVE COMPLETIONS IN RAB_ACT_COMP_PS_BACKG SAME CELL FOR PS DATA _SAMECE BACKG

1001: Service Level

RAB SETUP NOT STARTED DUE TO NOT SUPPORTED PARAMETERS FOR CS

RAB_STP_FAIL_CS_NOT_SUP P_PAR

1001: Service Level

RAB SETUP NOT STARTED DUE TO UE CAPABILITY FOR CS

RAB_STP_FAIL_CS_UE_CAPA

1001: Service Level

RAB SETUP NOT STARTED DUE TO NOT SUPPORTED PARAMETERS FOR PS

RAB_STP_FAIL_PS_NOT_SUP P_PAR

1001: Service Level

RAB SETUP NOT STARTED DUE TO UE CAPABILITY FOR PS

RAB_STP_FAIL_PS_UE_CAPA

1001: Service Level

RRC CONN SETUP COMPLETED AFTER DIRECTED

RRC_CONN_SETUP_COMP_A FT_DIR

1001: Service Level

RRC CONN SETUP COMPLETED AND DIRECTED

RRC_CON_SETUP_COMP_DI RECTED

1001: Service Level

RAB SETUP ATTEMPT CS AMR RAB_SETUP_ATT_CS_AMR_ MULTIMODE MULTIM

1001: Service Level

RAB ACCESS COMPLETE CS AMR MULTIMODE

RAB_ACC_COMP_CS_AMR_M ULTIM

1001: Service Level

RAB SETUP ATTEMPT CS CONVERSATIONAL 64

RAB_SETUP_ATT_CS_CONV_ 64

1001: Service Level

RAB ACCESS COMPLETIONS FOR CS DATA CONV 64

RAB_ACC_COMP_CS_CONV_ 64

1001: Service Level

RAB SETUP ATTEMPT CS STREAMING 14.4

RAB_SETUP_ATT_CS_STREA M_14_4

1001: Service Level

RAB ACCESS COMPLETIONS FOR CS DATA STREAM 14.4

RAB_ACC_COMP_CS_STREA M_14_4

1001: Service Level

RAB SETUP ATTEMPT CS STREAMING 57.6

RAB_SETUP_ATT_CS_STREA _57_6

1001: Service Level

RAB ACCESS COMPLETE CS STREAMING 57.6

RAB_ACC_COMP_CS_STREA _57_6

1001: Service Level

RAB SETUP ATTEMPT PS NRT RAB_SETUP_ATT_PS_NRT_6 64/64 4_64

1001: Service Level

RAB SETUP ATTEMPT PS NRT RAB_SETUP_ATT_PS_NRT_6 64/128 4_128

1001: Service Level

RAB SETUP ATTEMPT PS NRT RAB_SETUP_ATT_PS_NRT_6 64/256 4_256

1001: Service Level

RAB SETUP ATTEMPT PS NRT RAB_SETUP_ATT_PS_NRT_6 64/384 4_384

1001: Service Level

RAB ACCESS COMPLETE PS NRT 64/64

RAB_ACC_COMP_PS_NRT_64 _64

1001: Service Level

RAB ACCESS COMPLETE PS NRT 64/128

RAB_ACC_COMP_PS_NRT_64 _128

1001: Service Level

RAB ACCESS COMPLETE PS NRT 64/256

RAB_ACC_COMP_PS_NRT_64 _256

1001: Service Level

RAB ACCESS COMPLETE PS NRT 64/384

RAB_ACC_COMP_PS_NRT_64 _384

1001: Service Level

RAB SETUP ATTEMPT CS AMR RAB_S_A_CS_12_2_1PSNRT6 12.2 +1 PS NRT (64/64) 4_64

1001: Service Level

RAB SETUP ATTEMPT CS AMR RAB_S_A_CS_12_2_1PSNRT6 12.2 + 1 PS NRT (64/128) 4_128

1001: Service Level

RAB SETUP ATTEMPT CS AMR RAB_S_A_CS_12_2_2PSNRT_ 12.2 + 2 PS NRT (INTERACTIVE I_I and INTERACTIVE)

1001: Service Level

RAB SETUP ATTEMPT CS AMR RAB_S_A_CS_12_2_2PSNRT_ 12.2 + 2 PS NRT (INTERACTIVE I_B and BACKGROUND)

1001: Service Level

RAB SETUP ATTEMPT CS AMR RAB_S_A_CS_12_2_2PSNRT_ 12.2 + 2 PS NRT B_B (BACKGROUND and BACKGROUND)

1001: Service Level

RAB SETUP ATTEMPT CS AMR RAB_S_A_CS_12_2_3PSNRT 12.2 + 3 PS NRT

1001: Service Level

RAB ACCESS COMPLETE CS AMR 12.2 + 1 PS NRT (64/64)

RAB_ACCC_CS12_2_1PSNRT 64_64

1001: Service Level

RAB ACCESS COMPLETE CS AMR 12.2 + 1 PS NRT (64/128)

RAB_ACCC_CS12_2_1PSNRT 64_128

1001: Service Level

RAB ACCESS COMPLETE CS AMR 12.2 + 2 PS NRT (INTERACTIVE and INTERACTIVE)

RAB_ACCC_CS12_2_2PSNRT _I_I

1001: Service Level

RAB ACCESS COMPLETE CS AMR 12.2 + 2 PS NRT (INTERACTIVE and BACKGROUND)

RAB_ACCC_CS12_2_2PSNRT _I_B

1001: Service Level

RAB ACCESS COMPLETE CS AMR 12.2 + 2 PS NRT (BACKGROUND and BACKGROUND)

RAB_ACCC_CS12_2_2PSNRT _B_B

1001: Service Level

RAB ACCESS COMPLETE CS AMR 12.2 + 3 PS NRT

RAB_ACCC_CS12_2_3PSNRT

1001: Service Level

RAB SETUP ATTEMPT CS AMR RAB_S_A_CS_AMM_1PSNRT6 MULTIMODE + 1 PS NRT 4_64 (64/64)

1001: Service Level

RAB SETUP ATTEMPT CS AMR RAB_S_A_CS_AMM_1PSNRT6 MULTIMODE + 1 PS NRT 4_128 (64/128)

1001: Service Level

RAB SETUP ATTEMPT CS AMR RAB_S_A_CS_AMM_2PSNRT_ MULTIMODE + 2 PS NRT I_I (INTERACTIVE and INTERACTIVE)

1001: Service Level

RAB SETUP ATTEMPT CS AMR RAB_S_A_CS_AMM_2PSNRT_ MULTIMODE + 2 PS NRT I_B (INTERACTIVE and BACKGROUND)

1001: Service Level

RAB SETUP ATTEMPT CS AMR RAB_S_A_CS_AMM_2PSNRT_ MULTIMODE + 2 PS NRT B_B (BACKGROUND and BACKGROUND)

1001: Service Level

RAB SETUP ATTEMPT CS AMR RAB_S_A_CS_AMM_3PSNRT MULTIMODE + 3 PS NRT

1001: Service Level

RAB ACCESS COMPLETE CS AMR MULTIMODE + 1 PS NRT (64/64)

RAB_ACCC_CS_AMM_1PSNR T64_64

1001: Service Level

RAB ACCESS COMPLETE CS AMR MULTIMODE + 1 PS NRT (64/128)

RAB_ACCC_CS_AMM_1PSNR T64_128

1001: Service Level

RAB ACCESS COMPLETE CS AMR MULTIMODE + 2 PS NRT (INTERACTIVE and INTERACTIVE)

RAB_ACCC_CS_AMM_2PSNR T_I_I

1001: Service Level

RAB ACCESS COMPLETE CS AMR MULTIMODE + 2 PS NRT (INTERACTIVE and BACKGROUND)

RAB_ACCC_CS_AMM_2PSNR T_I_B

1001: Service Level

RAB ACCESS COMPLETE CS AMR MULTIMODE + 2 PS NRT (BACKGROUND and BACKGROUND)

RAB_ACCC_CS_AMM_2PSNR T_B_B

1001: Service Level

RAB ACCESS COMPLETE CS AMR MULTIMODE + 3 PS NRT

RAB_ACCC_CS_AMM_3PSNR T

1001: Service Level

RAB SETUP ATTEMPT 2 PS NRT (INTERACTIVE and INTERACTIVE)

RAB_SETUP_ATT_2PSNRT_I_ I

1001: Service Level

RAB SETUP ATTEMPT 2 PS NRT (INTERACTIVE and BACKGROUND)

RAB_SETUP_ATT_2PSNRT_I_ B

1001: Service Level

RAB SETUP ATTEMPT 2 PS NRT (BACKGROUND and BACKGROUND)

RAB_SETUP_ATT_2PSNRT_B _B

1001: Service Level

RAB ACCESS COMPLETE 2 PS RAB_ACC_COMPL_2PSNRT_I NRT (INTERACTIVE and _I INTERACTIVE)

1001: Service Level

RAB ACCESS COMPLETE 2 PS RAB_ACC_COMPL_2PSNRT_I NRT (INTERACTIVE and _B BACKGROUND)

1001: Service Level

RAB ACCESS COMPLETE 2 PS RAB_ACC_COMPL_2PSNRT_ NRT (BACKGROUND and B_B BACKGROUND)

1001: Service Level

RAB SETUP ATTEMPT 3 PS NRT

1001: Service Level

RAB ACCESS COMPLETE 3 PS RAB_ACC_COMPL_3PSNRT NRT

1001: Service Level

RAB SETUP ATTEMPT CS CONVERSATIONAL + 1 PS NRT (64/64)

RAB_SETUP_ATT_3PSNRT

RAB_S_A_CS_CONV_1PSNRT 64_64

1001: Service Level

RAB SETUP ATTEMPT CS RAB_S_A_CS_CONV_1PSNRT CONVERSATIONAL + 1 PS NRT 64_128 (64/128)

1001: Service Level

RAB SETUP ATTEMPT CS RAB_S_A_CS_CONV_1PSNRT CONVERSATIONAL + 1 PS NRT 64_384 (64/384)

1001: Service Level

RAB ACCESS COMPLETE CS RAB_ACC_CS_CONV_1PSNR CONVERSATIONAL + 1 PS NRT T64_64 (64/64)

1001: Service Level

RAB ACCESS COMPLETE CS RAB_ACC_CS_CONV_1PSNR CONVERSATIONAL + 1 PS NRT T64_128 (64/128)

1001: Service Level

RAB ACCESS COMPLETE CS RAB_ACC_CS_CONV_1PSNR CONVERSATIONAL + 1 PS NRT T64_384 (64/384)

1001: Service Level

RAB ACTIVE COMPLETE CS AMR MULTIMODE

RAB_ACT_COMPL_CS_AMR_ MULTIM

1001: Service Level

RAB ACTIVE COMPLETE CS CONVERSATIONAL 64

RAB_ACT_COMPL_CS_CONV _64

1001: Service Level

RAB ACTIVE COMPLETE CS STREAMING 14.4

RAB_ACT_COMPL_CS_STRE AM_14_4

1001: Service Level

RAB ACTIVE COMPLETE CS STREAMING 57.6

RAB_ACT_COMPL_CS_STRE AM_57_6

1001: Service Level

RAB ACTIVE COMPLETE PS NRT 64/64

RAB_ACT_COMP_PS_NRT_64 _64

1001: Service Level

RAB ACTIVE COMPLETE PS NRT 64/128

RAB_ACT_COMP_PS_NRT_64 _128

1001: Service Level

RAB ACTIVE COMPLETE PS NRT 64/256

RAB_ACT_COMP_PS_NRT_64 _256

1001: Service Level

RAB ACTIVE COMPLETE PS NRT 64/384

RAB_ACT_COMP_PS_NRT_64 _384

1001: Service Level

RAB ACTIVE COMPLETE CS AMR 12.2 + 1 PS NRT (64/64)

RAB_ACTC_CS12_2_1PSNRT 64_64

1001: Service Level

RAB ACTIVE COMPLETE CS AMR 12.2 + 1 PS NRT (64/128)

RAB_ACTC_CS12_2_1PSNRT 64_128

1001: Service Level

RAB ACTIVE COMPLETE CS AMR 12.2 + 2 PS NRT (INTERACTIVE and INTERACTIVE)

RAB_ACTC_CS12_2_2PSNRT _I_I

1001: Service Level

RAB ACTIVE COMPLETE CS AMR 12.2 + 2 PS NRT (INTERACTIVE and BACKGROUND)

RAB_ACTC_CS12_2_2PSNRT _I_B

1001: Service Level

RAB ACTIVE COMPLETE CS AMR 12.2 + 2 PS NRT (BACKGROUND and BACKGROUND)

RAB_ACTC_CS12_2_2PSNRT _B_B

1001: Service Level

RAB ACTIVE COMPLETE CS AMR 12.2 + 3 PS NRT

RAB_ACTC_CS12_2_3PSNRT

1001: Service Level

RAB ACTIVE COMPLETE CS AMR MULTIMODE + 1 PS NRT (64/64)

RAB_ACTC_CS_AMM_1PSNR T64_64

1001: Service Level

RAB ACTIVE COMPLETE CS AMR MULTIMODE + 1 PS NRT (64/128)

RAB_ACTC_CS_AMM_1PSNR T64_128

1001: Service Level

RAB ACTIVE COMPLETE CS AMR MULTIMODE + 2 PS NRT (INTERACTIVE and INTERACTIVE)

RAB_ACTC_CS_AMM_2PSNR T_I_I

1001: Service Level

RAB ACTIVE COMPLETE CS AMR MULTIMODE + 2 PS NRT (INTERACTIVE and BACKGROUND)

RAB_ACTC_CS_AMM_2PSNR T_I_B

1001: Service Level

RAB ACTIVE COMPLETE CS AMR MULTIMODE + 2 PS NRT (BACKGROUND and BACKGROUND)

RAB_ACTC_CS_AMM_2PSNR T_B_B

1001: Service Level

RAB ACTIVE COMPLETE CS AMR MULTIMODE + 3 PS NRT

RAB_ACTC_CS_AMM_3PSNR T

1001: Service Level

RAB ACTIVE COMPLETE 2 PS NRT (INTERACTIVE and INTERACTIVE)

RAB_ACT_COMPL_2PSNRT_I _I

1001: Service Level

RAB ACTIVE COMPLETE 2 PS NRT (INTERACTIVE and BACKGROUND)

RAB_ACT_COMPL_2PSNRT_I _B

1001: Service Level

RAB ACTIVE COMPLETE 2 PS NRT (BACKGROUND and BACKGROUND)

RAB_ACT_COMPL_2PSNRT_B _B

1001: Service Level

RAB ACTIVE COMPLETE 3 PS NRT

RAB_ACT_COMPL_3PSNRT

1001: Service Level

RAB ACTIVE COMPLETE CS RAB_ACT_CS_CONV_1PSNR CONVERSATIONAL + 1 PS NRT T64_64 (64/64)

1001: Service Level

RAB ACTIVE COMPLETE CS CONVERSATIONAL + 1 PS NRT (64/128)

1001: Service Level

RAB ACTIVE COMPLETE CS RAB_ACT_CS_CONV_1PSNR CONVERSATIONAL + 1 PS NRT T64_384 (64/384)

1001: Service Level

RAB HOLDING TIME CS AMR MULTIMODE

1001: Service Level

DENOMINATOR FOR CS AMR DENOM_FOR_CS_AMR_MULT MULTIMODE IM

1001: Service Level

RAB HOLDING TIME CS CONVERSATIONAL 64

RAB_HOLD_TIME_CS_CONV_ 64

1001: Service Level

DENOMINATOR FOR CS CONVERSATIONAL 64

DENOM_FOR_CS_CONV_64

RAB_ACT_CS_CONV_1PSNR T64_128

RAB_HOLD_TIME_CS_AMR_M ULTIM

1001: Service Level

RAB HOLDING TIME CS STREAMING 14.4

RAB_HOLD_TIME_CS_STREA M_14_4

1001: Service Level

DENOMINATOR FOR CS STREAMING 14.4

DENOM_FOR_CS_STREAM_1 4_4

1001: Service Level

RAB HOLDING TIME CS STREAMING 57.6

RAB_HOLD_TIME_CS_STREA M_57_6

1001: Service Level

DENOMINATOR FOR CS STREAMING 57.6

DENOM_FOR_CS_STREAM_5 7_6

1001: Service Level

RAB SETUP ATTEMPT PS NRT RAB_SETUP_ATT_PS_NRT_1 128/64 28_64

1001: Service Level

RAB SETUP ATTEMPT PS NRT RAB_SETUP_ATT_PS_NRT_1 128/128 28_128

1001: Service Level

RAB SETUP ATTEMPT PS NRT RAB_SETUP_ATT_PS_NRT_1 128/384 28_384

1001: Service Level

RAB SETUP ATTEMPT PS NRT RAB_SETUP_ATT_PS_NRT_3 384/384 84_384

1001: Service Level

RAB SETUP ATTEMPT PS NRT RAB_SETUP_ATT_PS_NRT_3 384/64 84_64

1001: Service Level

RAB ACCESS COMPLETE PS NRT 128/64

RAB_ACC_COMP_PS_NRT_12 8_64

1001: Service Level

RAB ACCESS COMPLETE PS NRT 128/128

RAB_ACC_COMP_PS_NRT_12 8_128

1001: Service Level

RAB ACCESS COMPLETE PS NRT 128/384

RAB_ACC_COMP_PS_NRT_12 8_384

1001: Service Level

RAB ACCESS COMPLETE PS NRT 384/384

RAB_ACC_COMP_PS_NRT_38 4_384

1001: Service Level

RAB ACCESS COMPLETE PS NRT 384/64

RAB_ACC_COMP_PS_NRT_38 4_64

1001: Service Level

RAB ACTIVE COMPLETE PS NRT 128/64

RAB_ACT_COMP_PS_NRT_12 8_64

1001: Service Level

RAB ACTIVE COMPLETE PS NRT 128/128

RAB_ACT_COMP_PS_NRT_12 8_128

1001: Service Level

RAB ACTIVE COMPLETE PS NRT 128/384

RAB_ACT_COMP_PS_NRT_12 8_384

1001: Service Level

RAB ACTIVE COMPLETE PS NRT 384/384

RAB_ACT_COMP_PS_NRT_38 4_384

1001: Service Level

RAB ACTIVE COMPLETE PS NRT 384/64

RAB_ACT_COMP_PS_NRT_38 4_64

1001: Service Level

UE SUPPORT FOR IPHC

UE_SUPPORT_FOR_IPHC

1001: Service Level

UE SUPPORT FOR ROHC

UE_SUPPORT_FOR_ROHC

1001: Service Level

RRC ACTIVE FAIL DUE TO UE

RRC_CONN_ACT_FAIL_UE

1001: Service Level

RAB ACTIVE FAILURES DUE TO UE FOR CS VOICE

RAB_ACT_FAIL_CS_VOICE_U E

1001: Service Level

RAB ACTIVE FAILURES DUE TO UE FOR CS DATA CONV

RAB_ACT_FAIL_CS_CONV_U E

1001: Service Level

RAB ACTIVE FAILURES DUE RAB_ACT_FAIL_CS_STREA_U TO UE FOR CS DATA STREAM E

1001: Service Level

RAB ACTIVE FAILURES DUE RAB_ACT_FAIL_PS_STREA_U TO UE FOR PS DATA STREAM E

1001: Service Level

RAB ACTIVE FAILURES DUE TO UE FOR PS DATA INTERA

RAB_ACT_FAIL_PS_INTER_U E

1001: Service Level

RAB ACTIVE FAILURES DUE TO UE FOR PS DATA BACKG

RAB_ACT_FAIL_PS_BACKG_ UE

1001: Service Level

SERVICE LEVEL SPARE 1

SPARE_1_SERVICELEVEL

1001: Service Level

SERVICE LEVEL SPARE 2

SPARE_2_SERVICELEVEL

1001: Service Level

SERVICE LEVEL SPARE 3

SPARE_3_SERVICELEVEL

1001: Service Level

SERVICE LEVEL SPARE 4

SPARE_4_SERVICELEVEL

1001: Service Level

SERVICE LEVEL SPARE 5

SPARE_5_SERVICELEVEL

1001: Service Level

ACCESS STRATUM RELEASE INDICATOR RELEASE 4

ACCESS_STRATUM_REL_IND _4

1001: Service Level

ACCESS STRATUM RELEASE INDICATOR RELEASE 99

ACCESS_STRATUM_REL_IND _99

1001: Service Level

UE SUPPORT FOR GSM

UE_SUPPORT_GSM

1001: Service Level

UE RXTX TIME DIFFERENCE POSITIONING CAPABILITY TYPE 2

UE_RXTX_POSITION_CAPAB_ 2

1001: Service Level

RRC CONN ACTIVE REL DUE TO UNSPEC ERROR IN CN

RRC_CONN_ACT_REL_UNSP EC_CN

1001: Service Level

RAB ACT REL CS VOICE DUE TO UNSPEC ERROR IN CN

RAB_ACT_REL_CS_V_UNSPE _ER_CN

1001: Service Level

RAB ACT REL CS CONV DUE TO UNSPEC ERROR IN CN

RAB_ACT_REL_CS_C_UNSPE _ER_CN

1001: Service Level

RAB ACT REL CS STREAM DUE TO UNSPEC ERROR IN CN

RAB_ACT_REL_CS_S_UNSPE _ER_CN

1001: Service Level

RAB ACT REL PS STREAM DUE TO UNSPEC ERROR IN CN

RAB_ACT_REL_PS_S_UNSPE _ER_CN

1001: Service Level

RAB ACT REL PS INTERACT DUE TO UNSPEC ERROR IN CN

RAB_ACT_REL_PS_I_UNSPE_ ER_CN

1001: Service Level

RAB ACT REL PS BACKG DUE RAB_ACT_REL_PS_B_UNSPE TO UNSPEC ERROR IN CN _ER_CN

1001: Service Level

RAB SETUP ATTEMPT CS AMR RAB_S_A_CS_12_2_1PSNRT6 12.2 + 1 PS NRT (64/384) 4_384

1001: Service Level

RAB ACCESS COMPLETE CS AMR 12.2 + 1 PS NRT (64/384)

RAB_ACCC_CS12_2_1PSNRT 64_384

1001: Service Level

RAB ACTIVE COMPLETE CS AMR 12.2 + 1 PS NRT (64/384)

RAB_ACTC_CS12_2_1PSNRT 64_384

1001: Service Level

RRC CONNECTION LEAVES OLD REF CELL

RRC_CONN_OUT_REF_CELL

1001: Service Level

RAB CS VOICE LEAVES OLD REF CELL

RAB_CS_VOICE_OUT_REF_C ELL

1001: Service Level

RAB CS DATA CONV LEAVES OLD REF CELL

RAB_CS_CONV_OUT_REF_C ELL

1001: Service Level

RAB CS DATA STREAM LEAVES OLD REF CELL

RAB_CS_STR_OUT_REF_CEL L

1001: Service Level

RAB PS DATA STREAM LEAVES OLD REF CELL

RAB_PS_STR_OUT_REF_CEL L

1001: Service Level

RAB PS DATA INTERA LEAVES RAB_PS_INTR_OUT_REF_CE OLD REF CELL LL

1001: Service Level

RAB PS DATA BACKG LEAVES RAB_PS_BGR_OUT_REF_CEL OLD REF CELL L

1001: Service Level

RAB CS AMR 12.2 LEAVES OLD REF CELL

RAB_CS_AMR122_OUT_REF_ CELL

1001: Service Level

RAB CS DATA CONV 64 LEAVES OLD REF CELL

RAB_CS_CONV_64_OUT_REF _CELL

1001: Service Level

RAB CS DATA STREAM 14.4 LEAVES OLD REF CELL

RAB_CS_STR_144_OUT_REF _CELL

1001: Service Level

RAB CS STREAMING 57.6 LEAVES OLD REF CELL

RAB_CS_STR_576_OUT_REF _CELL

1001: Service Level

RAB PS NRT 64/64 LEAVES OLD REF CELL

RAB_PS_NRT_6464_OUT_RE F_C

1001: Service Level

RAB PS NRT 64/128 LEAVES OLD REF CELL

RAB_PS_NRT_64128_OUT_R EF_C

1001: Service Level

RAB PS NRT 64/256 LEAVES OLD REF CELL

RAB_PS_NRT_64256_OUT_R EF_C

1001: Service Level

RAB PS NRT 64/384 LEAVES OLD REF CELL

RAB_PS_NRT_64384_OUT_R EF_C

1001: Service Level

RAB PS NRT 128/64 LEAVES OLD REF CELL

RAB_PS_NRT_12864_OUT_R EF_C

1001: Service Level

RAB PS NRT 128/128 LEAVES OLD REF CELL

RAB_PS_NRT_128128_OUT_R EF_C

1001: Service Level

RAB PS NRT 128/384 LEAVES OLD REF CELL

RAB_PS_NRT_128384_OUT_R EF_C

1001: Service Level

RAB PS NRT 384/384 LEAVES OLD REF CELL

RAB_PS_NRT_384384_OUT_R EF_C

1001: Service Level

RAB PS NRT 384/64 LEAVES OLD REF CELL

RAB_PS_NRT_38464_OUT_R EF_C

1001: Service Level

RRC CONNECTION ENTERS NEW REF CELL

RRC_CONN_IN_REF_CELL

1001: Service Level

RAB CS VOICE ENTERS NEW REF CELL

RAB_CS_VOICE_IN_REF_CEL L

1001: Service Level

RAB CS DATA CONV ENTERS NEW REF CELL

RAB_CS_CONV_IN_REF_CEL L

1001: Service Level

RAB CS DATA STREAM ENTERS NEW REF CELL

RAB_CS_STR_IN_REF_CELL

1001: Service Level

RAB PS DATA STREAM ENTERS NEW REF CELL

RAB_PS_STR_IN_REF_CELL

1001: Service Level

RAB PS DATA INTERA ENTERS NEW REF CELL

RAB_PS_INTR_IN_REF_CELL

1001: Service Level

RAB PS DATA BACKG ENTERS RAB_PS_BGR_IN_REF_CELL NEW REF CELL

1001: Service Level

RAB CS AMR 12.2 ENTERS NEW REF CELL

RAB_CS_AMR122_IN_REF_C ELL

1001: Service Level

RAB CS DATA CONV 64 ENTERS NEW REF CELL

RAB_CS_CONV_64_IN_REF_ CELL

1001: Service Level

RAB CS DATA STREAM 14.4 ENTERS NEW REF CELL

RAB_CS_STR_144_IN_REF_C ELL

1001: Service Level

RAB CS STREAMING 57.6 ENTERS NEW REF CELL

RAB_CS_STR_576_IN_REF_C ELL

1001: Service Level

RAB PS NRT 64/64 ENTERS NEW REF CELL

RAB_PS_NRT_6464_IN_REF_ C

1001: Service Level

RAB PS NRT 64/128 ENTERS NEW REF CELL

RAB_PS_NRT_64128_IN_REF _C

1001: Service Level

RAB PS NRT 64/256 ENTERS NEW REF CELL

RAB_PS_NRT_64256_IN_REF _C

1001: Service Level

RAB PS NRT 64/384 ENTERS NEW REF CELL

RAB_PS_NRT_64384_IN_REF _C

1001: Service Level

RAB PS NRT 128/64 ENTERS NEW REF CELL

RAB_PS_NRT_12864_IN_REF _C

1001: Service Level

RAB PS NRT 128/128 ENTERS NEW REF CELL

RAB_PS_NRT_128128_IN_RE F_C

1001: Service Level

RAB PS NRT 128/384 ENTERS NEW REF CELL

RAB_PS_NRT_128384_IN_RE F_C

1001: Service Level

RAB PS NRT 384/384 ENTERS NEW REF CELL

RAB_PS_NRT_384384_IN_RE F_C

1001: Service Level

RAB PS NRT 384/64 ENTERS NEW REF CELL

RAB_PS_NRT_38464_IN_REF _C

1001: Service Level

RAB HOLD TIME IN REF CELL FOR CS VOICE

RAB_CS_V_HLD_TM_REF_CE LL

1001: Service Level

DENOM HOLD TM REF CELL CS VOICE

DENOM_CS_V_HLD_TM_REF _CELL

1001: Service Level

RAB HOLD TIME IN REF CELL FOR CS CONV

RAB_CS_CONV_HLD_TM_RE F_CELL

1001: Service Level

DENOM HOLD TM REF CELL CS CONV

DENOM_CS_CONV_HLD_TM_ REF_C

1001: Service Level

RAB HOLD TIME IN REF CELL FOR CS STREAM

RAB_CS_STR_HLD_TM_REF_ CELL

1001: Service Level

DENOM HOLD TM REF CELL CS STREAM

DENOM_CS_STR_HLD_TM_R EF_C

1001: Service Level

RAB HOLD TIME IN REF CELL FOR AMR 12.2

RAB_AMR122_HLD_TM_REF_ CELL

1001: Service Level

DENOM HOLD TM REF CELL AMR 12.2

DENOM_AMR122_HLD_TM_R EF_C

1001: Service Level

RAB HOLD TIME IN REF CELL FOR CS CONV 64

RAB_CS_CONV64_TM_REF_C ELL

1001: Service Level

DENOM HOLD TM REF CELL CS CONV 64

DENOM_CS_CONV64_HLD_T M_REF_C

1001: Service Level

RAB HOLD TIME IN REF CELL CS STREAMING 14.4

RAB_CS_STR144_HLD_TM_R EF_C

1001: Service Level

DENOM HOLD TM REF CELL CS STREAMING 14.4

DENOM_CS_STR144_HLD_TM _REF_C

1001: Service Level

RAB HOLD TIME IN REF CELL CS STREAMING 57.6

RAB_CS_STR576_HLD_TM_R EF_C

1001: Service Level

DENOM HOLD TM REF CELL CS STREAM 57.6

DENOM_CS_STR576_HLD_TM _REF_C

1001: Service Level

RAB ACTIVE FAIL CS AMR 12.2 RAB_FAIL_AMR122_PSNRT64 + 1 PS NRT (64/64) 64

1001: Service Level

RAB ACTIVE FAIL CS AMR 12.2 RAB_FAIL_AMR122_PSNRT64 + 1 PS NRT (64/128) 128

1001: Service Level

RAB ACTIVE FAIL CS AMR 12.2 RAB_FAIL_AMR122_PSNRT64 + 1 PS NRT (64/384) 384

1001: Service Level

RAB ACTIVE FAIL CS AMR 12.2 RAB_FAIL_AMR122_2PSNRTI + 2 PS NRT (INTERACTIVE and INTERACTIVE)

1001: Service Level

RAB ACTIVE FAIL CS AMR 12.2 RAB_FAIL_AMR122_PSNRT_I + 2 PS NRT (INTERACTIVE and _B BACKGROUND)

1001: Service Level

RAB ACTIVE FAIL CS AMR 12.2 RAB_FAIL_AMR122_2PSNRTB + 2 PS NRT (BACKGROUND and BACKGROUND)

1001: Service Level

RAB ACTIVE FAIL CS AMR 12.2 RAB_FAIL_AMR122_3PSNRT + 3 PS NRT

1001: Service Level

RAB ACTIVE FAIL CS AMR MULTIMODE + 1 PS NRT (64/64)

RAB_FAIL_AMRMM_PSNRT64 64

1001: Service Level

RAB ACTIVE FAIL CS AMR MULTIMODE + 1 PS NRT (64/128)

RAB_FAIL_AMRMM_PSNRT64 128

1001: Service Level

RAB ACTIVE FAIL CS AMR MULTIMODE + 1 PS NRT (64/384)

RAB_FAIL_AMRMM_PSNRT64 384

1001: Service Level

RAB ACTIVE FAIL CS AMR MULTIMODE + 2 PS NRT (INTERACTIVE and INTERACTIVE)

RAB_FAIL_AMRMM_2PSNRTI

1001: Service Level

RAB ACTIVE FAIL CS AMR MULTIMODE + 2 PS NRT (INTERACTIVE and BACKGROUND)

RAB_FAIL_AMRMM_PSNRT_I _B

1001: Service Level

RAB ACTIVE FAIL CS AMR MULTIMODE + 2 PS NRT (BACKGROUND and BACKGROUND)

RAB_FAIL_AMRMM_2PSNRTB

1001: Service Level

RAB ACTIVE FAIL CS AMR MULTIMODE + 3 PS NRT

RAB_FAIL_AMRMM_3PSNRT

1001: Service Level

RAB ACTIVE FAIL CS RAB_FAIL_CSCONV_PSNRT6 CONVERSATIONAL + 1 PS NRT 464 (64/64)

1001: Service Level

RAB ACTIVE FAIL CS RAB_FAIL_CSCONV_PSNRT6 CONVERSATIONAL + 1 PS NRT 4128 (64/128)

1001: Service Level

RAB ACTIVE FAIL CS RAB_FAIL_CSCONV_PSNRT6 CONVERSATIONAL + 1 PS NRT 4384 (64/384)

1001: Service Level

RAB ACTIVE FAIL PS STREAM RAB_FAIL_PSS_GEM_PSNRT GUAR EQUALS MAX + 1 PS 6464 NRT (64/64)

1001: Service Level

RAB ACTIVE FAIL PS STREAM RAB_FAIL_PSS_GEM_PSNRT GUAR EQUALS MAX + 1 PS 64128 NRT (64/128)

1001: Service Level

RAB ACTIVE FAIL PS STREAM RAB_FAIL_PSS_GEM_PSNRT GUAR EQUALS MAX + 1 PS 64384 NRT (64/384)

1001: Service Level

RAB ACTIVE FAIL PS STREAM RAB_FAIL_PSS_GLM_PSNRT GUAR LESS THAN MAX + 1 PS 6464 NRT (64/64)

1001: Service Level

RAB ACTIVE FAIL PS STREAM RAB_FAIL_PSS_GLM_PSNRT GUAR LESS THAN MAX + 1 PS 64128 NRT (64/128)

1001: Service Level

RAB ACTIVE FAIL PS STREAM RAB_FAIL_PSS_GLM_PSNRT GUAR LESS THAN MAX + 1 PS 64384 NRT (64/384)

1001: Service Level

RAB ACTIVE FAIL 2 PS NRT (INTERACTIVE and INTERACTIVE)

RAB_ACT_FAIL_2PSNRTI

1001: Service Level

RAB ACTIVE FAIL 2 PS NRT (INTERACTIVE and BACKGROUND)

RAB_ACT_FAIL_PSNRT_I_B

1001: Service Level

RAB ACTIVE FAIL 2 PS NRT (BACKGROUND and BACKGROUND)

RAB_ACT_FAIL_2PSNRTB

1001: Service Level

RAB ACTIVE FAIL 3 PS NRT

RAB_ACT_FAIL_3PSNRT

1001: Service Level

RRC SETUP FAIL DUE TO IUB AAL2 TRANS

RRC_CONN_STP_FAIL_IUB_A AL2

1001: Service Level

RAB SETUP FAILURES DUE TO IUB AAL2 TRANS FOR CS VOICE

RAB_STP_FAIL_CS_V_IUB_A AL2

1001: Service Level

RAB SETUP FAILURES DUE TO IUB AAL2 TRANS FOR CS DATA CONV

RAB_STP_FAIL_CS_CO_IUB_ AAL2

1001: Service Level

RAB SETUP FAILURES DUE TO IUB AAL2 TRANS FOR PS DATA STREAM

RAB_STP_FAIL_PS_ST_IUB_A AL2

1001: Service Level

UE SUPPORT FOR HSDSCH CLASS 1 TO 6

UE_SUPP_HSDSCH_CLASS_1 _6

1001: Service Level

UE SUPPORT FOR HSDSCH CLASS 7 OR 8

UE_SUPP_HSDSCH_CLASS_7 _8

1001: Service Level

UE SUPPORT FOR HSDSCH CLASS 9 OR 10

UE_SUPP_HSDSCH_CLASS_9 _10

1001: Service Level

UE SUPPORT FOR HSDSCH CLASS 11 OR 12

UE_SUPP_HSDSCH_CLASS_1 1_12

1001: Service Level

ACCESS STRATUM RELEASE INDICATOR RELEASE 5

ACCESS_STRATUM_REL_IND _5

1001: Service Level

RRC ACCESS RELEASE MO CONVERSATIONAL CALL

RRC_ACC_REL_MO_CONV

1001: Service Level

RRC ACCESS RELEASE MO STREAMING CALL

RRC_ACC_REL_MO_STREAM ING

1001: Service Level

RRC ACCESS RELEASE MO INTERACTIVE CALL

RRC_ACC_REL_MO_INTERAC TIVE

1001: Service Level

RRC ACCESS RELEASE MO BACKGROUND CALL

RRC_ACC_REL_MO_BACKGR OUND

1001: Service Level

RRC ACCESS RELEASE MO SUBSCRIBED TRAFFIC CALL

RRC_ACC_REL_MO_SUBSCR IBED

1001: Service Level

RRC ACCESS RELEASE MT CONVERSATIONAL CALL

RRC_ACC_REL_MT_CONV

1001: Service Level

RRC ACCESS RELEASE MT STREAMING CALL

RRC_ACC_REL_MT_STREAMI NG

1001: Service Level

RRC ACCESS RELEASE MT INTERACTIVE CALL

RRC_ACC_REL_INTERACTIV E

1001: Service Level

RRC ACCESS RELEASE MT BACKGROUND CALL

RRC_ACC_REL_MT_BACKGR OUND

1001: Service Level

RRC ACCESS RELEASE EMERGENCY CALL

RRC_ACC_REL_EMERGENCY

1001: Service Level

RRC ACCESS RELEASE INTER RRC_ACC_REL_INTER_RAT_ RAT CELL RESEL RESEL

1001: Service Level

RRC ACCESS RELEASE INTER RRC_ACC_REL_INTER_RAT_ RAT CELL CHANGE ORDER CCO

1001: Service Level

RRC ACCESS RELEASE REGISTRATION

RRC_ACC_REL_REGISTRATI ON

1001: Service Level

RRC ACCESS RELEASE DETACH

RRC_ACC_REL_DETACH

1001: Service Level

RRC ACCESS RELEASE MO HIGH PRIORITY SIGNALLING

RRC_ACC_REL_MO_HIGH_P R_SIGN

1001: Service Level

RRC ACCESS RELEASE MO LOW PRIORITY SIGNALLING

RRC_ACC_REL_MO_LOW_PR _SIGN

1001: Service Level

RRC ACCESS RELEASE CALL RE-ESTABLISHMENT

RRC_ACC_REL_CALL_RE_ES TAB

1001: Service Level

RRC ACCESS RELEASE MT HIGH PRIORITY SIGNALLING

RRC_ACC_REL_MT_HIGH_PR _SIGN

1001: Service Level

RRC ACCESS RELEASE MT LOW PRIORITY SIGNALLING

RRC_ACC_REL_MT_LOW_PR _SIGN

1001: Service Level

RRC ACCESS RELEASE MT CAUSE UNKNOWN

RRC_ACC_REL_MT_CAUSE_ UNKNOWN

1001: Service Level

RRC SETUP ATT REPEAT MO CONVERSATIONAL CALL

RRC_ATT_REP_MO_CONV

1001: Service Level

RRC SETUP ATT REPEAT MO STREAMING CALL

RRC_ATT_REP_MO_STREAMI NG

1001: Service Level

RRC SETUP ATT REPEAT MO INTERACTIVE CALL

RRC_ATT_REP_MO_INTERAC TIVE

1001: Service Level

RRC SETUP ATT REPEAT MO BACKGROUND CALL

RRC_ATT_REP_MO_BACKGR OUND

1001: Service Level

RRC SETUP ATT REPEAT MO SUBSCRIBED TRAFFIC CALL

RRC_ATT_REP_MO_SUBSCRI BED

1001: Service Level

RRC SETUP ATT REPEAT MT CONVERSATIONAL CALL

RRC_ATT_REP_MT_CONV

1001: Service Level

RRC SETUP ATT REPEAT MT STREAMING CALL

RRC_ATT_REP_MT_STREAMI NG

1001: Service Level

RRC SETUP ATT REPEAT MT INTERACTIVE CALL

RRC_ATT_REP_INTERACTIVE

1001: Service Level

RRC SETUP ATT REPEAT MT BACKGROUND CALL

RRC_ATT_REP_MT_BACKGR OUND

1001: Service Level

RRC SETUP ATT REPEAT EMERGENCY CALL

RRC_ATT_REP_EMERGENCY

1001: Service Level

RRC SETUP ATT REPEAT INTER RAT CELL RESEL

RRC_ATT_REP_INTER_RAT_ RESEL

1001: Service Level

RRC SETUP ATT REPEAT INTER RAT CELL CHANGE ORDER

RRC_ATT_REP_INTER_RAT_ CCO

1001: Service Level

RRC SETUP ATT REPEAT REGISTRATION

RRC_ATT_REP_REGISTRATI ON

1001: Service Level

RRC SETUP ATT REPEAT DETACH

RRC_ATT_REP_DETACH

1001: Service Level

RRC SETUP ATT REPEAT MO HIGH PRIORITY SIGNALLING

RRC_ATT_REP_MO_HIGH_PR _SIGN

1001: Service Level

RRC SETUP ATT REPEAT MO LOW PRIORITY SIGNALLING

RRC_ATT_REP_MO_LOW_PR _SIGN

1001: Service Level

RRC SETUP ATT REPEAT CALL RE-ESTABLISHMENT

RRC_ATT_REP_CALL_RE_ES TAB

1001: Service Level

RRC SETUP ATT REPEAT MT HIGH PRIORITY SIGNALLING

RRC_ATT_REP_MT_HIGH_PR _SIGN

1001: Service Level

RRC SETUP ATT REPEAT MT LOW PRIORITY SIGNALLING

RRC_ATT_REP_MT_LOW_PR _SIGN

1001: Service Level

RRC SETUP ATT REPEAT MT CAUSE UNKNOWN

RRC_ATT_REP_MT_CAUSE_ UNKNOWN

1001: Service Level

RAB ACTIVE FAILURES FOR RAB_ACT_FAIL_PS_INT_PCH PS DATA INTERACTIVE IN PCH STATE

1001: Service Level

RAB ACTIVE FAILURES FOR PS DATA BACKGROUND IN PCH STATE

RAB_ACT_FAIL_PS_BACKG_ PCH

1001: Service Level

UE SUPPORT FOR NETWORK ASSISTED GPS

UE_SUPPORT_NW_AGPS

1001: Service Level

RAB SETUP ATTEMPT PS NRT RAB_SETUP_ATT_PS_NRT_1 128/256 28_256

1001: Service Level

RAB ACCESS COMPLETE PS NRT 128/256

RAB_ACC_COMP_PS_NRT_12 8_256

1001: Service Level

RAB ACTIVE COMPLETE PS NRT 128/256

RAB_ACT_COMP_PS_NRT_12 8_256

1001: Service Level

RAB SETUP ATTEMPT CS VOICE WPS

RAB_STP_ATT_CS_VOICE_W PS

1001: Service Level

RAB SETUP COMPLETE CS VOICE WPS

RAB_STP_COMP_CS_VOICE_ WPS

1001: Service Level

RAB SETUP FAILURE CS VOICE WPS

RAB_STP_FAIL_CS_VOICE_W PS

1001: Service Level

RAB ACCESS COMPLETE CS VOICE WPS

RAB_ACC_COMP_CS_VOICE_ WPS

1001: Service Level

RRC SETUP TIME MAX

RRC_SETUP_TIME_MAX

1001: Service Level

RAB SETUP TIME MAX CS VOICE

RAB_SETUP_TIME_MAX_CS_ VOICE

1001: Service Level

RAB SETUP TIME MAX CS DATA CONVERSATIONAL

RAB_SETUP_TIME_MAX_CS_ CONV

1001: Service Level

RAB SETUP TIME MAX PS STREAMING

RAB_SETUP_TIME_MAX_PS_ STR

1001: Service Level

RAB SETUP TIME MAX PS INTERACTIVE

RAB_SETUP_TIME_MAX_PS_I NT

1001: Service Level

RAB SETUP TIME MAX PS BACKGROUND

RAB_SETUP_TIME_MAX_PS_ BACKG

1001: Service Level

UE SUPPORT FOR E-DCH CATEGORY 1

UE_SUPP_EDCH_CATEGORY _1

1001: Service Level

UE SUPPORT FOR E-DCH CATEGORY 2

UE_SUPP_EDCH_CATEGORY _2

1001: Service Level

UE SUPPORT FOR E-DCH CATEGORY 3

UE_SUPP_EDCH_CATEGORY _3

1001: Service Level

UE SUPPORT FOR E-DCH CATEGORY 4

UE_SUPP_EDCH_CATEGORY _4

1001: Service Level

UE SUPPORT FOR E-DCH CATEGORY 5

UE_SUPP_EDCH_CATEGORY _5

1001: Service Level

UE SUPPORT FOR E-DCH CATEGORY 6

UE_SUPP_EDCH_CATEGORY _6

1001: Service Level

ACCESS STRATUM RELEASE INDICATOR RELEASE 6

ACCESS_STRATUM_REL_IND _6

1001: Service Level

RRC SETUP REJECT DUE TO EMERGENCY CALL REDIRECTION

RRC_CONN_STP_REJ_EMER G_CALL

1001: Service Level

RRC CONN SETUP FAIL DUE TO ICSU OVERLOAD

RRC_CONN_STP_FAIL_ICSU_ OVERL

1001: Service Level

RAB SETUP FAILURES DUE TO LICENCE FOR CS VOICE

RAB_STP_FAIL_CS_VOICE_LI C

1001: Service Level

RAB ACTIVE RELEASES DUE TO LICENCE PRE-EMPTION FOR CS VOICE

RAB_ACT_REL_CS_VOICE_P RE_LIC

1001: Service Level

RAB SETUP FAILURES DUE TO IUR TRANSPORT FOR CS VOICE

RAB_STP_FAIL_CS_VOICE_IU R_TR

1001: Service Level

RAB SETUP FAILURES DUE TO IUR TRANSPORT FOR CS CONV

RAB_STP_FAIL_CS_CONV_IU R_TR

1001: Service Level

RAB SETUP FAILURES DUE TO IUR TRANSPORT FOR PS STREAMING

RAB_STP_FAIL_PS_STRE_IU R_TR

1001: Service Level

RAB SETUP FAILURES DUE TO IU-CS TRANSPORT FOR CS VOICE

RAB_STP_FAIL_CS_VOICE_IU _CS

1001: Service Level

RAB SETUP FAILURES DUE TO IU-CS TRANSPORT FOR CS CONV

RAB_STP_FAIL_CS_CONV_IU _CS

1001: Service Level

RRC CONN RELEASE DUE TO RRC_CONN_REL_DUE_INACT USER INACTIVITY IVITY

1001: Service Level

RRC CONN RELEASE DUE TO RRC_CONN_REL_DUE_HW_R RNC HW RESOURCES ES

1001: Service Level

RRC SETUP SUCCESS CONVERSATIONAL

SUCC_RRC_SETUP_CONV

1001: Service Level

RRC SETUP SUCCESS STREAMING

SUCC_RRC_SETUP_STREA

1001: Service Level

RRC SETUP SUCCESS INTERACTIVE

SUCC_RRC_SETUP_INTERA

1001: Service Level

RRC SETUP SUCCESS BACKGROUND

SUCC_RRC_SETUP_BACKG

1001: Service Level

RRC SETUP SUCCESS OTHER SUCC_RRC_SETUP_OTHER

1001: Service Level

SRB ACTIVE FAILURE CONVERSATIONAL

SRB_ACT_FAIL_CONV

1001: Service Level

SRB ACTIVE FAILURE STREAMING

SRB_ACT_FAIL_STREA

1001: Service Level

SRB ACTIVE FAILURE INTERACTIVE

SRB_ACT_FAIL_INTERA

1001: Service Level

SRB ACTIVE FAILURE BACKGROUND

SRB_ACT_FAIL_BACKG

1001: Service Level

SRB ACTIVE FAILURE OTHER

SRB_ACT_FAIL_OTHER

1001: Service Level

RRC ACTIVE RELEASE AFTER RRC_ACT_REL_DIRECTED_R SUCCESSFUL DIRECTED ETRY RETRY

1001: Service Level

RRC ACTIVE REL DUE TO INTRA-FREQ HHO

RRC_CONN_ACT_REL_INTRA _HHO

1001: Service Level

RAB ACTIVE RELEASES DUE TO HHO FOR CS VOICE

RAB_ACT_REL_CS_VOICE_H HO

1001: Service Level

RAB ACTIVE RELEASES DUE TO HHO FOR CS DATA CONV

RAB_ACT_REL_CS_CONV_H HO

1001: Service Level

RAB ACTIVE RELEASES DUE TO HHO FOR CS DATA STREAM

RAB_ACT_REL_CS_STREA_H HO

1001: Service Level

RAB ACTIVE RELEASES DUE TO ISHO FOR CS VOICE

RAB_ACT_REL_CS_VOICE_IS HO

1001: Service Level

RAB ACTIVE RELEASES DUE TO ISHO FOR CS DATA CONV

RAB_ACT_REL_CS_CONV_IS HO

1001: Service Level

RAB ACTIVE RELEASES DUE TO ISHO FOR CS DATA STREAM

RAB_ACT_REL_CS_STREA_IS HO

1001: Service Level

RAB ACTIVE RELEASES DUE TO GANHO FOR CS VOICE

RAB_ACT_REL_CS_VOICE_G ANHO

1001: Service Level

RAB RELOC SETUP ATTEMPTS FOR PS DATA STREAM

RAB_RELOC_STP_ATT_PS_S TREA

1001: Service Level

RAB RELOC ACCESS COMPLETIONS FOR PS DATA STREAM

RAB_RELOC_ACC_COMP_PS _STREA

1001: Service Level

RAB RELOC SETUP ATTEMPTS FOR CS VOICE

RAB_RELOC_STP_ATT_CS_V OICE

1001: Service Level

RAB RELOC ACCESS RAB_RELOC_ACC_COMP_CS COMPLETIONS FOR CS VOICE _VOICE

1001: Service Level

RAB RELOC SETUP ATTEMPTS FOR CS DATA CONV

RAB_RELOC_STP_ATT_CS_C ONV

1001: Service Level

RAB RELOC ACCESS COMPLETIONS FOR CS DATA CONV

RAB_RELOC_ACC_COMP_CS _CONV

1001: Service Level

RAB RELOC SETUP ATTEMPTS FOR CS DATA STREAM

RAB_RELOC_STP_ATT_CS_S TREA

1001: Service Level

RAB RELOC ACCESS COMPLETIONS FOR CS DATA STREAM

RAB_RELOC_ACC_COMP_CS _STREA

1001: Service Level

RAB SETUP ATTEMPTS FOR DL MAX BIT RATE - CLASS 1

RAB_STP_ATT_BR_CLASS_1 _DL

1001: Service Level

RAB SETUP ATTEMPTS FOR DL MAX BIT RATE - CLASS 2

RAB_STP_ATT_BR_CLASS_2 _DL

1001: Service Level

RAB SETUP ATTEMPTS FOR DL MAX BIT RATE - CLASS 3

RAB_STP_ATT_BR_CLASS_3 _DL

1001: Service Level

RAB SETUP ATTEMPTS FOR DL MAX BIT RATE - CLASS 4

RAB_STP_ATT_BR_CLASS_4 _DL

1001: Service Level

RAB SETUP ATTEMPTS FOR DL MAX BIT RATE - CLASS 5

RAB_STP_ATT_BR_CLASS_5 _DL

1001: Service Level

RAB SETUP ATTEMPTS FOR DL MAX BIT RATE - CLASS 6

RAB_STP_ATT_BR_CLASS_6 _DL

1001: Service Level

RAB SETUP ATTEMPTS FOR DL MAX BIT RATE - CLASS 7

RAB_STP_ATT_BR_CLASS_7 _DL

1001: Service Level

RAB SETUP ATTEMPTS FOR UL MAX BIT RATE - CLASS 1

RAB_STP_ATT_BR_CLASS_1 _UL

1001: Service Level

RAB SETUP ATTEMPTS FOR UL MAX BIT RATE - CLASS 2

RAB_STP_ATT_BR_CLASS_2 _UL

1001: Service Level

RAB SETUP ATTEMPTS FOR UL MAX BIT RATE - CLASS 3

RAB_STP_ATT_BR_CLASS_3 _UL

1001: Service Level

RAB SETUP ATTEMPTS FOR UL MAX BIT RATE - CLASS 4

RAB_STP_ATT_BR_CLASS_4 _UL

1001: Service Level

RAB SETUP ATTEMPTS FOR UL MAX BIT RATE - CLASS 5

RAB_STP_ATT_BR_CLASS_5 _UL

1001: Service Level

UE SUPPORT FOR CS VOICE OVER HSPA

UE_SUPP_CS_VOICE_OVER_ HSPA

1001: Service Level

UE SUPPORT FOR HSDSCH CLASS 13 OR 14

UE_SUPP_HSDSCH_CLASS_1 3_14

1001: Service Level

UE SUPPORT FOR HSDSCH CLASS 15 OR 16

UE_SUPP_HSDSCH_CLASS_1 5_16

1001: Service Level

UE SUPPORT FOR HSDSCH CLASS 17 OR 18

UE_SUPP_HSDSCH_CLASS_1 7_18

1001: Service Level

ACCESS STRATUM RELEASE INDICATOR RELEASE 7

ACCESS_STRATUM_REL_IND _7

1001: Service Level

UE SUPPORT FOR E-DCH CATEGORY 7

UE_SUPP_EDCH_CATEGORY _7

1001: Service Level

UE SUPPORT FOR CONTINUOUS PACKET CONNECTIVITY

UE_SUPP_CPC

1001: Service Level

RRC SETUP ATTEMPT CCH

RRC_CONN_STP_ATT_CCH

1001: Service Level

RRC ACCESS COMPLETE CCH RRC_CONN_ACC_COMP_CC H

1001: Service Level

RRC ACCESS RELEASE DUE TO CELL RESELECTION CCH

RRC_CONN_ACC_REL_RESE L_CCH

1001: Service Level

RRC SETUP ATTEMPT REPEATS CCH

RRC_CONN_STP_ATT_REPE AT_CCH

1001: Service Level

RRC ACTIVE FAIL DUE TO TRANS

RRC_CONN_ACT_FAIL_TRAN S

1001: Service Level

RAB ACTIVE FAILURES DUE TO TRANS FOR CS VOICE

RAB_ACT_FAIL_CS_VOICE_T RANS

1001: Service Level

RAB ACTIVE FAILURES DUE TO TRANS FOR CS DATA CONV

RAB_ACT_FAIL_CS_CONV_T RANS

1001: Service Level

RAB ACTIVE FAILURES DUE TO TRANS FOR CS DATA STREAM

RAB_ACT_FAIL_CS_STREA_T RANS

1001: Service Level

RAB ACTIVE FAILURES DUE TO TRANS FOR PS DATA STREAM

RAB_ACT_FAIL_PS_STREA_T RANS

1001: Service Level

RAB ACTIVE FAILURES DUE TO TRANS FOR PS DATA INTERA

RAB_ACT_FAIL_PS_INTER_T RANS

1001: Service Level

RAB ACTIVE FAILURES DUE TO TRANS FOR PS DATA BACKG

RAB_ACT_FAIL_PS_BACKG_T RANS

1001: Service Level

UE SUPPORT FOR HSDSCH CLASS 19 OR 20

UE_SUPP_HSDSCH_CLASS_1 9_20

1001: Service Level

UE SUPPORT FOR HSDSCH CLASS 21 OR 22

UE_SUPP_HSDSCH_CLASS_2 1_22

1001: Service Level

UE SUPPORT FOR HSDSCH CLASS 23 OR 24

UE_SUPP_HSDSCH_CLASS_2 3_24

1001: Service Level

ACCESS STRATUM RELEASE INDICATOR RELEASE 8

ACCESS_STRATUM_REL_IND _8

1001: Service Level

RAB SETUP ATTEMPT CS AMR RAB_STP_ATT_AMR_PSNRT + PS NRT

1001: Service Level

RAB ACCESS COMPLETE CS AMR + PS NRT

RAB_ACC_COMP_AMR_PSNR T

1001: Service Level

RAB ACTIVE COMPLETE CS AMR + PS NRT

RAB_ACT_COMP_AMR_PSNR T

1001: Service Level

RAB ACTIVE FAIL CS AMR + PS NRT

RAB_ACT_FAIL_AMR_PSNRT

1001: Service Level

INTER SYSTEM LTE HHO FAIL INTER_SYS_LTE_HHO_FAIL_ DUE TO CONFIG CONF

1001: Service Level

UE SUPPORT FOR HS CELL_FACH

UE_SUPP_HS_CELL_FACH

1001: Service Level

UE SUPPORT FOR FLEXIBLE RLC UPLINK

UE_SUPP_FLEX_RLC_UL

1001: Service Level

UE SUPPORT FOR HSDSCH CLASS 25 OR 26

UE_SUPP_HSDSCH_CLASS_2 5_26

1001: Service Level

UE SUPPORT FOR HSDSCH CLASS 27 OR 28

UE_SUPP_HSDSCH_CLASS_2 7_28

1001: Service Level

ACCESS STRATUM RELEASE INDICATOR RELEASE 9

ACCESS_STRATUM_REL_IND _9

1001: Service Level

UE SUPPORT FOR E-DCH CATEGORY 8

UE_SUPP_EDCH_CATEGORY _8

1001: Service Level

UE SUPPORT FOR E-DCH CATEGORY 9

UE_SUPP_EDCH_CATEGORY _9

1001: Service Level

UE SUPPORT FOR HS CELL_FACH UPLINK

UE_SUPP_HS_CELL_FACH_U L

1001: Service Level

CS VOICE CALL DROP AFTER CS_VOICE_DRP_AFT_MISSIN MISSING ADJ G_ADJ

1001: Service Level

EUTRA CAPABILITY FDD

EUTRA_CAPABILITY_FDD

1001: Service Level

EUTRA CAPABILITY TDD

EUTRA_CAPABILITY_TDD

1001: Service Level

UE SUPPORT FOR UMTS 850

UE_SUPP_UMTS_850

1001: Service Level

UE SUPPORT FOR UMTS 900

UE_SUPP_UMTS_900

1001: Service Level

UE SUPPORT FOR UMTS 1500 UE_SUPP_UMTS_1500

1001: Service Level

UE SUPPORT FOR UMTS 1700 UE_SUPP_UMTS_1700

1001: Service Level

UE SUPPORT FOR UMTS 1900 UE_SUPP_UMTS_1900

1001: Service Level

UE SUPPORT FOR UMTS 2100 UE_SUPP_UMTS_2100

1001: Service Level

UE SUPPORT FOR DB-HSDPA UE_SUPP_DBHSDPA_9_1 BAND REL9-1

1001: Service Level

UE SUPPORT FOR DB-HSDPA UE_SUPP_DBHSDPA_9_2 BAND REL9-2

1001: Service Level

UE SUPPORT FOR DB-HSDPA UE_SUPP_DBHSDPA_9_3 BAND REL9-3

1001: Service Level

RRC SETUP FAIL DUE TO AC UL POWER

RRC_CONN_STP_FAIL_AC_U L

1001: Service Level

RRC SETUP FAIL DUE TO AC DL POWER

RRC_CONN_STP_FAIL_AC_D L

1001: Service Level

RRC SETUP FAIL DUE TO AC CODE

RRC_CONN_STP_FAIL_AC_C OD

1001: Service Level

RAB SETUP FAILURES DUE TO AC UL POWER FOR CS VOICE

RAB_STP_FAIL_CS_VOICE_A C_UL

1001: Service Level

RAB SETUP FAILURES DUE TO AC DL POWER FOR CS VOICE

RAB_STP_FAIL_CS_VOICE_A C_DL

1001: Service Level

RAB SETUP FAILURES DUE TO AC CODE FOR CS VOICE

RAB_STP_FAIL_CS_VOICE_A C_COD

1001: Service Level

ACCESS STRATUM RELEASE INDICATOR RELEASE 10

ACCESS_STRATUM_REL_IND _10

1001: Service Level

ACCESS STRATUM RELEASE INDICATOR RELEASE 11

ACCESS_STRATUM_REL_IND _11

1001: Service Level

UE SUPPORT FOR HSDSCH CLASS 29 OR 30

UE_SUPP_HSDSCH_CLASS_2 9_30

1001: Service Level

UE SUPPORT FOR HSDSCH CLASS 31 OR 32

UE_SUPP_HSDSCH_CLASS_3 1_32

1001: Service Level

RRC SETUP ATT CSFB

RRC_CONN_STP_ATT_CSFB

1001: Service Level

RRC SETUP ACCESS FAIL CSFB

RRC_STP_ACC_FAIL_CSFB

1001: Service Level

RRC ACCESS RELEASE CSFB RRC_ACC_REL_CSFB

1001: Service Level

RRC SETUP ATT REPEAT CSFB

1001: Service Level

RAB SETUP ATTEMPT CS AMR RAB_STP_ATT_AMR_WITH_A WITH ACTIVE PS CT_PS

RRC_ATT_REP_CSFB

1001: Service Level

RAB SETUP FAILURE CS AMR RAB_STP_FAIL_AMR_WITH_A WITH ACTIVE PS CT_PS

1001: Service Level

RAB ACCESS FAILURE CS AMR WITH ACTIVE PS

RAB_ACC_FAIL_AMR_WITH_ ACT_PS

1001: Service Level

RAB ACCESS COMPLETE CS AMR WITH ACTIVE PS

RAB_ACC_COMP_AMR_WITH _ACT_PS

1001: Service Level

RAB ACTIVE FAILURE CS AMR RAB_ACT_FAIL_AMR_WITH_P WITH PS R99 S_R99

1001: Service Level

RAB ACTIVE FAILURE CS AMR RAB_ACT_FAIL_AMR_WITH_H WITH HSDPA SDPA

1001: Service Level

RAB ACTIVE FAILURE CS AMR RAB_ACT_FAIL_AMR_WITH_H WITH HSUPA SUPA

1001: Service Level

RAB HOLDING TIME CS AMR WITH ACTIVE PS

RAB_HLD_TM_AMR_WITH_AC T_PS

1001: Service Level

RRC ACTIVE REL DUE TO INTER-FREQ HHO

RRC_CONN_ACT_REL_HHO

1001: Service Level

RAB ACTIVE RELEASES DUE RAB_ACT_REL_PS_INTER_H TO HHO FOR PS DATA INTERA HO

1001: Service Level

RAB ACTIVE RELEASES DUE RAB_ACT_REL_PS_BACKG_H TO HHO FOR PS DATA BACKG HO

1001: Service Level

RRC ACTIVE REL DUE TO ISHO

RRC_CONN_ACT_REL_ISHO

1001: Service Level

RAB ACTIVE RELEASES DUE TO ISHO FOR PS DATA INTERA

RAB_ACT_REL_PS_INTER_IS HO

1001: Service Level

RAB ACTIVE RELEASES DUE RAB_ACT_REL_PS_BGR_ISH TO ISHO FOR PS DATA BACKG O

1001: Service Level

RAB ACTIVE RELEASES DUE TO HHO FOR PS DATA STREAM

RAB_ACT_REL_PS_STREA_H HO

1001: Service Level

RAB ACTIVE RELEASES DUE TO ISHO FOR PS DATA STREAM

RAB_ACT_REL_PS_STREA_IS HO

1001: Service Level

RRC RELOC SETUP ATT

RRC_RELOC_STP_ATT

1001: Service Level

RRC RELOC ACCESS COMPLETIONS

RRC_RELOC_ACC_COMP

1001: Service Level

RAB RELOC SETUP ATTEMPTS FOR PS INTERACTIVE

RAB_RELOC_STP_ATT_PS_IN T

1001: Service Level

RAB RELOC ACCESS COMPLETIONS FOR PS INTERACTIVE

RAB_RELOC_ACC_COMP_PS _INT

1001: Service Level

RAB RELOC SETUP ATTEMPTS FOR PS BACKGROUND

RAB_RELOC_STP_ATT_PS_B GR

1001: Service Level

RAB RELOC ACCESS COMPLETIONS FOR PS BACKGROUND

RAB_RELOC_ACC_COMP_PS _BGR

1001: Service Level

RAB ACCESS COMPLETIONS FOR CS VOICE AVS

RAB_ACC_COMP_CS_VOICE_ AVS

1001: Service Level

RAB SETUP ACC FAIL FOR CS RAB_ACC_FAIL_CS_VOICE_M VOICE AVS S_AVS

1001: Service Level

RELEASED CS CALL AMOUNT REL_CS_CALL_DUE_TO_UE DURING RE-ESTABLISHMENT DUE TO UE

1001: Service Level

RRC SETUP ATT CSFB RIM

RRC_CONN_STP_ATT_CSFB_ RIM

1001: Service Level

RAB SETUP FAILURES DUE RAB_STP_FAIL_PS_INTER_LT TO LTE REDIRECTION FOR PS E_RE DATA INTERA

1001: Service Level

RAB SETUP FAILURES DUE RAB_STP_FAIL_PS_BACKG_L TO LTE REDIRECTION FOR PS TE_RE DATA BACKG

1001: Service Level

RAB ACCESS COMPLETIONS FOR CS DATA CONV AVS

RAB_ACC_COMP_CS_CONV_ AVS

1001: Service Level

RAB ACCESS COMPLETIONS FOR CS DATA STREA AVS

RAB_ACC_COMP_CS_STREA _AVS

1001: Service Level

RAB SETUP ACC FAIL FOR CS RAB_ACC_FAIL_CS_CONV_A DATA CALL CONV VS

1001: Service Level

RAB SETUP ACC FAIL FOR CS RAB_ACC_FAIL_CS_STREA_A DATA CALL STREA VS

1001: Service Level

RAB SETUP ATTEMPTS FOR WAMR CS VOICE

RAB_STP_ATT_WB_CS_VOI

1001: Service Level

RAB SETUP FAILURES DUE TO AC FOR WAMR CS VOICE

RAB_STP_FAIL_WB_CS_VOI_ AC

1001: Service Level

RAB SETUP FAILURES DUE RAB_STP_FAIL_WB_CS_VOI_ TO BTS FOR WAMR CS VOICE BTS

1001: Service Level

RAB SETUP FAILURES DUE TO TRANSPORT FOR WAMR CS VOICE

1001: Service Level

RAB SETUP FAILURES DUE RAB_STP_FAIL_WB_CS_VOI_ TO RNC FOR WAMR CS VOICE RNC

RAB_STP_FAIL_WB_CS_VOI_ TRANS

1001: Service Level

RAB SETUP FAILURES DUE TO FROZEN BTS FOR WAMR CS VOICE

RAB_STP_FAIL_WB_CS_VOI_ FRZBS

1001: Service Level

RAB ACCESS COMPLETIONS FOR WAMR CS VOICE

RAB_ACC_COMP_WB_CS_VO I

1001: Service Level

RAB SETUP ACC FAIL FOR WAMR CS VOICE CALL DUE TO UE

RAB_ACC_FAIL_WB_CS_VOI_ MS

1001: Service Level

RAB SETUP ACC FAIL FOR WAMR CS VOICE CALL DUE TO RNC INTERNAL

RAB_ACC_FAIL_WB_CS_VOI_ RNC

1001: Service Level

RAB ACTIVE COMPLETIONS FOR WAMR CS VOICE

RAB_ACT_COMP_WB_CS_VO I

1001: Service Level

RAB RELOC ACTIVE RELEASES FOR WAMR CS VOICE

RAB_RELOC_ACT_REL_WB_ CS_VOI

1001: Service Level

RAB ACTIVE FAILURES DUE TO IU FOR WAMR CS VOICE

RAB_ACT_FAIL_WB_CS_VOI_ IU

1001: Service Level

RAB ACTIVE FAILURES DUE TO RADIO INT FOR WAMR CS VOICE

RAB_ACT_FAIL_WB_CS_VOI_ RADIO

1001: Service Level

RAB ACTIVE FAILURES DUE RAB_ACT_FAIL_WB_CS_VOI_ TO BTS FOR WAMR CS VOICE BTS

1001: Service Level

RAB ACTIVE FAILURES DUE TO IUR FOR WAMR CS VOICE

1001: Service Level

RAB ACTIVE FAILURES DUE RAB_ACT_FAIL_WB_CS_VOI_ TO RNC FOR WAMR CS VOICE RNC

1001: Service Level

RAB ACTIVE FAILURES DUE TO UE FOR WAMR CS VOICE

RAB_ACT_FAIL_WB_CS_VOI_ IUR

RAB_ACT_FAIL_WB_CS_VOI_ UE

1001: Service Level

RAB ACTIVE FAILURES DUE TO TRANS FOR WAMR CS VOICE

RAB_ACT_FAIL_WB_CS_VOI_ TRANS

1001: Service Level

RAB ACCESS COMPLETIONS FOR CS VOICE FOR LTE CAPABLE UES

RAB_ACC_COMP_CS_VOICE_ LTE

1001: Service Level

RAB RELOC ACCESS RAB_RELO_ACC_COM_CS_V COMPLETIONS FOR CS VOICE OI_LTE FOR LTE CAPABLE UES

1001: Service Level

RAB ACCESS COMPLETE CS AMR + PS NRT FOR LTE CAPABLE UES

RAB_ACC_COMP_AMR_PSNR T_LTE

1001: Service Level

RAB ACCESS COMPLETIONS FOR PS NRT FOR LTE CAPABLE UES

RAB_ACC_COMP_PS_NRT_L TE

1001: Service Level

RAB RELOC ACCESS COMPLETIONS FOR PS NRT FOR LTE CAPABLE UES

RAB_RELO_ACC_COM_PSNR T_LTE

1001: Service Level

AVE RAB HOLDING TIME FOR CS VOICE CALL FOR LTE CAPABLE UES

AVG_RAB_HLD_TM_CS_VOIC E_LTE

1001: Service Level

DENOMINATOR FOR RAB DENOM_RAB_HLD_TM_CS_V HOLDING TIME FOR CS VOICE OI_LTE FOR LTE CAPABLE UES

1002: Traffic

DCH REQ FOR SIG LINK IN SRNC

dch_req_link_srnc

1002: Traffic

DCH REQ FOR SIG LINK REJECT IN UL IN SRNC

dch_req_link_rej_ul_srnc

1002: Traffic

DCH REQ FOR SIG LINK REJECT IN DL IN SRNC

dch_req_link_rej_dl_srnc

1002: Traffic

DCH REQ FOR RRC CONN IN SRNC

dch_req_rrc_conn_srnc

1002: Traffic

DCH DHO REQ FOR SIG LINK IN SRNC

dch_dho_req_link_srnc

1002: Traffic

DCH DHO REQ FOR SIG LINK REJECT IN SRNC

dch_dho_req_link_rej_srnc

1002: Traffic

DCH ALLO FOR SIG LINK 3.4 KBPS IN SRNC

dch_allo_link_3_4_srnc

1002: Traffic

DCH ALLO FOR SIG LINK 13.6 dch_allo_link_13_6_srnc KBPS IN SRNC

1002: Traffic

DCH ALLO DURA FOR SIG LINK 3.4 KBPS IN SRNC

DCH_ALLO_DURA_LINK_3_4_ SRNC

1002: Traffic

DCH ALLO DURA FOR SIG LINK 13.6 KBPS IN SRNC

DCH_ALLO_DURA_LINK_13_6 _SRNC

1002: Traffic

RT DCH REQ FOR CS VOICE CALL IN SRNC

req_cs_voice_in_srnc

1002: Traffic

RT DCH REQ FOR CS VOICE CALL REJECT IN UL IN SRNC

req_cs_voice_rej_ul_srnc

1002: Traffic

RT DCH REQ FOR CS VOICE CALL REJECT IN DL IN SRNC

req_cs_voice_rej_dl_srnc

1002: Traffic

RT DCH INIT REQ FOR CS VOICE CALL IN SRNC

rt_dch_init_voice_srnc

1002: Traffic

RT DCH DHO REQ FOR CS VOICE CALL IN SRNC

req_cs_voice_srnc

1002: Traffic

RT DCH DHO REQ FOR CS req_cs_voice_rej_srnc VOICE CALL REJECT IN SRNC

1002: Traffic

RT DCH ALLO FOR AMR 4.75 KBPS IN UL IN SRNC

allo_for_amr_4_75_ul_in_srnc

1002: Traffic

RT DCH ALLO FOR AMR 5.15 KBPS IN UL IN SRNC

allo_for_amr_5_15_ul_in_srnc

1002: Traffic

RT DCH ALLO FOR AMR 5.9 KBPS IN UL IN SRNC

allo_for_amr_5_9_ul_in_srnc

1002: Traffic

RT DCH ALLO FOR AMR 6.7 KBPS IN UL IN SRNC

allo_for_amr_6_7_ul_in_srnc

1002: Traffic

RT DCH ALLO FOR AMR 7.4 KBPS IN UL IN SRNC

allo_for_amr_7_4_ul_in_srnc

1002: Traffic

RT DCH ALLO FOR AMR 7.95 KBPS IN UL IN SRNC

allo_for_amr_7_95_ul_in_srnc

1002: Traffic

RT DCH ALLO FOR AMR 10.2 KBPS IN UL IN SRNC

allo_for_amr_10_2_ul_in_srnc

1002: Traffic

RT DCH ALLO FOR AMR 12.2 KBPS IN UL IN SRNC

allo_for_amr_12_2_ul_in_srnc

1002: Traffic

RT DCH ALLO FOR AMR 4.75 KBPS IN DL IN SRNC

allo_for_amr_4_75_dl_in_srnc

1002: Traffic

RT DCH ALLO FOR AMR 5.15 KBPS IN DL IN SRNC

allo_for_amr_5_15_dl_in_srnc

1002: Traffic

RT DCH ALLO FOR AMR 5.9 KBPS IN DL IN SRNC

allo_for_amr_5_9_dl_in_srnc

1002: Traffic

RT DCH ALLO FOR AMR 6.7 KBPS IN DL IN SRNC

allo_for_amr_6_7_dl_in_srnc

1002: Traffic

RT DCH ALLO FOR AMR 7.4 KBPS IN DL IN SRNC

allo_for_amr_7_4_dl_in_srnc

1002: Traffic

RT DCH ALLO FOR AMR 7.95 KBPS IN DL IN SRNC

allo_for_amr_7_95_dl_in_srnc

1002: Traffic

RT DCH ALLO FOR AMR 10.2 KBPS IN DL IN SRNC

allo_for_amr_10_2_dl_in_srnc

1002: Traffic

RT DCH ALLO FOR AMR 12.2 KBPS IN DL IN SRNC

ALLO_FOR_AMR_12_2_DL_IN _SRNC

1002: Traffic

RT DCH ALLO DURA FOR DUR_FOR_AMR_4_75_UL_IN_ AMR 4.75 KBPS IN UL IN SRNC SRNC

1002: Traffic

RT DCH ALLO DURA FOR DUR_FOR_AMR_5_15_UL_IN_ AMR 5.15 KBPS IN UL IN SRNC SRNC

1002: Traffic

RT DCH ALLO DURA FOR AMR 5.9 KBPS IN UL IN SRNC

DUR_FOR_AMR_5_9_UL_IN_S RNC

1002: Traffic

RT DCH ALLO DURA FOR AMR 6.7 KBPS IN UL IN SRNC

DUR_FOR_AMR_6_7_UL_IN_S RNC

1002: Traffic

RT DCH ALLO DURA FOR AMR 7.4 KBPS IN UL IN SRNC

DUR_FOR_AMR_7_4_UL_IN_S RNC

1002: Traffic

RT DCH ALLO DURA FOR DUR_FOR_AMR_7_95_UL_IN_ AMR 7.95 KBPS IN UL IN SRNC SRNC

1002: Traffic

RT DCH ALLO DURA FOR DUR_FOR_AMR_10_2_UL_IN_ AMR 10.2 KBPS IN UL IN SRNC SRNC

1002: Traffic

RT DCH ALLO DURA FOR DUR_FOR_AMR_12_2_UL_IN_ AMR 12.2 KBPS IN UL IN SRNC SRNC

1002: Traffic

RT DCH ALLO DURA FOR DUR_FOR_AMR_4_75_DL_IN_ AMR 4.75 KBPS IN DL IN SRNC SRNC

1002: Traffic

RT DCH ALLO DURA FOR DUR_FOR_AMR_5_15_DL_IN_ AMR 5.15 KBPS IN DL IN SRNC SRNC

1002: Traffic

RT DCH ALLO DURA FOR AMR 5.9 KBPS IN DL IN SRNC

DUR_FOR_AMR_5_9_DL_IN_S RNC

1002: Traffic

RT DCH ALLO DURA FOR AMR 6.7 KBPS IN DL IN SRNC

DUR_FOR_AMR_6_7_DL_IN_S RNC

1002: Traffic

RT DCH ALLO DURA FOR AMR 7.4 KBPS IN DL IN SRNC

DUR_FOR_AMR_7_4_DL_IN_S RNC

1002: Traffic

RT DCH ALLO DURA FOR DUR_FOR_AMR_7_95_DL_IN_ AMR 7.95 KBPS IN DL IN SRNC SRNC

1002: Traffic

RT DCH ALLO DURA FOR DUR_FOR_AMR_10_2_DL_IN_ AMR 10.2 KBPS IN DL IN SRNC SRNC

1002: Traffic

RT DCH ALLO DURA FOR DUR_FOR_AMR_12_2_DL_IN_ AMR 12.2 KBPS IN DL IN SRNC SRNC

1002: Traffic

RT DCH REQ FOR CS DATA CALL CONV CLASS IN SRNC

req_cs_data_conv_srnc

1002: Traffic

RT DCH REQ FOR CS DATA CALL STREAM CLASS IN SRNC

req_cs_stream_srnc

1002: Traffic

RT DCH REQ FOR CS DATA req_cs_conv_rej_ul_srnc CALL CONV CLASS REJECT IN UL IN SRNC

1002: Traffic

RT DCH REQ FOR CS DATA req_cs_conv_rej_dl_srnc CALL CONV CLASS REJECT IN DL IN SRNC

1002: Traffic

RT DCH REQ FOR CS DATA req_cs_stream_rej_ul_srnc CALL STREAM CLASS REJECT IN UL IN SRNC

1002: Traffic

RT DCH REQ FOR CS DATA req_cs_stream_rej_dl_srnc CALL STREAM CLASS REJECT IN DL IN SRNC

1002: Traffic

RT DCH INI REQ FOR CS DATA ini_req_cs_data_conv_srnc CALL CONV CLASS IN SRNC

1002: Traffic

RT DCH INI REQ FOR CS DATA ini_req_cs_stream_ul_srnc CALL STREAM CLASS IN SRNC

1002: Traffic

RT DCH DHO REQ FOR CS DATA CALL CONV CLASS IN SRNC

rt_req_data_conv_srnc

1002: Traffic

RT DCH DHO REQ FOR CS DATA CALL CONV CLASS REJECT IN SRNC

rt_req_data_conv_rej_srnc

1002: Traffic

RT DCH DHO REQ FOR CS DATA CALL STREAM CLASS IN SRNC

rt_req_data_stream_srnc

1002: Traffic

RT DCH DHO REQ FOR CS DATA CALL STREAM CLASS REJECT IN SRNC

rt_req_data_stream_rej_srnc

1002: Traffic

RT DCH ALLO FOR TRANS CS allo_tran_cs_conv_64_in_srnc DATA CONV CLASS 64 KBPS IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR ALLO_DUR_CS_CONV_64_IN_ TRANS CS DATA CONV CLASS SRNC 64 KBPS IN SRNC

1002: Traffic

RT DCH ALLO FOR allo_ntrans_stream_14_4_ul NONTRANS CS DATA STREAM CLASS 14.4 KBPS IN UL IN SRNC

1002: Traffic

RT DCH ALLO FOR allo_ntrans_stream_56_7_ul NONTRANS CS DATA STREAM CLASS 57.6 KBPS IN UL IN SRNC

1002: Traffic

RT DCH ALLO FOR allo_ntrans_stream_14_4_dl NONTRANS CS DATA STREAM CLASS 14.4 KBPS IN DL IN SRNC

1002: Traffic

RT DCH ALLO FOR allo_ntrans_stream_56_7_dl NONTRANS CS DATA STREAM CLASS 57.6 KBPS IN DL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR ALLO_DUR_NTRANS_STRM_1 NONTRANS CS DATA STREAM 4_4_UL CLASS 14.4 KBPS IN UL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR ALLO_DUR_NTRANS_STRM_5 NONTRANS CS DATA STREAM 6_7_UL CLASS 57.6 KBPS IN UL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR ALLO_DUR_NTRANS_STRM_1 NONTRANS CS DATA STREAM 4_4_DL CLASS 14.4 KBPS IN DL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR ALLO_DUR_NTRANS_STRM_5 NONTRANS CS DATA STREAM 6_7_DL CLASS 57.6 KBPS IN DL IN SRNC

1002: Traffic

RT DCH REQ FOR PS CALL CONV CLASS IN SRNC

req_for_ps_conv_srnc

1002: Traffic

RT DCH REQ FOR PS CALL STREAM CLASS IN SRNC

req_for_ps_stream_srnc

1002: Traffic

NRT DCH REQ FOR PS CALL req_for_ps_intera_ul_srnc INTERA CLASS IN UL IN SRNC

1002: Traffic

NRT DCH REQ FOR PS CALL req_for_ps_intera_dl_srnc INTERA CLASS IN DL IN SRNC

1002: Traffic

NRT DCH REQ FOR PS CALL req_for_ps_backg_ul_srnc BACKG CLASS IN UL IN SRNC

1002: Traffic

NRT DCH REQ FOR PS CALL req_for_ps_backg_dl_srnc BACKG CLASS IN DL IN SRNC

1002: Traffic

RT DCH REQ FOR PS CALL req_ps_conv_rej_ul_srnc CONV CLASS REJECT IN UL IN SRNC

1002: Traffic

RT DCH REQ FOR PS CALL req_ps_conv_rej_dl_srnc CONV CLASS REJECT IN DL IN SRNC

1002: Traffic

RT DCH REQ FOR PS CALL req_ps_stream_rej_ul_srnc STREAM CLASS REJECT IN UL IN SRNC

1002: Traffic

RT DCH REQ FOR PS CALL req_ps_stream_rej_dl_srnc STREAM CLASS REJECT IN DL IN SRNC

1002: Traffic

NRT DCH REQ FOR PS CALL INTERA CLASS REJECT IN UL IN SRNC

req_ps_intera_rej_ul_srnc

1002: Traffic

NRT DCH REQ FOR PS CALL INTERA CLASS REJECT IN DL IN SRNC

req_ps_intera_rej_dl_srnc

1002: Traffic

NRT DCH REQ FOR PS CALL BACKG CLASS REJECT IN UL IN SRNC

req_ps_backg_rej_ul_srnc

1002: Traffic

NRT DCH REQ FOR PS CALL BACKG CLASS REJECT IN DL IN SRNC

req_ps_backg_rej_dl_srnc

1002: Traffic

RT DCH INI REQ FOR PS CALL ini_req_ps_conv_srnc CONV CLASS IN SRNC

1002: Traffic

RT DCH INI REQ FOR PS CALL ini_req_ps_stream_ul_srnc STREAM CLASS IN SRNC

1002: Traffic

NRT DCH INI REQ FOR PS CALL INTERA CLASS IN UL IN SRNC

ini_req_ps_intera_ul_srnc

1002: Traffic

NRT DCH INI REQ FOR PS CALL INTERA CLASS IN DL IN SRNC

ini_req_ps_intera_dl_srnc

1002: Traffic

NRT DCH INI REQ FOR PS ini_req_ps_backgr_ul_srnc CALL BACKGR CLASS IN UL IN SRNC

1002: Traffic

NRT DCH INI REQ FOR PS ini_req_ps_backgr_dl_srnc CALL BACKGR CLASS IN DL IN SRNC

1002: Traffic

RT DCH DHO REQ FOR PS CALL CONV CLASS IN SRNC

1002: Traffic

RT DCH DHO REQ FOR PS rt_req_ps_conv_rej_srnc CALL CONV CLASS REJECT IN SRNC

1002: Traffic

RT DCH DHO REQ FOR PS CALL STREAM CLASS IN SRNC

1002: Traffic

RT DCH DHO REQ FOR PS rt_req_ps_stream_rej_srnc CALL STREAM CLASS REJECT IN SRNC

1002: Traffic

NRT DCH DHO REQ FOR PS nrt_req_ps_intera_srnc CALL INTERA CLASS IN SRNC

1002: Traffic

NRT DCH DHO REQ FOR PS CALL INTERA CLASS REJECT IN SRNC

nrt_req_ps_intera_rej_srnc

1002: Traffic

NRT DCH DHO REQ FOR PS CALL BACKG CLASS IN SRNC

nrt_req_ps_backg_srnc

1002: Traffic

NRT DCH DHO REQ FOR PS CALL BACKG CLASS REJECT IN SRNC

nrt_req_ps_backg_rej_srnc

1002: Traffic

RT DCH ALLO FOR PS CALL ALLO_PS_CONV_8_UL_IN_SR CONV CLASS 8 KBPS IN UL IN NC SRNC

1002: Traffic

RT DCH ALLO FOR PS CALL CONV CLASS 16 KBPS IN UL IN SRNC

rt_req_ps_conv_srnc

rt_req_ps_stream_srnc

ALLO_PS_CONV_16_UL_IN_S RNC

1002: Traffic

RT DCH ALLO FOR PS CALL CONV CLASS 32 KBPS IN UL IN SRNC

ALLO_PS_CONV_32_UL_IN_S RNC

1002: Traffic

RT DCH ALLO FOR PS CALL CONV CLASS 64 KBPS IN UL IN SRNC

ALLO_PS_CONV_64_UL_IN_S RNC

1002: Traffic

RT DCH ALLO FOR PS CALL ALLO_PS_CONV_128_UL_IN_ CONV CLASS 128 KBPS IN UL SRNC IN SRNC

1002: Traffic

RT DCH ALLO FOR PS CALL ALLO_PS_CONV_256_UL_IN_ CONV CLASS 256 KBPS IN UL SRNC IN SRNC

1002: Traffic

RT DCH ALLO FOR PS CALL ALLO_PS_CONV_384_UL_IN_ CONV CLASS 384 KBPS IN UL SRNC IN SRNC

1002: Traffic

RT DCH ALLO FOR PS CALL ALLO_PS_CONV_8_DL_IN_SR CONV CLASS 8 KBPS IN DL IN NC SRNC

1002: Traffic

RT DCH ALLO FOR PS CALL CONV CLASS 16 KBPS IN DL IN SRNC

ALLO_PS_CONV_16_DL_IN_S RNC

1002: Traffic

RT DCH ALLO FOR PS CALL CONV CLASS 32 KBPS IN DL IN SRNC

ALLO_PS_CONV_32_DL_IN_S RNC

1002: Traffic

RT DCH ALLO FOR PS CALL CONV CLASS 64 KBPS IN DL IN SRNC

ALLO_PS_CONV_64_DL_IN_S RNC

1002: Traffic

RT DCH ALLO FOR PS CALL ALLO_PS_CONV_128_DL_IN_ CONV CLASS 128 KBPS IN DL SRNC IN SRNC

1002: Traffic

RT DCH ALLO FOR PS CALL ALLO_PS_CONV_256_DL_IN_ CONV CLASS 256 KBPS IN DL SRNC IN SRNC

1002: Traffic

RT DCH ALLO FOR PS CALL ALLO_PS_CONV_384_DL_IN_ CONV CLASS 384 KBPS IN DL SRNC IN SRNC

1002: Traffic

RT DCH ALLO FOR PS CALL allo_ps_stream_8_ul_in_srnc STREAM CLASS 8 KBPS IN UL IN SRNC

1002: Traffic

RT DCH ALLO FOR PS CALL STREAM CLASS 16 KBPS IN UL IN SRNC

allo_ps_stream_16_ul_in_srnc

1002: Traffic

RT DCH ALLO FOR PS CALL STREAM CLASS 32 KBPS IN UL IN SRNC

allo_ps_stream_32_ul_in_srnc

1002: Traffic

RT DCH ALLO FOR PS CALL STREAM CLASS 64 KBPS IN UL IN SRNC

allo_ps_stream_64_ul_in_srnc

1002: Traffic

RT DCH ALLO FOR PS CALL STREAM CLASS 128 KBPS IN UL IN SRNC

allo_ps_stream_128_ul_srnc

1002: Traffic

RT DCH ALLO FOR PS CALL STREAM CLASS 256 KBPS IN UL IN SRNC

allo_ps_stream_256_ul_srnc

1002: Traffic

RT DCH ALLO FOR PS CALL STREAM CLASS 384 KBPS IN UL IN SRNC

allo_ps_stream_384_ul_srnc

1002: Traffic

RT DCH ALLO FOR PS CALL allo_ps_stream_8_dl_in_srnc STREAM CLASS 8 KBPS IN DL IN SRNC

1002: Traffic

RT DCH ALLO FOR PS CALL STREAM CLASS 16 KBPS IN DL IN SRNC

allo_ps_stream_16_dl_in_srnc

1002: Traffic

RT DCH ALLO FOR PS CALL STREAM CLASS 32 KBPS IN DL IN SRNC

allo_ps_stream_32_dl_in_srnc

1002: Traffic

RT DCH ALLO FOR PS CALL STREAM CLASS 64 KBPS IN DL IN SRNC

allo_ps_stream_64_dl_in_srnc

1002: Traffic

RT DCH ALLO FOR PS CALL STREAM CLASS 128 KBPS IN DL IN SRNC

allo_ps_stream_128_dl_srnc

1002: Traffic

RT DCH ALLO FOR PS CALL STREAM CLASS 256 KBPS IN DL IN SRNC

allo_ps_stream_256_dl_srnc

1002: Traffic

RT DCH ALLO FOR PS CALL STREAM CLASS 384 KBPS IN DL IN SRNC

allo_ps_stream_384_dl_srnc

1002: Traffic

NRT DCH ALLO FOR PS CALL INTERA CLASS 8 KBPS IN UL IN SRNC

allo_ps_intera_8_ul_in_srnc

1002: Traffic

NRT DCH ALLO FOR PS CALL allo_ps_intera_16_ul_in_srnc INTERA CLASS 16 KBPS IN UL IN SRNC

1002: Traffic

NRT DCH ALLO FOR PS CALL allo_ps_intera_32_ul_in_srnc INTERA CLASS 32 KBPS IN UL IN SRNC

1002: Traffic

NRT DCH ALLO FOR PS CALL allo_ps_intera_64_ul_in_srnc INTERA CLASS 64 KBPS IN UL IN SRNC

1002: Traffic

NRT DCH ALLO FOR PS CALL INTERA CLASS 128 KBPS IN UL IN SRNC

allo_ps_intera_128_ul_srnc

1002: Traffic

NRT DCH ALLO FOR PS CALL INTERA CLASS 256 KBPS IN UL IN SRNC

allo_ps_intera_256_ul_srnc

1002: Traffic

NRT DCH ALLO FOR PS CALL INTERA CLASS 384 KBPS IN UL IN SRNC

allo_ps_intera_384_ul_srnc

1002: Traffic

NRT DCH ALLO FOR PS CALL INTERA CLASS 8 KBPS IN DL IN SRNC

allo_ps_intera_8_dl_in_srnc

1002: Traffic

NRT DCH ALLO FOR PS CALL allo_ps_intera_16_dl_in_srnc INTERA CLASS 16 KBPS IN DL IN SRNC

1002: Traffic

NRT DCH ALLO FOR PS CALL allo_ps_intera_32_dl_in_srnc INTERA CLASS 32 KBPS IN DL IN SRNC

1002: Traffic

NRT DCH ALLO FOR PS CALL allo_ps_intera_64_dl_in_srnc INTERA CLASS 64 KBPS IN DL IN SRNC

1002: Traffic

NRT DCH ALLO FOR PS CALL INTERA CLASS 128 KBPS IN DL IN SRNC

allo_ps_intera_128_dl_srnc

1002: Traffic

NRT DCH ALLO FOR PS CALL INTERA CLASS 256 KBPS IN DL IN SRNC

allo_ps_intera_256_dl_srnc

1002: Traffic

NRT DCH ALLO FOR PS CALL INTERA CLASS 384 KBPS IN DL IN SRNC

allo_ps_intera_384_dl_srnc

1002: Traffic

NRT DCH ALLO FOR PS CALL BACKG CLASS 8 KBPS IN UL IN SRNC

allo_ps_backg_8_ul_in_srnc

1002: Traffic

NRT DCH ALLO FOR PS CALL allo_ps_backg_16_ul_in_srnc BACKG CLASS 16 KBPS IN UL IN SRNC

1002: Traffic

NRT DCH ALLO FOR PS CALL allo_ps_backg_32_ul_in_srnc BACKG CLASS 32 KBPS IN UL IN SRNC

1002: Traffic

NRT DCH ALLO FOR PS CALL allo_ps_backg_64_ul_in_srnc BACKG CLASS 64 KBPS IN UL IN SRNC

1002: Traffic

NRT DCH ALLO FOR PS CALL BACKG CLASS 128 KBPS IN UL IN SRNC

allo_ps_backg_128_ul_in_srnc

1002: Traffic

NRT DCH ALLO FOR PS CALL BACKG CLASS 256 KBPS IN UL IN SRNC

allo_ps_backg_256_ul_in_srnc

1002: Traffic

NRT DCH ALLO FOR PS CALL BACKG CLASS 384 KBPS IN UL IN SRNC

allo_ps_backg_384_ul_in_srnc

1002: Traffic

NRT DCH ALLO FOR PS CALL BACKG CLASS 8 KBPS IN DL IN SRNC

allo_ps_backg_8_dl_in_srnc

1002: Traffic

NRT DCH ALLO FOR PS CALL allo_ps_backg_16_dl_in_srnc BACKG CLASS 16 KBPS IN DL IN SRNC

1002: Traffic

NRT DCH ALLO FOR PS CALL allo_ps_backg_32_dl_in_srnc BACKG CLASS 32 KBPS IN DL IN SRNC

1002: Traffic

NRT DCH ALLO FOR PS CALL allo_ps_backg_64_dl_in_srnc BACKG CLASS 64 KBPS IN DL IN SRNC

1002: Traffic

NRT DCH ALLO FOR PS CALL BACKG CLASS 128 KBPS IN DL IN SRNC

allo_ps_backg_128_dl_in_srnc

1002: Traffic

NRT DCH ALLO FOR PS CALL BACKG CLASS 256 KBPS IN DL IN SRNC

allo_ps_backg_256_dl_in_srnc

1002: Traffic

NRT DCH ALLO FOR PS CALL BACKG CLASS 384 KBPS IN DL IN SRNC

allo_ps_backg_384_dl_in_srnc

1002: Traffic

RT DCH ALLO DUR FOR PS DUR_PS_CONV_8_UL_IN_SR CALL CONV CLASS 8 KBPS IN NC UL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS CALL CONV CLASS 16 KBPS IN UL IN SRNC

DUR_PS_CONV_16_UL_IN_S RNC

1002: Traffic

RT DCH ALLO DUR FOR PS CALL CONV CLASS 32 KBPS IN UL IN SRNC

DUR_PS_CONV_32_UL_IN_S RNC

1002: Traffic

RT DCH ALLO DUR FOR PS CALL CONV CLASS 64 KBPS IN UL IN SRNC

DUR_PS_CONV_64_UL_IN_S RNC

1002: Traffic

RT DCH ALLO DUR FOR PS DUR_PS_CONV_128_UL_IN_S CALL CONV CLASS 128 KBPS RNC IN UL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS DUR_PS_CONV_256_UL_IN_S CALL CONV CLASS 256 KBPS RNC IN UL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS DUR_PS_CONV_384_UL_IN_S CALL CONV CLASS 384 KBPS RNC IN UL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS DUR_PS_CONV_8_DL_IN_SR CALL CONV CLASS 8 KBPS IN NC DL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS CALL CONV CLASS 16 KBPS IN DL IN SRNC

DUR_PS_CONV_16_DL_IN_S RNC

1002: Traffic

RT DCH ALLO DUR FOR PS CALL CONV CLASS 32 KBPS IN DL IN SRNC

DUR_PS_CONV_32_DL_IN_S RNC

1002: Traffic

RT DCH ALLO DUR FOR PS CALL CONV CLASS 64 KBPS IN DL IN SRNC

DUR_PS_CONV_64_DL_IN_S RNC

1002: Traffic

RT DCH ALLO DUR FOR PS DUR_PS_CONV_128_DL_IN_S CALL CONV CLASS 128 KBPS RNC IN DL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS DUR_PS_CONV_256_DL_IN_S CALL CONV CLASS 256 KBPS RNC IN DL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS DUR_PS_CONV_384_DL_IN_S CALL CONV CLASS 384 KBPS RNC IN DL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS DUR_PS_STREAM_8_UL_IN_ CALL STREAM CLASS 8 KBPS SRNC IN UL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS DUR_PS_STREAM_16_UL_IN_ CALL STREAM CLASS 16 KBPS SRNC IN UL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS DUR_PS_STREAM_32_UL_IN_ CALL STREAM CLASS 32 KBPS SRNC IN UL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS DUR_PS_STREAM_64_UL_IN_ CALL STREAM CLASS 64 KBPS SRNC IN UL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS CALL STREAM CLASS 128 KBPS IN UL IN SRNC

DUR_PS_STREAM_128_UL_IN _SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS CALL STREAM CLASS 256 KBPS IN UL IN SRNC

DUR_PS_STREAM_256_UL_IN _SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS CALL STREAM CLASS 384 KBPS IN UL IN SRNC

DUR_PS_STREAM_384_UL_IN _SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS DUR_PS_STREAM_8_DL_IN_ CALL STREAM CLASS 8 KBPS SRNC IN DL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS DUR_PS_STREAM_16_DL_IN_ CALL STREAM CLASS 16 KBPS SRNC IN DL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS DUR_PS_STREAM_32_DL_IN_ CALL STREAM CLASS 32 KBPS SRNC IN DL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS DUR_PS_STREAM_64_DL_IN_ CALL STREAM CLASS 64 KBPS SRNC IN DL IN SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS CALL STREAM CLASS 128 KBPS IN DL IN SRNC

DUR_PS_STREAM_128_DL_IN _SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS CALL STREAM CLASS 256 KBPS IN DL IN SRNC

DUR_PS_STREAM_256_DL_IN _SRNC

1002: Traffic

RT DCH ALLO DUR FOR PS CALL STREAM CLASS 384 KBPS IN DL IN SRNC

DUR_PS_STREAM_384_DL_IN _SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS CALL INTERA CLASS 8 KBPS IN UL IN SRNC

DUR_PS_INTERA_8_UL_IN_S RNC

1002: Traffic

NRT DCH ALLO DUR FOR PS DUR_PS_INTERA_16_UL_IN_ CALL INTERA CLASS 16 KBPS SRNC IN UL IN SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS DUR_PS_INTERA_32_UL_IN_ CALL INTERA CLASS 32 KBPS SRNC IN UL IN SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS DUR_PS_INTERA_64_UL_IN_ CALL INTERA CLASS 64 KBPS SRNC IN UL IN SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS CALL INTERA CLASS 128 KBPS IN UL IN SRNC

DUR_PS_INTERA_128_UL_IN_ SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS CALL INTERA CLASS 256 KBPS IN UL IN SRNC

DUR_PS_INTERA_256_UL_IN_ SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS CALL INTERA CLASS 384 KBPS IN UL IN SRNC

DUR_PS_INTERA_384_UL_IN_ SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS CALL INTERA CLASS 8 KBPS IN DL IN SRNC

DUR_PS_INTERA_8_DL_IN_S RNC

1002: Traffic

NRT DCH ALLO DUR FOR PS DUR_PS_INTERA_16_DL_IN_ CALL INTERA CLASS 16 KBPS SRNC IN DL IN SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS DUR_PS_INTERA_32_DL_IN_ CALL INTERA CLASS 32 KBPS SRNC IN DL IN SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS DUR_PS_INTERA_64_DL_IN_ CALL INTERA CLASS 64 KBPS SRNC IN DL IN SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS CALL INTERA CLASS 128 KBPS IN DL IN SRNC

DUR_PS_INTERA_128_DL_IN_ SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS CALL INTERA CLASS 256 KBPS IN DL IN SRNC

DUR_PS_INTERA_256_DL_IN_ SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS CALL INTERA CLASS 384 KBPS IN DL IN SRNC

DUR_PS_INTERA_384_DL_IN_ SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS CALL BACKG CLASS 8 KBPS IN UL IN SRNC

DUR_PS_BACKG_8_UL_IN_S RNC

1002: Traffic

NRT DCH ALLO DUR FOR PS CALL BACKG CLASS 16 KBPS IN UL IN SRNC

DUR_PS_BACKG_16_UL_IN_S RNC

1002: Traffic

NRT DCH ALLO DUR FOR PS DUR_PS_BACKG_32_UL_IN_S CALL BACKG CLASS 32 KBPS RNC IN UL IN SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS CALL BACKG CLASS 64 KBPS IN UL IN SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS DUR_PS_BACKG_128_UL_IN_ CALL BACKG CLASS 128 KBPS SRNC IN UL IN SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS DUR_PS_BACKG_256_UL_IN_ CALL BACKG CLASS 256 KBPS SRNC IN UL IN SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS DUR_PS_BACKG_384_UL_IN_ CALL BACKG CLASS 384 KBPS SRNC IN UL IN SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS CALL BACKG CLASS 8 KBPS IN DL IN SRNC

DUR_PS_BACKG_8_DL_IN_S RNC

1002: Traffic

NRT DCH ALLO DUR FOR PS CALL BACKG CLASS 16 KBPS IN DL IN SRNC

DUR_PS_BACKG_16_DL_IN_S RNC

1002: Traffic

NRT DCH ALLO DUR FOR PS CALL BACKG CLASS 32 KBPS IN DL IN SRNC

DUR_PS_BACKG_32_DL_IN_S RNC

1002: Traffic

NRT DCH ALLO DUR FOR PS CALL BACKG CLASS 64 KBPS IN DL IN SRNC

DUR_PS_BACKG_64_DL_IN_S RNC

1002: Traffic

NRT DCH ALLO DUR FOR PS DUR_PS_BACKG_128_DL_IN_ CALL BACKG CLASS 128 KBPS SRNC IN DL IN SRNC

DUR_PS_BACKG_64_UL_IN_S RNC

1002: Traffic

NRT DCH ALLO DUR FOR PS DUR_PS_BACKG_256_DL_IN_ CALL BACKG CLASS 256 KBPS SRNC IN DL IN SRNC

1002: Traffic

NRT DCH ALLO DUR FOR PS DUR_PS_BACKG_384_DL_IN_ CALL BACKG CLASS 384 KBPS SRNC IN DL IN SRNC

1002: Traffic

DCH REQ FOR SIG LINK IN DRNC

dch_req_sig_link_drnc

1002: Traffic

DCH REQ FOR SIG LINK REJECT IN UL IN DRNC

dch_req_sig_link_ul_drnc

1002: Traffic

DCH REQ FOR SIG LINK REJECT IN DL IN DRNC

dch_req_sig_link_dl_drnc

1002: Traffic

DCH DHO REQ FOR SIG LINK IN DRNC

dch_dho_req_sig_link_drnc

1002: Traffic

DCH DHO REQ FOR SIG LINK REJECT IN DRNC

dch_req_sig_link_rej_drnc

1002: Traffic

DCH ALLO FOR SIG LINK 3.4 KBPS IN DRNC

dch_allo_sig_link_3_4_drnc

1002: Traffic

DCH ALLO FOR SIG LINK 13.6 dch_allo_sig_link_13_6_drnc KBPS IN DRNC

1002: Traffic

DCH ALLO DURA FOR SIG LINK 3.4 KBPS IN DRNC

DCH_ALLO_DURA_LINK_3_4_ DRNC

1002: Traffic

DCH ALLO DURA FOR SIG LINK 13.6 KBPS IN DRNC

DCH_ALLO_DURA_LINK_13_6 _DRNC

1002: Traffic

RT DCH REQ FOR CS VOICE CALL IN DRNC

req_cs_voice_in_drnc

1002: Traffic

RT DCH REQ FOR CS VOICE CALL REJECT IN UL IN DRNC

req_cs_voice_rej_ul_in_drnc

1002: Traffic

RT DCH REQ FOR CS VOICE CALL REJECT IN DL IN DRNC

req_cs_voice_rej_dl_in_drnc

1002: Traffic

RT DCH DHO REQ FOR CS VOICE CALL IN DRNC

rt_req_cs_voice_drnc

1002: Traffic

RT DCH DHO REQ FOR CS rt_req_cs_voice_rej_drnc VOICE CALL REJECT IN DRNC

1002: Traffic

RT DCH ALLO FOR AMR 4.75 KBPS IN UL IN DRNC

allo_for_amr_4_75_ul_in_drnc

1002: Traffic

RT DCH ALLO FOR AMR 5.15 KBPS IN UL IN DRNC

allo_for_amr_5_15_ul_in_drnc

1002: Traffic

RT DCH ALLO FOR AMR 5.9 KBPS IN UL IN DRNC

allo_for_amr_5_9_ul_in_drnc

1002: Traffic

RT DCH ALLO FOR AMR 6.7 KBPS IN UL IN DRNC

allo_for_amr_6_7_ul_in_drnc

1002: Traffic

RT DCH ALLO FOR AMR 7.4 KBPS IN UL IN DRNC

allo_for_amr_7_4_ul_in_drnc

1002: Traffic

RT DCH ALLO FOR AMR 7.95 KBPS IN UL IN DRNC

allo_for_amr_7_95_ul_in_drnc

1002: Traffic

RT DCH ALLO FOR AMR 10.2 KBPS IN UL IN DRNC

allo_for_amr_10_2_ul_in_drnc

1002: Traffic

RT DCH ALLO FOR AMR 12.2 KBPS IN UL IN DRNC

allo_for_amr_12_2_ul_in_drnc

1002: Traffic

RT DCH ALLO FOR AMR 4.75 KBPS IN DL IN DRNC

allo_for_amr_4_75_dl_in_drnc

1002: Traffic

RT DCH ALLO FOR AMR 5.15 KBPS IN DL IN DRNC

allo_for_amr_5_15_dl_in_drnc

1002: Traffic

RT DCH ALLO FOR AMR 5.9 KBPS IN DL IN DRNC

allo_for_amr_5_9_dl_in_drnc

1002: Traffic

RT DCH ALLO FOR AMR 6.7 KBPS IN DL IN DRNC

allo_for_amr_6_7_dl_in_drnc

1002: Traffic

RT DCH ALLO FOR AMR 7.4 KBPS IN DL IN DRNC

allo_for_amr_7_4_dl_in_drnc

1002: Traffic

RT DCH ALLO FOR AMR 7.95 KBPS IN DL IN DRNC

allo_for_amr_7_95_dl_in_drnc

1002: Traffic

RT DCH ALLO FOR AMR 10.2 KBPS IN DL IN DRNC

allo_for_amr_10_2_dl_in_drnc

1002: Traffic

RT DCH ALLO FOR AMR 12.2 KBPS IN DL IN DRNC

allo_for_amr_12_2_dl_in_drnc

1002: Traffic

RT DCH ALLO DURA FOR DURA_FOR_AMR_4_75_UL_IN AMR 4.75 KBPS IN UL IN DRNC _DRNC

1002: Traffic

RT DCH ALLO DURA FOR DURA_FOR_AMR_5_15_UL_IN AMR 5.15 KBPS IN UL IN DRNC _DRNC

1002: Traffic

RT DCH ALLO DURA FOR AMR 5.9 KBPS IN UL IN DRNC

DURA_FOR_AMR_5_9_UL_IN_ DRNC

1002: Traffic

RT DCH ALLO DURA FOR AMR 6.7 KBPS IN UL IN DRNC

DURA_FOR_AMR_6_7_UL_IN_ DRNC

1002: Traffic

RT DCH ALLO DURA FOR AMR 7.4 KBPS IN UL IN DRNC

DURA_FOR_AMR_7_4_UL_IN_ DRNC

1002: Traffic

RT DCH ALLO DURA FOR DURA_FOR_AMR_7_95_UL_IN AMR 7.95 KBPS IN UL IN DRNC _DRNC

1002: Traffic

RT DCH ALLO DURA FOR DURA_FOR_AMR_10_2_UL_IN AMR 10.2 KBPS IN UL IN DRNC _DRNC

1002: Traffic

RT DCH ALLO DURA FOR DURA_FOR_AMR_12_2_UL_IN AMR 12.2 KBPS IN UL IN DRNC _DRNC

1002: Traffic

RT DCH ALLO DURA FOR DURA_FOR_AMR_4_75_DL_IN AMR 4.75 KBPS IN DL IN DRNC _DRNC

1002: Traffic

RT DCH ALLO DURA FOR DURA_FOR_AMR_5_15_DL_IN AMR 5.15 KBPS IN DL IN DRNC _DRNC

1002: Traffic

RT DCH ALLO DURA FOR AMR 5.9 KBPS IN DL IN DRNC

DURA_FOR_AMR_5_9_DL_IN_ DRNC

1002: Traffic

RT DCH ALLO DURA FOR AMR 6.7 KBPS IN DL IN DRNC

DURA_FOR_AMR_6_7_DL_IN_ DRNC

1002: Traffic

RT DCH ALLO DURA FOR AMR 7.4 KBPS IN DL IN DRNC

DURA_FOR_AMR_7_4_DL_IN_ DRNC

1002: Traffic

RT DCH ALLO DURA FOR DURA_FOR_AMR_7_95_DL_IN AMR 7.95 KBPS IN DL IN DRNC _DRNC

1002: Traffic

RT DCH ALLO DURA FOR DURA_FOR_AMR_10_2_DL_IN AMR 10.2 KBPS IN DL IN DRNC _DRNC

1002: Traffic

RT DCH ALLO DURA FOR DURA_FOR_AMR_12_2_DL_IN AMR 12.2 KBPS IN DL IN DRNC _DRNC

1002: Traffic

DCH REQ FOR DATA CALL IN DRNC

req_data_in_in_drnc

1002: Traffic

DCH REQ FOR DATA CALL REJECT IN UL IN DRNC

REQ_DATA_REJ_IN_UL_IN_D RNC

1002: Traffic

DCH REQ FOR DATA CALL REJECT IN DL IN DRNC

req_data_rej_in_dl_in_drnc

1002: Traffic

DCH DHO REQ FOR DATA CALL IN DRNC

dch_dho_req_data_drnc

1002: Traffic

DCH DHO REQ FOR DATA CALL REJECT IN DRNC

dch_dho_req_data_rej_drnc

1002: Traffic

DCH ALLO FOR DATA CALL 8 allo_for_data_8_ul_in_drnc KBPS IN UL IN DRNC

1002: Traffic

DCH ALLO FOR DATA CALL 14.4 KBPS IN UL IN DRNC

allo_for_data_14_4_ul_drnc

1002: Traffic

DCH ALLO FOR DATA CALL 16 KBPS IN UL IN DRNC

allo_for_data_16_ul_in_drnc

1002: Traffic

DCH ALLO FOR DATA CALL 32 KBPS IN UL IN DRNC

allo_for_data_32_ul_in_drnc

1002: Traffic

DCH ALLO FOR DATA CALL 57.6 KBPS IN UL IN DRNC

allo_for_data_57_6_ul_drnc

1002: Traffic

DCH ALLO FOR DATA CALL 64 KBPS IN UL IN DRNC

allo_for_data_64_ul_in_drnc

1002: Traffic

DCH ALLO FOR DATA CALL 128 KBPS IN UL IN DRNC

allo_for_data_128_ul_in_drnc

1002: Traffic

DCH ALLO FOR DATA CALL 256 KBPS IN UL IN DRNC

allo_for_data_256_ul_in_drnc

1002: Traffic

DCH ALLO FOR DATA CALL 384 KBPS IN UL IN DRNC

allo_for_data_384_ul_in_drnc

1002: Traffic

DCH ALLO FOR DATA CALL 8 allo_for_data_8_dl_in_drnc KBPS IN DL IN DRNC

1002: Traffic

DCH ALLO FOR DATA CALL 14.4 KBPS IN DL IN DRNC

allo_for_data_14_4_dl_drnc

1002: Traffic

DCH ALLO FOR DATA CALL 16 KBPS IN DL IN DRNC

allo_for_data_16_dl_in_drnc

1002: Traffic

DCH ALLO FOR DATA CALL 32 KBPS IN DL IN DRNC

allo_for_data_32_dl_in_drnc

1002: Traffic

DCH ALLO FOR DATA CALL 57.6 KBPS IN DL IN DRNC

allo_for_data_57_6_dl_drnc

1002: Traffic

DCH ALLO FOR DATA CALL 64 KBPS IN DL IN DRNC

allo_for_data_64_dl_in_drnc

1002: Traffic

DCH ALLO FOR DATA CALL 128 KBPS IN DL IN DRNC

allo_for_data_128_dl_in_drnc

1002: Traffic

DCH ALLO FOR DATA CALL 256 KBPS IN DL IN DRNC

allo_for_data_256_dl_in_drnc

1002: Traffic

DCH ALLO FOR DATA CALL 384 KBPS IN DL IN DRNC

allo_for_data_384_dl_in_drnc

1002: Traffic

DCH ALLO DURA FOR DATA CALL 8 KBPS IN uL IN DRNC

DURA_FOR_DATA_8_UL_IN_ DRNC

1002: Traffic

DCH ALLO DURA FOR DATA CALL 14.4 KBPS IN UL IN DRNC

DURA_FOR_DATA_14_4_UL_ DRNC

1002: Traffic

DCH ALLO DURA FOR DATA DURA_FOR_DATA_16_UL_IN_ CALL 16 KBPS IN UL IN DRNC DRNC

1002: Traffic

DCH ALLO DURA FOR DATA DURA_FOR_DATA_32_UL_IN_ CALL 32 KBPS IN UL IN DRNC DRNC

1002: Traffic

DCH ALLO DURA FOR DATA CALL 57.6 KBPS IN UL IN DRNC

1002: Traffic

DCH ALLO DURA FOR DATA DURA_FOR_DATA_64_UL_IN_ CALL 64 KBPS IN UL IN DRNC DRNC

1002: Traffic

DCH ALLO DURA FOR DATA CALL 128 KBPS IN UL IN DRNC

DURA_FOR_DATA_128_UL_IN _DRNC

1002: Traffic

DCH ALLO DURA FOR DATA CALL 256 KBPS IN UL IN DRNC

DURA_FOR_DATA_256_UL_IN _DRNC

1002: Traffic

DCH ALLO DURA FOR DATA CALL 384 KBPS IN UL IN DRNC

DURA_FOR_DATA_384_UL_IN _DRNC

1002: Traffic

DCH ALLO DURA FOR DATA CALL 8 KBPS IN DL IN DRNC

DURA_FOR_DATA_8_DL_IN_ DRNC

1002: Traffic

DCH ALLO DURA FOR DATA CALL 14.4 KBPS IN DL IN DRNC

DURA_FOR_DATA_14_4_DL_ DRNC

1002: Traffic

DCH ALLO DURA FOR DATA DURA_FOR_DATA_16_DL_IN_ CALL 16 KBPS IN DL IN DRNC DRNC

1002: Traffic

DCH ALLO DURA FOR DATA DURA_FOR_DATA_32_DL_IN_ CALL 32 KBPS IN DL IN DRNC DRNC

DURA_FOR_DATA_57_6_UL_ DRNC

1002: Traffic

DCH ALLO DURA FOR DATA CALL 57.6 KBPS IN DL IN DRNC

DURA_FOR_DATA_57_6_DL_ DRNC

1002: Traffic

DCH ALLO DURA FOR DATA DURA_FOR_DATA_64_DL_IN_ CALL 64 KBPS IN DL IN DRNC DRNC

1002: Traffic

DCH ALLO DURA FOR DATA CALL 128 KBPS IN DL IN DRNC

DURA_FOR_DATA_128_DL_IN _DRNC

1002: Traffic

DCH ALLO DURA FOR DATA CALL 256 KBPS IN DL IN DRNC

DURA_FOR_DATA_256_DL_IN _DRNC

1002: Traffic

DCH ALLO DURA FOR DATA CALL 384 KBPS IN DL IN DRNC

DURA_FOR_DATA_384_DL_IN _DRNC

1002: Traffic

DCH HHO REQ FOR SIG LINK IN SRNC

dch_hho_req_link_srnc

1002: Traffic

DCH HHO REQ FOR SIG LINK REJECT IN SRNC

dch_hho_req_link_rej_srnc

1002: Traffic

RT DCH HHO REQ FOR CS VOICE CALL IN SRNC

req_cs_voice_hho_srnc

1002: Traffic

RT DCH HHO REQ FOR CS req_cs_voice_hho_rej_srnc VOICE CALL REJECT IN SRNC

1002: Traffic

RT DCH HHO REQ FOR CS DATA CALL CONV CLASS IN SRNC

rt_req_data_conv_hho_srnc

1002: Traffic

RT DCH HHO REQ FOR CS DATA CALL CONV CLASS REJECT IN SRNC

rt_req_data_cnv_hho_rej_srnc

1002: Traffic

RT DCH HHO REQ FOR CS rt_req_data_stream_hho_srnc DATA CALL STREAM CLASS IN SRNC

1002: Traffic

RT DCH HHO REQ FOR CS DATA CALL STREAM CLASS REJECT IN SRNC

rt_req_data_strm_hho_rj_srnc

1002: Traffic

RT DCH HHO REQ FOR PS CALL CONV CLASS IN SRNC

rt_req_ps_conv_hho_srnc

1002: Traffic

RT DCH HHO REQ FOR PS rt_req_ps_conv_hho_rej_srnc CALL CONV CLASS REJECT IN SRNC

1002: Traffic

RT DCH HHO REQ FOR PS CALL STREAM CLASS IN SRNC

1002: Traffic

RT DCH HHO REQ FOR PS rt_req_ps_strm_hho_rej_srnc CALL STREAM CLASS REJECT IN SRNC

1002: Traffic

NRT DCH HHO REQ FOR PS nrt_req_ps_intera_hho_srnc CALL INTERA CLASS IN SRNC

1002: Traffic

NRT DCH HHO REQ FOR PS CALL INTERA CLASS REJECT IN SRNC

nrt_req_ps_int_hho_rej_srnc

1002: Traffic

NRT DCH HHO REQ FOR PS CALL BACKG CLASS IN SRNC

nrt_req_ps_backg_hho_srnc

1002: Traffic

NRT DCH HHO REQ FOR PS CALL BACKG CLASS REJECT IN SRNC

nrt_req_ps_backg_hho_rj_srnc

1002: Traffic

REQ FOR COM MODE UL TO INT FREQ HHO IN SRNC

req_cmod_ul_if_hho_srnc

1002: Traffic

REQ FOR COM MODE DL TO INT FREQ HHO IN SRNC

req_cmod_dl_if_hho_srnc

1002: Traffic

REQ FOR COM MODE UL TO INT SYST HHO IN SRNC

req_com_ul_int_sys_hho_srnc

rt_req_ps_stream_hho_srnc

1002: Traffic

REQ FOR COM MODE DL TO INT SYST HHO IN SRNC

req_com_dl_int_sys_hho_srnc

1002: Traffic

REQ FOR COM MODE UL REJECT TO INT FREQ HHO IN SRNC

req_com_ul_rej_fre_hho_srnc

1002: Traffic

REQ FOR COM MODE DL REJECT TO INT FREQ HHO IN SRNC

req_com_dl_rej_fre_hho_srnc

1002: Traffic

REQ FOR COM MODE UL REJECT TO INT SYST HHO IN SRNC

req_com_ul_rej_sys_hho_srnc

1002: Traffic

REQ FOR COM MODE DL REJECT TO INT SYST HHO IN SRNC

req_com_dl_rej_sys_hho_srnc

1002: Traffic

ALLO FOR COM MODE UL TO INT FREQ HHO IN SRNC

allo_com_ul_fre_hho_srnc

1002: Traffic

ALLO FOR COM MODE DL TO INT FREQ HHO IN SRNC

allo_com_dl_fre_hho_srnc

1002: Traffic

ALLO DURA FOR COM MODE ALLO_DUR_COM_UL_FRE_H UL TO INT FREQ HHO IN SRNC HO_SRNC

1002: Traffic

ALLO DURA FOR COM MODE ALLO_DUR_COM_DL_FRE_H DL TO INT FREQ HHO IN SRNC HO_SRNC

1002: Traffic

ALLO FOR COM MODE UL TO INT SYS HHO IN SRNC

allo_com_ul_sys_hho_srnc

1002: Traffic

ALLO FOR COM MODE DL TO INT SYS HHO IN SRNC

allo_com_dl_sys_hho_srnc

1002: Traffic

ALLO DURA FOR COM MODE UL TO INT SYS HHO IN SRNC

ALLO_DUR_COM_UL_SYS_H HO_SRNC

1002: Traffic

ALLO DURA FOR COM MODE DL TO INT SYS HHO IN SRNC

ALLO_DUR_COM_DL_SYS_H HO_SRNC

1002: Traffic

DCH HHO OVER IUR REQ FOR SIG LINK IN DRNC

dch_hho_req_link_drnc

1002: Traffic

DCH HHO OVER IUR REQ FOR dch_hho_req_link_rej_drnc SIG LINK REJECT IN DRNC

1002: Traffic

RT DCH HHO OVER IUR REQ req_cs_voice_hho_drnc FOR CS VOICE CALL IN DRNC

1002: Traffic

RT DCH HHO OVER IUR REQ FOR CS VOICE CALL REJECT IN DRNC

1002: Traffic

DCH HHO OVER IUR REQ FOR dch_hho_req_data_drnc DATA CALL IN DRNC

1002: Traffic

DCH HHO OVER IUR REQ FOR dch_hho_req_data_rej_drnc DATA CALL REJECT IN DRNC

1002: Traffic

REQ FOR COM MODE UL IN DRNC

req_cmod_ul_drnc

1002: Traffic

REQ FOR COM MODE DL IN DRNC

req_cmod_dl_drnc

1002: Traffic

REQ FOR COM MODE UL REJECT IN DRNC

req_cmod_ul_rej_drnc

1002: Traffic

REQ FOR COM MODE DL REJECT IN DRNC

req_cmod_dl_rej_drnc

1002: Traffic

ALLO FOR COM MODE UL IN DRNC

allo_cmod_ul_drnc

req_cs_voice_hho_rej_drnc

1002: Traffic

ALLO FOR COM MODE DL IN DRNC

allo_cmod_dl_drnc

1002: Traffic

ALLO DURA FOR COM MODE UL IN DRNC

allo_dura_cmod_ul_drnc

1002: Traffic

ALLO DURA FOR COM MODE DL IN DRNC

allo_dura_cmod_dl_drnc

1002: Traffic

HS-DSCH MAC-D FLOW ALLOCATIONS FOR INTERACTIVE

ALLO_HS_DSCH_FLOW_INT

1002: Traffic

HS-DSCH 64 KBPS RETURN CH ALLOCATIONS FOR INTERACTIVE

ALLO_HS_DSCH_RET_64_INT

1002: Traffic

HS-DSCH 128 KBPS RETURN CH ALLOCATIONS FOR INTERACTIVE

ALLO_HS_DSCH_RET_128_IN T

1002: Traffic

HS-DSCH 384 KBPS RETURN CH ALLOCATIONS FOR INTERACTIVE

ALLO_HS_DSCH_RET_384_IN T

1002: Traffic

HS-DSCH MAC-D FLOW ALLOCATIONS FOR BACKGROUND

ALLO_HS_DSCH_FLOW_BGR

1002: Traffic

HS-DSCH 64 KBPS RETURN CH ALLOCATIONS FOR BACKGROUND

ALLO_HS_DSCH_RET_64_BG R

1002: Traffic

HS-DSCH 128 KBPS RETURN CH ALLOCATIONS FOR BACKGROUND

ALLO_HS_DSCH_RET_128_B GR

1002: Traffic

HS-DSCH 384 KBPS RETURN CH ALLOCATIONS FOR BACKGROUND

ALLO_HS_DSCH_RET_384_B GR

1002: Traffic

HS-DSCH MAC-D FLOW ALLO_DUR_HS_DSCH_FLOW DURATION FOR INTERACTIVE _INT

1002: Traffic

HS-DSCH 64 KBPS RETURN CH DURATION FOR INTERACTIVE

ALLO_DUR_HS_DSCH_RET_6 4_INT

1002: Traffic

HS-DSCH 128 KBPS RETURN CH DURATION FOR INTERACTIVE

ALLO_DUR_HS_DSCH_RET_1 28_INT

1002: Traffic

HS-DSCH 384 KBPS RETURN CH DURATION FOR INTERACTIVE

ALLO_DUR_HS_DSCH_RET_3 84_INT

1002: Traffic

HS-DSCH MAC-D FLOW DURATION FOR BACKGROUND

ALLO_DUR_HS_DSCH_FLOW _BGR

1002: Traffic

HS-DSCH 64 KBPS RETURN CH DURATION FOR BACKGROUND

ALLO_DUR_HS_DSCH_RET_6 4_BGR

1002: Traffic

HS-DSCH 128 KBPS RETURN CH DURATION FOR BACKGROUND

ALLO_DUR_HS_DSCH_RET_1 28_BGR

1002: Traffic

HS-DSCH 384 KBPS RETURN CH DURATION FOR BACKGROUND

ALLO_DUR_HS_DSCH_RET_3 84_BGR

1002: Traffic

REJECTED HS-DSCH RETURN REJ_HS_DSCH_RET_INT CH FOR INTERACTIVE

1002: Traffic

REJECTED HS-DSCH RETURN REJ_HS_DSCH_RET_BGR CH FOR BACKGROUND

1002: Traffic

REJECTED AMR + HS-DSCH FOR BACKGROUND

REJ_HS_DSCH_AMR_BGR

1002: Traffic

AMR + HS-DSCH SETUP FAILURE FOR BACKGROUND

SETUP_FAIL_HS_DSCH_AMR _BGR

1002: Traffic

AMR + HS-DSCH ALLOCATIONS FOR BACKGROUND

ALLO_HS_DSCH_AMR_BGR

1002: Traffic

AMR + HS-DSCH NORMAL REL_ALLO_NORM_HSDSCH_ RELEASE FOR BACKGROUND AMR_BGR

1002: Traffic

HS-DSCH NORMAL RELEASE FOR INTERACTIVE

REL_ALLO_NORM_HS_DSCH _INT

1002: Traffic

HS-DSCH RELEASE DUE TO OTHER FAILURE FOR INTERACTIVE

REL_ALLO_OTH_FAIL_HSDSC H_INT

1002: Traffic

HS-DSCH RELEASE DUE TO MOBILITY DCH TRANSITION FOR INTERACTIVE

REL_ALLO_HS_DSCH_MOB_ DCH_INT

1002: Traffic

HS-DSCH NORMAL RELEASE FOR BACKGROUND

REL_ALLO_NORM_HS_DSCH _BGR

1002: Traffic

HS-DSCH RELEASE DUE TO OTHER FAILURE FOR BACKGROUND

REL_ALLO_OTH_FAIL_HSDSC H_BGR

1002: Traffic

HS-DSCH RELEASE DUE TO MOBILITY DCH TRANSITION FOR BACKGROUND

REL_ALLO_HS_DSCH_MOB_ DCH_BGR

1002: Traffic

HS-DSCH SETUP FAILURE DUE TO RNC INTERNAL FOR INTERACTIVE

SETUP_FAIL_RNC_HS_DSCH _INT

1002: Traffic

HS-DSCH MAC-D FLOW SETUP SETUP_FAIL_IUB_MAC_D_INT FAILURE DUE TO IUB TRANSPORT FOR INTERACTIVE

1002: Traffic

HS-DSCH SETUP FAILURE SETUP_FAIL_UE_HS_DSCH_I DUE TO UE FOR INTERACTIVE NT

1002: Traffic

HS-DSCH SETUP FAILURE DUE TO BTS FOR INTERACTIVE

1002: Traffic

HS-DSCH TOTAL IUB SETUP_FAIL_IUB_HS_TOTAL TRANSPORT SETUP FAIL FOR _INT INTERACTIVE

SETUP_FAIL_BTS_HS_DSCH_ INT

1002: Traffic

HS-DSCH 64 KBPS RETURN CH IUB TRANSPORT SETUP FAILURE FOR INTERACTIVE

SETUP_FAIL_64_IUB_HSDSC H_INT

1002: Traffic

HS-DSCH 128 KBPS RETURN CH IUB TRANSPORT SETUP FAILURE FOR INTERACTIVE

SETUP_FAIL_128_IUB_HSDS CH_IN

1002: Traffic

HS-DSCH 384 KBPS RETURN CH IUB TRANSPORT SETUP FAILURE FOR INTERACTIVE

SETUP_FAIL_384_IUB_HSDS CH_IN

1002: Traffic

HS-DSCH SETUP FAILURE DUE TO RNC INTERNAL FOR BACKGROUND

SETUP_FAIL_RNC_HS_DSCH _BGR

1002: Traffic

HS-DSCH MAC-D FLOW SETUP SETUP_FAIL_IUB_MAC_D_BG FAILURE DUE TO IUB R TRANSPORT FOR BACKGROUND

1002: Traffic

HS-DSCH SETUP FAILURE DUE TO UE FOR BACKGROUND

SETUP_FAIL_UE_HS_DSCH_ BGR

1002: Traffic

HS-DSCH SETUP FAILURE DUE TO BTS FOR BACKGROUND

SETUP_FAIL_BTS_HS_DSCH_ BGR

1002: Traffic

HS-DSCH TOTAL IUB SETUP_FAIL_IUB_HS_TOTAL TRANSPORT SETUP FAIL FOR _BGR BACKGROUND

1002: Traffic

HS-DSCH 64 KBPS RETURN CH IUB TRANSPORT SETUP FAILURE FOR BACKGROUND

SETUP_FAIL_64_IUB_HSDSC H_BGR

1002: Traffic

HS-DSCH 128 KBPS RETURN CH IUB TRANSPORT SETUP FAILURE FOR BACKGROUND

SETUP_FAIL_128_IUB_HSDS CH_BG

1002: Traffic

HS-DSCH 384 KBPS RETURN CH IUB TRANSPORT SETUP FAILURE FOR BACKGROUND

SETUP_FAIL_384_IUB_HSDS CH_BG

1002: Traffic

HS-DSCH RETURN CH UPGRADES FOR INTERACTIVE

HS_DSCH_RET_UPGRADE_IN T

1002: Traffic

HS-DSCH RETURN CH DOWNGRADES FOR INTERACTIVE

HS_DSCH_RET_DOWNGRAD E_INT

1002: Traffic

HS-DSCH RETURN CH UPGRADES FOR BACKGROUND

HS_DSCH_RET_UPGRADE_B GR

1002: Traffic

HS-DSCH RETURN CH DOWNGRADES FOR BACKGROUND

HS_DSCH_RET_DOWNGRAD E_BGR

1002: Traffic

ALLO FOR COM MODE UL ALLO_COM_UL_SF2_SRNC USING SF/2 METHOD IN SRNC

1002: Traffic

ALLO FOR COM MODE DL ALLO_COM_DL_SF2_SRNC USING SF/2 METHOD IN SRNC

1002: Traffic

ALLO FOR COM MODE UL ALLO_COM_UL_HLS_SRNC USING HLS METHOD IN SRNC

1002: Traffic

ALLO FOR COM MODE DL ALLO_COM_DL_HLS_SRNC USING HLS METHOD IN SRNC

1002: Traffic

ALLO DURA FOR COM MODE UL USING SF/2 METHOD IN SRNC

ALLO_DUR_COM_UL_SF2_SR NC

1002: Traffic

ALLO DURA FOR COM MODE DL USING SF/2 METHOD IN SRNC

ALLO_DUR_COM_DL_SF2_SR NC

1002: Traffic

ALLO DURA FOR COM MODE UL USING HLS METHOD IN SRNC

ALLO_DUR_COM_UL_HLS_SR NC

1002: Traffic

ALLO DURA FOR COM MODE DL USING HLS METHOD IN SRNC

ALLO_DUR_COM_DL_HLS_SR NC

1002: Traffic

ALLO FOR COM MODE UL ALLO_COM_UL_SF2_DRNC USING SF/2 METHOD IN DRNC

1002: Traffic

ALLO FOR COM MODE DL ALLO_COM_DL_SF2_DRNC USING SF/2 METHOD IN DRNC

1002: Traffic

ALLO FOR COM MODE UL ALLO_COM_UL_HLS_DRNC USING HLS METHOD IN DRNC

1002: Traffic

ALLO FOR COM MODE DL ALLO_COM_DL_HLS_DRNC USING HLS METHOD IN DRNC

1002: Traffic

ALLO DURA FOR COM MODE UL USING SF/2 METHOD IN DRNC

ALLO_DUR_COM_UL_SF2_DR NC

1002: Traffic

ALLO DURA FOR COM MODE DL USING SF/2 METHOD IN DRNC

ALLO_DUR_COM_DL_SF2_DR NC

1002: Traffic

ALLO DURA FOR COM MODE UL USING HLS METHOD IN DRNC

ALLO_DUR_COM_UL_HLS_D RNC

1002: Traffic

ALLO DURA FOR COM MODE DL USING HLS METHOD IN DRNC

ALLO_DUR_COM_DL_HLS_D RNC

1002: Traffic

DCH SELECTED FOR INTERACTIVE DUE TO MAX HSDPA USERS

DCH_SEL_MAX_HSDPA_USE RS_INT

1002: Traffic

DCH SELECTED FOR BACKGROUND DUE TO MAX HSDPA USERS

DCH_SEL_MAX_HSDPA_USE RS_BGR

1002: Traffic

HS-DSCH RELEASE DUE TO OTHER DCH TRANSITION REASON FOR INTERACTIVE

REL_ALLO_HS_DSCH_OTH_D CH_INT

1002: Traffic

HS-DSCH RELEASE DUE TO PRE-EMPTION FOR INTERACTIVE

REL_ALLO_HS_DSCH_PRE_E MP_INT

1002: Traffic

HS-DSCH RELEASE DUE TO RL FAILURE FOR INTERACTIVE

REL_ALLO_RL_FAIL_HS_DSC H_INT

1002: Traffic

HS-DSCH RELEASE DUE TO OTHER DCH TRANSITION REASON FOR BACKGROUND

REL_ALLO_HS_DSCH_OTH_D CH_BGR

1002: Traffic

HS-DSCH RELEASE DUE TO PRE-EMPTION FOR BACKGROUND

REL_ALLO_HS_DSCH_PRE_E MP_BGR

1002: Traffic

HS-DSCH RELEASE DUE TO RL FAILURE FOR BACKGROUND

REL_ALLO_RL_FAIL_HS_DSC H_BGR

1002: Traffic

REJECTED AMR + HS-DSCH FOR INTERACTIVE

REJ_HS_DSCH_AMR_INT

1002: Traffic

AMR + HS-DSCH SETUP FAILURE FOR INTERACTIVE

SETUP_FAIL_HS_DSCH_AMR _INT

1002: Traffic

AMR + HS-DSCH ALLOCATIONS FOR INTERACTIVE

ALLO_HS_DSCH_AMR_INT

1002: Traffic

AMR + HS-DSCH NORMAL RELEASE FOR INTERACTIVE

REL_ALLO_NORM_HSDSCH_ AMR_INT

1002: Traffic

DCH ALLO FOR WAMR 12.65 KBPS IN SRNC

ALLO_FOR_WAMR_12_65_SR NC

1002: Traffic

DCH ALLO FOR WAMR 6.6 KBPS IN SRNC

ALLO_FOR_WAMR_6_6_SRN C

1002: Traffic

DCH ALLO DURA FOR WAMR 12.65 KBPS IN SRNC

DURA_FOR_WAMR_12_65_S RNC

1002: Traffic

DCH ALLO DURA FOR WAMR 6.6 KBPS IN SRNC

DURA_FOR_WAMR_6_6_SRN C

1002: Traffic

DCH ALLO FOR WAMR 12.65 KBPS IN DRNC

ALLO_FOR_WAMR_12_65_DR NC

1002: Traffic

DCH ALLO FOR WAMR 8.85 KBPS IN DRNC

ALLO_FOR_WAMR_8_85_DRN C

1002: Traffic

DCH ALLO FOR WAMR 6.6 KBPS IN DRNC

ALLO_FOR_WAMR_6_6_DRN C

1002: Traffic

DCH ALLO DURA FOR WAMR 12.65 KBPS IN DRNC

DURA_FOR_WAMR_12_65_D RNC

1002: Traffic

DCH ALLO DURA FOR WAMR 8.85 KBPS IN DRNC

DURA_FOR_WAMR_8_85_DR NC

1002: Traffic

DCH ALLO DURA FOR WAMR 6.6 KBPS IN DRNC

DURA_FOR_WAMR_6_6_DRN C

1002: Traffic

DCH MOD DUE TO SWITCHING SWI_FROM_WAMR_TO_NAM FROM WAMR TO NAMR IN R_SRNC SRNC

1002: Traffic

DCH MOD DUE TO SWITCHING SWI_FROM_NAMR_TO_WAM FROM NAMR TO WAMR IN R_SRNC SRNC

1002: Traffic

DCH MOD DUE TO SWITCHING SWI_FROM_WAMR_TO_NAM FROM WAMR TO NAMR IN R_DRNC DRNC

1002: Traffic

DCH MOD DUE TO SWITCHING SWI_FROM_NAMR_TO_WAM FROM NAMR TO WAMR IN R_DRNC DRNC

1002: Traffic

HS-DSCH 16 KBPS RETURN CH ALLOCATIONS FOR INTERACTIVE

ALLO_HS_DSCH_RET_16_INT

1002: Traffic

HS-DSCH 16 KBPS RETURN CH ALLOCATIONS FOR BACKGROUND

ALLO_HS_DSCH_RET_16_BG R

1002: Traffic

HS-DSCH 16 KBPS RETURN CH DURATION FOR INTERACTIVE

ALLO_DUR_HS_DSCH_RET_1 6_INT

1002: Traffic

HS-DSCH 16 KBPS RETURN CH DURATION FOR BACKGROUND

ALLO_DUR_HS_DSCH_RET_1 6_BGR

1002: Traffic

HS-DSCH 16 KBPS RETURN CH IUB TRANSPORT SETUP FAILURE FOR INTERACTIVE

SETUP_FAIL_16_IUB_HSDSC H_INT

1002: Traffic

HS-DSCH 16 KBPS RETURN CH IUB TRANSPORT SETUP FAILURE FOR BACKGROUND

SETUP_FAIL_16_IUB_HSDSC H_BGR

1002: Traffic

CHANNEL TYPE SWITCH FROM DCH TO HS-DSCH FOR INTERACTIVE

SWI_DCH_TO_HS_DSCH_INT

1002: Traffic

CHANNEL TYPE SWITCH FROM DCH TO HS-DSCH FOR BACKGROUND

SWI_DCH_TO_HS_DSCH_BG R

1002: Traffic

DCH ALLO FOR SIG LINK FROM NON-HSPA TO HSPA LAYER

DCH_ALLO_NON_HSPA_TO_ HSPA

1002: Traffic

DCH ALLO FOR SIG LINK FROM HSPA TO NON-HSPA LAYER

DCH_ALLO_HSPA_TO_NON_ HSPA

1002: Traffic

DCH ALLO FOR SIG LINK FROM HSPA TO HSPA LAYER

DCH_ALLO_HSPA_TO_HSPA

1002: Traffic

FACH TO DCH FROM NONHSPA TO HSPA LAYER

FACH_DCH_NON_HSPA_TO_ HSPA

1002: Traffic

FACH TO DCH FROM HSPA TO FACH_DCH_HSPA_TO_NON_ NON-HSPA LAYER HSPA

1002: Traffic

FACH TO DCH FROM HSPA TO FACH_DCH_HSPA_TO_HSPA HSPA LAYER

1002: Traffic

UL DCH SELECTED FOR INTERACTIVE DUE TO MAX HSUPA USERS

UL_DCH_SEL_MAX_HSUPA_U SR_INT

1002: Traffic

UL DCH SELECTED FOR BACKGROUND DUE TO MAX HSUPA USERS

UL_DCH_SEL_MAX_HSUPA_U SR_BGR

1002: Traffic

UL DCH SELECTED FOR UL_DCH_SEL_BTS_HW_INT INTERACTIVE DUE TO BTS HW LIMIT

1002: Traffic

UL DCH SELECTED FOR BACKGROUND DUE TO BTS HW LIMIT

UL_DCH_SEL_BTS_HW_BGR

1002: Traffic

E-DCH ALLO CANCEL FOR INTERACTIVE DUE TO NON ACCEPTABLE AS

EDCH_ALLO_CANC_NA_AS_I NT

1002: Traffic

E-DCH ALLO CANCEL FOR BACKGROUND DUE TO NON ACCEPTABLE AS

EDCH_ALLO_CANC_NA_AS_B GR

1002: Traffic

E-DCH SETUP FAILURE DUE TO UE FOR INTERACTIVE

SETUP_FAIL_EDCH_UE_INT

1002: Traffic

E-DCH SETUP FAILURE DUE TO UE FOR BACKGROUND

SETUP_FAIL_EDCH_UE_BGR

1002: Traffic

E-DCH SETUP FAILURE DUE TO BTS FOR INTERACTIVE

SETUP_FAIL_EDCH_BTS_INT

1002: Traffic

E-DCH SETUP FAILURE DUE TO BTS FOR BACKGROUND

SETUP_FAIL_EDCH_BTS_BG R

1002: Traffic

E-DCH SETUP FAILURE DUE TO TRANSPORT FOR INTERACTIVE

SETUP_FAIL_EDCH_TRANS_I NT

1002: Traffic

E-DCH SETUP FAILURE DUE TO TRANSPORT FOR BACKGROUND

SETUP_FAIL_EDCH_TRANS_ BGR

1002: Traffic

E-DCH SETUP FAILURE DUE TO OTHER REASONS FOR INTERACTIVE

SETUP_FAIL_EDCH_OTHER_I NT

1002: Traffic

E-DCH SETUP FAILURE DUE TO OTHER REASONS FOR BACKGROUND

SETUP_FAIL_EDCH_OTHER_ BGR

1002: Traffic

E-DCH ALLOCATIONS FOR INTERACTIVE

ALLO_SUCCESS_EDCH_INT

1002: Traffic

E-DCH ALLOCATIONS FOR BACKGROUND

ALLO_SUCCESS_EDCH_BGR

1002: Traffic

E-DCH ALLOCATION ALLO_DUR_EDCH_INT DURATION FOR INTERACTIVE

1002: Traffic

E-DCH ALLOCATION DURATION FOR BACKGROUND

ALLO_DUR_EDCH_BGR

1002: Traffic

E-DCH NORMAL RELEASE FOR INTERACTIVE

REL_EDCH_NORM_INT

1002: Traffic

E-DCH NORMAL RELEASE FOR BACKGROUND

REL_EDCH_NORM_BGR

1002: Traffic

E-DCH RELEASE DUE HSDSCH SERVING CELL CHANGE FOR INTERACTIVE

REL_EDCH_HSDSCH_SCC_IN T

1002: Traffic

E-DCH RELEASE DUE HSDSCH SERVING CELL CHANGE FOR BACKGROUND

REL_EDCH_HSDSCH_SCC_B GR

1002: Traffic

E-DCH RELEASE DUE TO RL FAILURE FOR INTERACTIVE

REL_EDCH_RL_FAIL_INT

1002: Traffic

E-DCH RELEASE DUE TO RL FAILURE FOR BACKGROUND

REL_EDCH_RL_FAIL_BGR

1002: Traffic

E-DCH RELEASE DUE TO OTHER FAILURE FOR INTERACTIVE

REL_EDCH_OTHER_FAIL_INT

1002: Traffic

E-DCH RELEASE DUE TO OTHER FAILURE FOR BACKGROUND

REL_EDCH_OTHER_FAIL_BG R

1002: Traffic

AMR + E-DCH ALLOCATIONS

AMR_EDCH_ALLO

1002: Traffic

AMR + E-DCH NORMAL RELEASE

AMR_EDCH_NORMAL_REL

1002: Traffic

HS-DSCH ALLO FOR INTER RNC HHO INTERACTIVE

ALLO_HS_INTER_RNC_HHO_I NT

1002: Traffic

HS-DSCH ALLO FOR INTER RNC HHO BACKGROUND

ALLO_HS_INTER_RNC_HHO_ BGR

1002: Traffic

HS-DSCH SETUP FAIL FOR STP_F_HS_INTER_RNC_HHO INTER RNC HHO INTERACTIVE _INT

1002: Traffic

HS-DSCH SETUP FAIL FOR INTER RNC HHO BACKGROUND

STP_F_HS_INTER_RNC_HHO _BGR

1002: Traffic

E-DCH ALLO FOR INTER RNC HHO INTERACTIVE

ALLO_ED_INTER_RNC_HHO_I NT

1002: Traffic

E-DCH ALLO FOR INTER RNC HHO BACKGROUND

ALLO_ED_INTER_RNC_HHO_ BGR

1002: Traffic

E-DCH SETUP FAIL FOR INTER STP_F_ED_INTER_RNC_HHO RNC HHO INTERACTIVE _INT

1002: Traffic

E-DCH SETUP FAIL FOR INTER STP_F_ED_INTER_RNC_HHO RNC HHO BACKGROUND _BGR

1002: Traffic

NRT DCH SETUP REJECT FOR REJ_DCH_DUE_CODES_INT_ INTERACTIVE DUE TO OUT OF DL CODES DL

1002: Traffic

NRT DCH SETUP REJECT FOR REJ_DCH_DUE_CODES_BGR BACKGROUND DUE TO OUT _DL OF CODES DL

1002: Traffic

NRT DCH SETUP REJECT FOR REJ_DCH_DUE_POWER_INT_ INTERACTIVE DUE TO POWER DL LIMITS DL

1002: Traffic

NRT DCH SETUP REJECT FOR REJ_DCH_DUE_POWER_BGR BACKGROUND DUE TO _DL POWER LIMITS DL

1002: Traffic

NRT DCH RECONFIG REJECT FOR INTERACTIVE DUE TO OUT OF CODES DL

REJ_DCH_REC_DUE_CODES _INT_DL

1002: Traffic

NRT DCH RECONFIG REJECT FOR BACKGROUND DUE TO OUT OF CODES DL

REJ_DCH_REC_DUE_CODES _BGR_DL

1002: Traffic

NRT DCH RECONFIG REJECT FOR INTERACTIVE DUE TO POWER LIMITS DL

REJ_DCH_REC_DUE_PWR_IN T_DL

1002: Traffic

NRT DCH RECONFIG REJECT FOR BACKGROUND DUE TO POWER LIMITS DL

REJ_DCH_REC_DUE_PWR_B GR_DL

1002: Traffic

AMR LOWER CODEC SF128 SELECTED FOR INCOMING CALL

AMR_LOWER_CODEC_SF128 _INC

1002: Traffic

AMR LOWER CODEC SF256 SELECTED FOR INCOMING CALL

AMR_LOWER_CODEC_SF256 _INC

1002: Traffic

LOAD BASED AMR CODEC DOWNGRADE SF128 SUCCESSFUL

LOAD_AMR_DGR_SF128_SUC CESS

1002: Traffic

LOAD BASED AMR CODEC DOWNGRADE SF256 SUCCESSFUL

LOAD_AMR_DGR_SF256_SUC CESS

1002: Traffic

LOAD BASED AMR CODEC UPGRADE SUCCESSFUL

LOAD_AMR_UPGRADE_SUCC ESS

1002: Traffic

AMR CODEC CHANGE FAIL DUE TO ICSU LOAD

AMR_CODEC_CHANGE_FAIL_ ICSU

1002: Traffic

AMR CODEC CHANGE FAIL DUE TO OTHER REASONS

AMR_CODEC_CHANGE_FAIL_ OTHER

1002: Traffic

CHANNEL TYPE SWITCH FROM DCH TO HS-DSCH FOR STREAMING

SWI_DCH_TO_HS_DSCH_STR

1002: Traffic

HS-DSCH MAC-D FLOW ALLOCATIONS FOR STREAMING

ALLO_HS_DSCH_FLOW_STR

1002: Traffic

HS-DSCH 16 KBPS RETURN CH ALLOCATIONS FOR STREAMING

ALLO_HS_DSCH_RET_16_ST R

1002: Traffic

HS-DSCH 64 KBPS RETURN CH ALLOCATIONS FOR STREAMING

ALLO_HS_DSCH_RET_64_ST R

1002: Traffic

HS-DSCH 128 KBPS RETURN CH ALLOCATIONS FOR STREAMING

ALLO_HS_DSCH_RET_128_S TR

1002: Traffic

HS-DSCH MAC-D FLOW DURATION FOR STREAMING

ALLO_DUR_HS_DSCH_FLOW _STR

1002: Traffic

HS-DSCH 16 KBPS RETURN CH DURATION FOR STREAMING

ALLO_DUR_HS_DSCH_RET_1 6_STR

1002: Traffic

HS-DSCH 64 KBPS RETURN CH DURATION FOR STREAMING

ALLO_DUR_HS_DSCH_RET_6 4_STR

1002: Traffic

HS-DSCH 128 KBPS RETURN CH DURATION FOR STREAMING

ALLO_DUR_HS_DSCH_RET_1 28_STR

1002: Traffic

REJECTED HS-DSCH RETURN REJ_HS_DSCH_RET_STR CH FOR STREAMING

1002: Traffic

HS-DSCH NORMAL RELEASE FOR STREAMING

REL_ALLO_NORM_HS_DSCH _STR

1002: Traffic

HS-DSCH RELEASE DUE TO OTHER FAILURE FOR STREAMING

REL_ALLO_OTH_FAIL_HSDSC H_STR

1002: Traffic

HS-DSCH RELEASE DUE TO MOBILITY DCH TRANSITION FOR STREAMING

REL_ALLO_HS_DSCH_MOB_ DCH_STR

1002: Traffic

HS-DSCH SETUP FAILURE DUE TO RNC INTERNAL FOR STREAMING

SETUP_FAIL_RNC_HS_DSCH _STR

1002: Traffic

HS-DSCH MAC-D FLOW SETUP SETUP_FAIL_IUB_MAC_D_ST FAILURE DUE TO IUB R TRANSPORT FOR STREAMING

1002: Traffic

HS-DSCH SETUP FAILURE DUE TO UE FOR STREAMING

1002: Traffic

HS-DSCH SETUP FAILURE SETUP_FAIL_BTS_HS_DSCH_ DUE TO BTS FOR STREAMING STR

1002: Traffic

HS-DSCH TOTAL IUB SETUP_FAIL_IUB_HS_TOTAL TRANSPORT SETUP FAIL FOR _STR STREAMING

1002: Traffic

HS-DSCH 16 KBPS RETURN CH IUB TRANSPORT SETUP FAILURE FOR STREAMING

SETUP_FAIL_16_IUB_HSDSC H_STR

1002: Traffic

HS-DSCH 64 KBPS RETURN CH IUB TRANSPORT SETUP FAILURE FOR STREAMING

SETUP_FAIL_64_IUB_HSDSC H_STR

1002: Traffic

HS-DSCH 128 KBPS RETURN CH IUB TRANSPORT SETUP FAILURE FOR STREAMING

SETUP_FAIL_128_IUB_HSDS CH_ST

1002: Traffic

HS-DSCH RETURN CH UPGRADES FOR STREAMING

HS_DSCH_RET_UPGRADE_S TR

SETUP_FAIL_UE_HS_DSCH_ STR

1002: Traffic

HS-DSCH RETURN CH DOWNGRADES FOR STREAMING

HS_DSCH_RET_DOWNGRAD E_STR

1002: Traffic

DCH SELECTED FOR STREAMING DUE TO MAX HSDPA USERS

DCH_SEL_MAX_HSDPA_USE RS_STR

1002: Traffic

HS-DSCH RELEASE DUE TO OTHER DCH TRANSITION REASON FOR STREAMING

REL_ALLO_HS_DSCH_OTH_D CH_STR

1002: Traffic

HS-DSCH RELEASE DUE TO PRE-EMPTION FOR STREAMING

REL_ALLO_HS_DSCH_PRE_E MP_STR

1002: Traffic

HS-DSCH RELEASE DUE TO REL_ALLO_RL_FAIL_HS_DSC RL FAILURE FOR STREAMING H_STR

1002: Traffic

REJECTED AMR + HS-DSCH FOR STREAMING

REJ_HS_DSCH_AMR_STR

1002: Traffic

AMR + HS-DSCH SETUP FAILURE FOR STREAMING

SETUP_FAIL_HS_DSCH_AMR _STR

1002: Traffic

AMR + HS-DSCH ALLOCATIONS FOR STREAMING

ALLO_HS_DSCH_AMR_STR

1002: Traffic

AMR + HS-DSCH NORMAL RELEASE FOR STREAMING

REL_ALLO_NORM_HSDSCH_ AMR_STR

1002: Traffic

UL DCH SELECTED FOR STREAMING DUE TO MAX HSUPA USERS

UL_DCH_SEL_MAX_HSUPA_U SR_STR

1002: Traffic

UL DCH SELECTED FOR STREAMING DUE TO BTS HW LIMIT

UL_DCH_SEL_BTS_HW_STR

1002: Traffic

E-DCH ALLO CANCEL FOR STREAMING DUE TO NON ACCEPTABLE AS

EDCH_ALLO_CANC_NA_AS_S TR

1002: Traffic

E-DCH SETUP FAILURE DUE TO UE FOR STREAMING

SETUP_FAIL_EDCH_UE_STR

1002: Traffic

E-DCH SETUP FAILURE DUE TO BTS FOR STREAMING

SETUP_FAIL_EDCH_BTS_STR

1002: Traffic

E-DCH SETUP FAILURE DUE TO TRANSPORT FOR STREAMING

SETUP_FAIL_EDCH_TRANS_ STR

1002: Traffic

E-DCH SETUP FAILURE DUE TO OTHER REASONS FOR STREAMING

SETUP_FAIL_EDCH_OTHER_ STR

1002: Traffic

E-DCH ALLOCATIONS FOR STREAMING

ALLO_SUCCESS_EDCH_STR

1002: Traffic

E-DCH ALLOCATION DURATION FOR STREAMING

ALLO_DUR_EDCH_STR

1002: Traffic

E-DCH NORMAL RELEASE FOR STREAMING

REL_EDCH_NORM_STR

1002: Traffic

E-DCH RELEASE DUE HSDSCH SERVING CELL CHANGE FOR STREAMING

REL_EDCH_HSDSCH_SCC_S TR

1002: Traffic

E-DCH RELEASE DUE TO RL FAILURE FOR STREAMING

REL_EDCH_RL_FAIL_STR

1002: Traffic

E-DCH RELEASE DUE TO OTHER FAILURE FOR STREAMING

REL_EDCH_OTHER_FAIL_ST R

1002: Traffic

HS-DSCH ALLO FOR INTER RNC HHO STREAMING

ALLO_HS_INTER_RNC_HHO_ STR

1002: Traffic

HS-DSCH SETUP FAIL FOR INTER RNC HHO STREAMING

STP_F_HS_INTER_RNC_HHO _STR

1002: Traffic

E-DCH ALLO FOR INTER RNC HHO STREAMING

ALLO_ED_INTER_RNC_HHO_ STR

1002: Traffic

E-DCH SETUP FAIL FOR INTER STP_F_ED_INTER_RNC_HHO RNC HHO STREAMING _STR

1002: Traffic

AMR + MULTI-NRT HSPA ALLOCATION

ALLO_AMR_MULTINRT_HSPA

1002: Traffic

MULTI-NRT HSPA ALLOCATION

ALLO_MULTINRT_HSPA

1002: Traffic

AMR + RT-HSPA + NRT-HSPA ALLOCATION

ALLO_AMR_RT_NRT_HSPA

1002: Traffic

AMR + RT-HSPA + MULTI-NRT- ALLO_AMR_RT_MULTINRT_H HSPA ALLOCATION SPA

1002: Traffic

RT-HSPA + NRT-HSPA ALLOCATION

ALLO_RT_NRT_HSPA

1002: Traffic

RT-HSPA + MULTI-NRT-HSPA ALLOCATION

ALLO_RT_MULTINRT_HSPA

1002: Traffic

ALLOCATION FOR HSDPA IFHO COMPRESSED MODE

ALLO_CM_HSDPA_IFHO

1002: Traffic

ALLOCATION DURATION FOR HSDPA IFHO COMPRESSED MODE

ALLO_DURA_CM_HSDPA_IFH O

1002: Traffic

REJECTED HSDPA IFHO COMPRESSED MODE

REJ_CM_HSDPA_IFHO

1002: Traffic

NRT DCH SETUP REJECT FOR REJ_DCH_DUE_POWER_INT_ INTERACTIVE DUE TO POWER UL LIMITS UL

1002: Traffic

NRT DCH SETUP REJECT FOR REJ_DCH_DUE_POWER_BGR BACKGROUND DUE TO _UL POWER LIMITS UL

1002: Traffic

NRT DCH RECONFIG REJECT FOR INTERACTIVE DUE TO POWER LIMITS UL

REJ_DCH_REC_DUE_PWR_IN T_UL

1002: Traffic

NRT DCH RECONFIG REJECT FOR BACKGROUND DUE TO POWER LIMITS UL

REJ_DCH_REC_DUE_PWR_B GR_UL

1002: Traffic

HS-DSCH ATTEMPTS IN DRNC ATT_HS_DSCH_DRNC

1002: Traffic

HS-DSCH ALLOCATIONS IN DRNC

ALLO_HS_DSCH_DRNC

1002: Traffic

HS-DSCH ALLOCATION DURATION IN DRNC

ALLO_DUR_HS_DSCH_DRNC

1002: Traffic

E-DCH ATTEMPTS IN DRNC

ATT_EDCH_DRNC

1002: Traffic

E-DCH ALLOCATIONS IN DRNC

ALLO_EDCH_DRNC

1002: Traffic

E-DCH ALLOCATION DURATION IN DRNC

ALLO_DUR_EDCH_DRNC

1002: Traffic

HS-DSCH SETUP FAILURE DUE TO BTS FOR CS VOICE

SETUP_FAIL_BTS_HS_DSCH_ AMR

1002: Traffic

HS-DSCH SETUP FAILURE DUE TO UE FOR CS VOICE

SETUP_FAIL_UE_HS_DSCH_ AMR

1002: Traffic

HS-DSCH SETUP FAILURE DUE TO TRANSPORT FOR CS VOICE

SETUP_FAIL_TRANS_HS_DS CH_AMR

1002: Traffic

HS-DSCH SETUP FAILURE DUE TO OTHER REASONS FOR CS VOICE

SETUP_FAIL_OTHER_HS_DS CH_AMR

1002: Traffic

E-DCH SETUP FAILURE DUE TO BTS FOR CS VOICE

SETUP_FAIL_BTS_EDCH_AM R

1002: Traffic

E-DCH SETUP FAILURE DUE TO UE FOR CS VOICE

SETUP_FAIL_UE_EDCH_AMR

1002: Traffic

E-DCH SETUP FAILURE DUE TO TRANSPORT FOR CS VOICE

SETUP_FAIL_TRANS_EDCH_ AMR

1002: Traffic

E-DCH SETUP FAILURE DUE SETUP_FAIL_OTHER_EDCH_ TO OTHER REASONS FOR CS AMR VOICE

1002: Traffic

HS-DSCH NORMAL RELEASE FOR AMR

REL_ALLO_NORM_HS_DSCH _AMR

1002: Traffic

HS-DSCH RELEASE DUE TO RL FAILURE FOR AMR

REL_ALLO_RL_FAIL_HS_DSC H_AMR

1002: Traffic

HS-DSCH RELEASE DUE TO OTHER FAILURE FOR AMR

REL_ALLO_OTH_FAIL_HSDSC H_AMR

1002: Traffic

E-DCH NORMAL RELEASE FOR AMR

REL_ALLO_NORM_EDCH_AM R

1002: Traffic

E-DCH RELEASE DUE TO RL FAILURE FOR AMR

REL_ALLO_RL_FAIL_EDCH_A MR

1002: Traffic

E-DCH RELEASE DUE TO OTHER FAILURE FOR AMR

REL_ALLO_OTH_FAIL_EDCH_ AMR

1002: Traffic

CHANNEL TYPE SWITCH SWI_R99_TO_HSPA_CS_VOIC FROM R99 DCH TO HSPA FOR E AMR

1002: Traffic

CHANNEL TYPE SWITCH SWI_HSPA_TO_R99_CS_AMR FROM HSPA TO R99 DCH FOR AMR

1002: Traffic

HS-DSCH ALLOCATIONS FOR AMR 5.9 KBPS IN SRNC

ALLO_HS_DSCH_5_9_AMR

1002: Traffic

HS-DSCH ALLOCATIONS FOR AMR 12.2 KBPS IN SRNC

ALLO_HS_DSCH_12_2_AMR

1002: Traffic

HS-DSCH ALLOCATIONS FOR AMR 12.65 KBPS IN SRNC

ALLO_HS_DSCH_12_65_AMR

1002: Traffic

HS-DSCH ALLOCATION ALLO_DUR_HS_DSCH_5_9_A DURATION FOR AMR 5.9 KBPS MR IN SRNC

1002: Traffic

HS-DSCH ALLOCATION DURATION FOR AMR 12.2 KBPS IN SRNC

ALLO_DUR_HS_DSCH_12_2_ AMR

1002: Traffic

HS-DSCH ALLOCATION DURATION FOR AMR 12.65 KBPS IN SRNC

ALLO_DUR_HS_DSCH_12_65 _AMR

1002: Traffic

E-DCH ALLOCATIONS FOR AMR 5.9 KBPS IN SRNC

ALLO_SUCCESS_EDCH_AMR _5_9

1002: Traffic

E-DCH ALLOCATIONS FOR AMR 12.2 KBPS IN SRNC

ALLO_SUCCESS_EDCH_AMR _12_2

1002: Traffic

E-DCH ALLOCATIONS FOR AMR 12.65 KBPS IN SRNC

ALLO_SUCCESS_EDCH_AMR _12_65

1002: Traffic

E-DCH ALLOCATION ALLO_DUR_EDCH_5_9_AMR DURATION FOR AMR 5.9 KBPS IN SRNC

1002: Traffic

E-DCH ALLOCATION DURATION FOR AMR 12.2 KBPS IN SRNC

ALLO_DUR_EDCH_12_2_AMR

1002: Traffic

E-DCH ALLOCATION DURATION FOR AMR 12.65 KBPS IN SRNC

ALLO_DUR_EDCH_12_65_AM R

1002: Traffic

E-DCH ALLO FOR SRB IN SRNC

ALLO_EDCH_SRB_SRNC

1002: Traffic

E-DCH ALLO FOR SRB IN DRNC

ALLO_EDCH_SRB_DRNC

1002: Traffic

HS-DSCH ALLO FOR SRB IN SRNC

ALLO_HS_DSCH_SRB_SRNC

1002: Traffic

HS-DSCH MAC-D FLOW DURATION IN INACTIVE STATE FOR BACKGROUND

ALLO_DUR_HS_DSCH_INACTI V_BGR

1002: Traffic

HS-DSCH MAC-D FLOW DURATION IN INACTIVE STATE FOR INTERACTIVE

ALLO_DUR_HS_DSCH_INACTI V_INT

1002: Traffic

E-DCH ALLOCATION DURATION IN INACTIVE STATE FOR BACKGROUND

ALLO_DUR_EDCH_INACTIV_B GR

1002: Traffic

E-DCH ALLOCATION DURATION IN INACTIVE STATE FOR INTERACTIVE

ALLO_DUR_EDCH_INACTIV_I NT

1002: Traffic

HSPA DIREAL ATTEMPTS FOR ATT_HSPA_DIREAL_BGR BACKGROUND

1002: Traffic

HSPA DIREAL ATTEMPTS FOR ATT_HSPA_DIREAL_INT INTERACTIVE

1002: Traffic

HSPA DIREAL SUCCESSFUL FOR BACKGROUND

ALLO_SUCC_HSPA_DIREAL_ BGR

1002: Traffic

HSPA DIREAL SUCCESSFUL FOR INTERACTIVE

ALLO_SUCC_HSPA_DIREAL_I NT

1002: Traffic

ALLOCATION FOR HSUPA IFHO COMPRESSED MODE

ALLO_CM_HSUPA_IFHO

1002: Traffic

ALLOCATION DURATION FOR HSUPA IFHO COMPRESSED MODE

ALLO_DURA_CM_HSUPA_IFH O

1002: Traffic

REJECTED HSUPA IFHO COMPRESSED MODE

REJ_CM_HSUPA_IFHO

1002: Traffic

TRAFFIC SPARE 1

TRAFFIC_SPARE_1

1002: Traffic

TRAFFIC SPARE 2

TRAFFIC_SPARE_2

1002: Traffic

E-DCH SETUP REJECT DUE TO AC FOR INTERACTIVE

SETUP_REJ_EDCH_AC_INT

1002: Traffic

E-DCH SETUP REJECT DUE TO AC FOR BACKGROUND

SETUP_REJ_EDCH_AC_BGR

1002: Traffic

MASS EVENT HANDLER MEH_RESTR_R99_UL_DCH RESTRICTED R99 UL BITRATE

1002: Traffic

MASS EVENT HANDLER REJECTED E-DCH

MEH_REJECT_EDCH

1002: Traffic

MASS EVENT HANDLER REJECTED HS-DSCH

MEH_REJECT_HSDSCH

1002: Traffic

MASS EVENT HANDLER ADMITTED CS VOICE

MEH_ADMIT_CS_VOICE

1002: Traffic

MASS EVENT HANDLER PREVENTED 2MS EDCH TTI

MEH_REJECT_2MS_EDCH_TT I

1002: Traffic

SC-HSDPA SELECTED DUE TO SC_HSDPA_SEL_UL_LOAD UL LOAD

1002: Traffic

SC-HSUPA SELECTED DUE TO SC_HSUPA_SEL_UL_LOAD UL LOAD

1002: Traffic

ALLO FOR COM MODE LTE

ALLO_COM_LTE

1002: Traffic

ALLO DURA FOR COM MODE LTE

ALLO_DUR_COM_LTE

1002: Traffic

AMR CODEC SET (12.2, 7.4, 5.9, 4.75) ALLOCATION

ALLO_AMR_122_74_59_475

1002: Traffic

ALLOCATION FOR HSPA 2G ISHO COMPRESSED MODE

ALLO_CM_HSPA_2G_ISHO

1002: Traffic

ALLOCATION DURATION FOR ALLO_DURA_CM_HSPA_2G_I HSPA 2G ISHO COMPRESSED SHO MODE

1002: Traffic

REJECTED REQUEST DUE TO REJECTED_REQUEST_BTS_L BTS LOAD OAD

1002: Traffic

E-DCH RELEASE DUE TO NRT- REL_EDCH_NRT_O_NRT_INT OVER-NRT FOR INTERACTIVE

1002: Traffic

E-DCH RELEASE DUE TO NRT- REL_EDCH_NRT_O_NRT_BG OVER-NRT FOR R BACKGROUND

1002: Traffic

DCH ALLO FOR WAMR 23.85 KBPS IN SRNC

ALLO_FOR_WAMR_23_85_SR NC

1002: Traffic

DCH ALLO DURA FOR WAMR 23.85 KBPS IN SRNC

DURA_FOR_WAMR_23_85_S RNC

1002: Traffic

DCH ALLO FOR WAMR 23.85 KBPS IN DRNC

ALLO_FOR_WAMR_23_85_DR NC

1002: Traffic

DCH ALLO DURA FOR WAMR 23.85 KBPS IN DRNC

DURA_FOR_WAMR_23_85_D RNC

1002: Traffic

LOAD BASED WAMR CODEC DOWNGRADE 12.65 KBPS SUCCESSFUL

LOAD_WAMR_DGR_12_65_S UCCESS

1002: Traffic

WAMR LOWER CODEC SF128 SELECTED FOR INCOMING CALL

WAMR_LOWER_CODEC_SF1 28_INC

1002: Traffic

WAMR LOWER CODEC SF256 SELECTED FOR INCOMING CALL

WAMR_LOWER_CODEC_SF2 56_INC

1002: Traffic

LOAD BASED WAMR CODEC UPGRADE SUCCESSFUL

LOAD_WAMR_UPGRADE_SU CCESS

1002: Traffic

LOAD BASED WAMR CODEC DOWNGRADE SF128 SUCCESSFUL

LOAD_WAMR_DGR_SF128_S UCCESS

1002: Traffic

LOAD BASED WAMR CODEC DOWNGRADE SF256 SUCCESSFUL

LOAD_WAMR_DGR_SF256_S UCCESS

1002: Traffic

LOAD BASED WAMR CODEC LOAD_WAMR_DGR_SF128_T DOWNGRADE SF128 TO SF256 O_SF256 SUCCESSFUL

1002: Traffic

HO ADMITTED BY PRIORITIZED AC WHICH TRIGGERS DYNAMIC VOICE CALL

PRI_AC_HO_ADM_DYN_V_CA LL

1002: Traffic

Duration of AMR CALLS WITH SVQ EBNO SET

DUR_AMR_SVQ_EBNO

1002: Traffic

NUMBER of AMR CALLS WITH SVQ EBNO SET

NUM_AMR_SVQ_EBNO

1002: Traffic

SRB ON HSPA ALLO FOR CS VOICE SETUP WITH 10 MS EDCH TTI

ALLO_10MS_EDCH_CSVOICE _SETUP

1002: Traffic

SRB ON HSPA ALLO FOR CS VOICE SETUP WITH 2 MS EDCH TTI

ALLO_2MS_EDCH_CSVOICE_ SETUP

1002: Traffic

TIME IN CELL_DCH STATE WITHOUT USER PLANE RESOURCES FOR RABS

TIME_IN_CELL_DCH_WO_UP _RES

1002: Traffic

DENOMINATOR FOR TIME IN CELL_DCH STATE WITHOUT USER PLANE RESOURCES FOR RABS

D_TIME_IN_CELL_DCH_WO_ UP_RES

1002: Traffic

AMR + MULTI-NRT HSPA ALLOCATION IN DRNC

ALLO_AMR_MULTI_NRT_HSP A_DRNC

1002: Traffic

MULTI-NRT HSPA ALLOCATION IN DRNC

ALLO_MULTI_NRT_HSPA_DR NC

1003: L3 signalling at Iu

SIGN CONN SETUP

sign_conn_setup

1003: L3 signalling at Iu

SIGN CONN REL BY CN

sign_conn_rel_by_cn

1003: L3 signalling at Iu

SIGN CONN REL REQ DUE TO sign_conn_rel_req_rnl RN LAYER CAUSE

1003: L3 signalling at Iu

SIGN CONN REL REQ DUE TO sign_conn_rel_req_trl TR LAYER CAUSE

1003: L3 signalling at Iu

SIGN CONN REL REQ DUE TO sign_conn_rel_req_nas NAS CAUSE

1003: L3 signalling at Iu

SIGN CONN REL REQ DUE TO sign_conn_rel_req_prot PROT CAUSE

1003: L3 signalling at Iu

SIGN CONN REL REQ DUE TO sign_conn_rel_req_misc MISC CAUSE

1003: L3 signalling at Iu

SIGN CONN REL REQ DUE TO sign_conn_rel_req_non_st NON STAN CAUSE

1003: L3 signalling at Iu

RAB ASS REQ BY CN

rab_ass_req_by_cn

1003: L3 signalling at Iu

RAB RECONF REQ BY CN

rab_rec_req_by_cn

1003: L3 signalling at Iu

RAB REL REQ BY CN

rab_rel_req_by_cn

1003: L3 signalling at Iu

RAB ASS SUCC

rab_ass_succ

1003: L3 signalling at Iu

RAB RECONF SUCC

rab_reconf_succ

1003: L3 signalling at Iu

RAB ASS NONSUCC DUE TO RN LAYER CAUSE

rab_ass_nonsucc_rnl

1003: L3 signalling at Iu

RAB ASS NONSUCC DUE TO TR LAYER CAUSE

rab_ass_nonsucc_trl

1003: L3 signalling at Iu

RAB ASS NONSUCC DUE TO NAS CAUSE

rab_ass_nonsucc_nas

1003: L3 signalling at Iu

RAB ASS NONSUCC DUE TO PROT CAUSE

rab_ass_nonsucc_prot

1003: L3 signalling at Iu

RAB ASS NONSUCC DUE TO MISC CAUSE

rab_ass_nonsucc_misc

1003: L3 signalling at Iu

RAB ASS NONSUCC DUE TO NON STAN CAUSE

rab_ass_nonsucc_non_st

1003: L3 signalling at Iu

NBR OF NRT RAB ASS NONSUCC DUE TO ANCH

rab_ass_nonsucc_anch

1003: L3 signalling at Iu

RAB RECONF NONSUCC DUE TO RN LAYER CAUSE

rab_rec_nonsucc_rnl

1003: L3 signalling at Iu

RAB RECONF NONSUCC DUE TO TR LAYER CAUSE

rab_rec_nonsucc_trl

1003: L3 signalling at Iu

RAB RECONF NONSUCC DUE TO NAS CAUSE

rab_rec_nonsucc_nas

1003: L3 signalling at Iu

RAB RECONF NONSUCC DUE TO PROT CAUSE

rab_rec_nonsucc_prot

1003: L3 signalling at Iu

RAB RECONF NONSUCC DUE TO MISC CAUSE

rab_rec_nonsucc_misc

1003: L3 signalling at Iu

RAB RECONF NONSUCC DUE TO NON STAN CAUSE

rab_rec_nonsucc_non_st

1003: L3 signalling at Iu

RAB REL SUCC

rab_rel_succ

1003: L3 signalling at Iu

RAB REL NONSUCC

rab_rel_nonsucc

1003: L3 signalling at Iu

RAB REL REQ BY RNC

rab_rel_req_by_rnc

1003: L3 signalling at Iu

RAB REL REQ BY RNC DUE TO rab_rel_req_rnl RN LAYER CAUSE

1003: L3 signalling at Iu

RAB REL REQ DUE TO TR LAYER CAUSE

rab_rel_req_trl

1003: L3 signalling at Iu

RAB REL REQ DUE TO NAS CAUSE

rab_rel_req_nas

1003: L3 signalling at Iu

RAB REL REQ DUE TO PROT CAUSE

rab_rel_req_prot

1003: L3 signalling at Iu

RAB REL REQ DUE TO MISC CAUSE

rab_rel_req_misc

1003: L3 signalling at Iu

RAB REL REQ DUE TO NON STAN CAUSE

rab_rel_req_non_st

1003: L3 signalling at Iu

RAB REL REQ BY RNC DUE TO rab_rel_req_by_rnc_anch ANCH

1003: L3 signalling at Iu

REC PAG MSG

1003: L3 signalling at Iu

NBR OF REC LOC REP CONTR nbr_of_rec_loc_rep_contr

1003: L3 signalling at Iu

NBR OF SENT LOC REP

nbr_of_sent_loc_rep

1003: L3 signalling at Iu

NBR OF SENT OVER CONT

nbr_of_sent_over_cont

1003: L3 signalling at Iu

NBR OF REC OVER CONT

nbr_of_rec_over_cont

1003: L3 signalling at Iu

NBR OF SENT RESET

nbr_of_sent_reset

rec_pag_msg

1003: L3 signalling at Iu

NBR OF REC RESET

nbr_of_rec_reset

1003: L3 signalling at Iu

NBR OF SENT RESET ACK

nbr_of_sent_reset_ack

1003: L3 signalling at Iu

NBR OF REC RESET ACK

nbr_of_rec_reset_ack

1003: L3 signalling at Iu

NBR OF SENT ERROR IND

nbr_of_sent_error_ind

1003: L3 signalling at Iu

NBR OF REC ERROR IND

nbr_of_rec_error_ind

1003: L3 signalling at Iu

NBR OF DELETED PAGING MESSAGES DUE TO ICSU OVERLOAD

DEL_PAG_MSG_ICSU_OVERL OAD

1003: L3 signalling at Iu

NBR OF DELETED PAGING MESSAGES DUE TO RRMU OVERLOAD

DEL_PAG_MSG_RRMU_OVER LOAD

1003: L3 signalling at Iu

CN INVOKE TRACE MESSAGES

CN_INVOKE_TRACE

1003: L3 signalling at Iu

SIGNALING CONNECTION RELEASE RESPONSE

SIGN_CONN_RELEASE_RESP ONSE

1003: L3 signalling at Iu

IU AVAILABILITY

IU_AVAILABILITY

1003: L3 signalling at Iu

IU AVAILABILITY DENOM

IU_AVAILABILITY_DENOM

1003: L3 signalling at Iu

IU NOT WORKING DURATION

IU_NOT_WORKING_DURATIO N

1003: L3 signalling at Iu

IU TO WO STATE CHANGES

IU_TO_WO_STATE_CHANGE S

1003: L3 signalling at Iu

RECEIVED LOCATION RELATED DATA REQUEST

REC_LOC_REL_DATA_REQU EST

1003: L3 signalling at Iu

SENT LOCATION RELATED DATA RESPONSE

SENT_LOC_REL_DATA_RESP ONSE

1003: L3 signalling at Iu

SENT LOCATION RELATED DATA FAILURE

SENT_LOC_REL_DATA_FAIL

1003: L3 signalling at Iu

SECURITY MODE COMMAND RECEIVED

SECURITY_MODE_COMMAND

1003: L3 signalling at Iu

SECURITY MODE COMPLETE SENT

SECURITY_MODE_COMPLET E

1003: L3 signalling at Iu

SECURITY MODE REJECT SENT

SECURITY_MODE_REJECT

1003: L3 signalling at Iu

ATTACH REQUEST REJECTED ATTACH_REJ_CN_PLMN_N_A BY CN DUE TO PLMN NOT LL ALLOWED

1003: L3 signalling at Iu

ATTACH REQUEST REJECTED ATTACH_REJ_CN_LA_N_ALL BY CN DUE TO LA NOT ALLOWED

1003: L3 signalling at Iu

ATTACH REQUEST REJECTED ATTACH_REJ_CN_ROAM_N_ BY CN DUE TO ROAMING NOT ALL ALLOWED

1003: L3 signalling at Iu

ATTACH REQUEST REJECTED ATTACH_REJ_CN_GPRS_N_A BY CN DUE TO GPRS NOT LL ALLOWED

1003: L3 signalling at Iu

ATTACH REQUEST REJECTED ATTACH_REJ_CN_NO_SUIT_ BY CN DUE TO NO SUITABLE CELL CELLS IN LA

1003: L3 signalling at Iu

ATTACH REQUEST REJECTED ATTACH_REJ_CN_NW_FAIL BY CN DUE TO NETWORK FAILURE

1003: L3 signalling at Iu

ATTACH REQUEST REJECTED ATTACH_REJ_BY_CN_COOR BY CN DUE TO D COORDINATION

1003: L3 signalling at Iu

ATTACH REQUEST REJECTED ATTCH_REJ_BY_CN_NO_RED BY CN WITHOUT IR REDIRECTION INDICATION

1003: L3 signalling at Iu

ATTACH REQUEST REJECTED ATTACH_REJ_RNC_PLMN_N_ BY RNC DUE TO PLMN NOT ALL ALLOWED

1003: L3 signalling at Iu

ATTACH REQUEST REJECTED ATTACH_REJ_RNC_LA_N_AL BY RNC DUE TO LA NOT L ALLOWED

1003: L3 signalling at Iu

ATTACH REQUEST REJECTED ATTACH_REJ_RNC_ROAM_N BY RNC DUE TO ROAMING _ALL NOT ALLOWED

1003: L3 signalling at Iu

ATTACH REQUEST REJECTED ATTACH_REJ_RNC_GPRS_N_ BY RNC DUE TO GPRS NOT ALL ALLOWED

1003: L3 signalling at Iu

ATTACH REQUEST REJECTED ATTACH_REJ_RNC_NO_SUIT BY RNC DUE TO NO SUITABLE _CELL CELLS IN LA

1003: L3 signalling at Iu

ATTACH REQUEST REJECTED ATTACH_REJ_RNC_NW_FAIL BY RNC DUE TO NETWORK FAILURE

1003: L3 signalling at Iu

ATTACH REQUEST REJECTED ATTACH_REJ_RNC_OTHER BY RNC DUE TO OTHER ERRORS

1003: L3 signalling at Iu

INITIAL UE MESSAGE WITH REDIRECT FLAG

INIT_UE_MSG_WITH_REDIRE CT

1003: L3 signalling at Iu

IU IMSI REQUESTS

IU_IMSI_REQUESTS

1003: L3 signalling at Iu

IU CONNECTION ROUTED ON NRI

IU_CONN_ROUTED_NRI

1003: L3 signalling at Iu

IU CONNECTION ROUTED ON IMSI

IU_CONN_ROUTED_IMSI

1003: L3 signalling at Iu

IU CONNECTION ROUTED ON IUO

IU_CONN_ROUTED_IUO

1003: L3 signalling at Iu

IU REDIRECTION COMPLETED IU_REDIRECT_COMPLETED

1003: L3 signalling at Iu

RECEIVED DIRECT TRANSFER REC_DIR_TRANS_WITH_REDI WITH REDIRECTION R_IND INDICATION

1003: L3 signalling at Iu

SECURITY MODE COMPLETE AVS

SECURITY_MODE_COMPLET E_AVS

1003: L3 signalling at Iu

SECURITY MODE FAILURE

SECURITY_MODE_FAIL

1004: L3 signalling at Iur

RL SETUP REQ FOR INTER RNC SHO ON SRNC

setup_req_sho_on_srnc

1004: L3 signalling at Iur

RL SETUP REQ FOR INTER RNC SHO ON DRNC

setup_req_sho_on_drnc

1004: L3 signalling at Iur

RL SETUP SUCC FOR INTER RNC SHO ON SRNC

setup_succ_sho_srnc

1004: L3 signalling at Iur

RL SETUP SUCC FOR INTER RNC SHO ON DRNC

setup_succ_sho_on_drnc

1004: L3 signalling at Iur

RL SETUP FAIL FOR INTER RNC SHO ON SRNC DUE TO RN LAYER CAUSE

setup_fail_sho_srnc_due_rnl

1004: L3 signalling at Iur

RL SETUP FAIL FOR INTER RNC SHO ON SRNC DUE TO TR LAYER CAUSE

setup_fail_sho_srnc_due_trl

1004: L3 signalling at Iur

RL SETUP FAIL FOR INTER RNC SHO ON SRNC DUE TO PROT CAUSE

setup_fail_sho_srnc_due_prot

1004: L3 signalling at Iur

RL SETUP FAIL FOR INTER RNC SHO ON SRNC DUE TO MISC CAUSE

setup_fail_sho_srnc_due_misc

1004: L3 signalling at Iur

RL SETUP FAIL FOR INTER RNC SHO ON DRNC DUE TO RN LAYER CAUSE

setup_fail_sho_drnc_due_rnl

1004: L3 signalling at Iur

RL SETUP FAIL FOR INTER RNC SHO ON DRNC DUE TO TR LAYER CAUSE

setup_fail_sho_drnc_due_trl

1004: L3 signalling at Iur

RL SETUP FAIL FOR INTER RNC SHO ON DRNC DUE TO PROT CAUSE

setup_fail_sho_drnc_due_prot

1004: L3 signalling at Iur

RL SETUP FAIL FOR INTER RNC SHO ON DRNC DUE TO MISC CAUSE

setup_fail_sho_drnc_due_misc

1004: L3 signalling at Iur

RL ADD REQ FOR INTER RNC SHO ON SRNC

add_req_sho_srnc

1004: L3 signalling at Iur

RL ADD REQ FOR INTER RNC SHO ON DRNC

add_req_sho_drnc

1004: L3 signalling at Iur

RL ADD SUCC FOR INTER RNC add_succ_sho_srnc SHO ON SRNC

1004: L3 signalling at Iur

RL ADD SUCC FOR INTER RNC add_succ_sho_drnc SHO ON DRNC

1004: L3 signalling at Iur

RL ADD FAIL FOR INTER RNC SHO ON SRNC DUE TO RN LAYER CAUSE

add_fail_sho_srnc_rnl

1004: L3 signalling at Iur

RL ADD FAIL FOR INTER RNC SHO ON SRNC DUE TO TR LAYER CAUSE

add_fail_sho_srnc_trl

1004: L3 signalling at Iur

RL ADD FAIL FOR INTER RNC SHO ON SRNC DUE TO PROT CAUSE

add_fail_sho_srnc_prot

1004: L3 signalling at Iur

RL ADD FAIL FOR INTER RNC SHO ON SRNC DUE TO MISC CAUSE

add_fail_sho_srnc_misc

1004: L3 signalling at Iur

RL ADD FAIL FOR INTER RNC SHO ON DRNC DUE TO RN LAYER CAUSE

add_fail_sho_drnc_rnl

1004: L3 signalling at Iur

RL ADD FAIL FOR INTER RNC SHO ON DRNC DUE TO TR CAUSE

add_fail_sho_drnc_trl

1004: L3 signalling at Iur

RL ADD FAIL FOR INTER RNC SHO ON DRNC DUE TO PROT CAUSE

add_fail_sho_drnc_prot

1004: L3 signalling at Iur

RL ADD FAIL FOR INTER RNC SHO ON DRNC DUE TO MISC CAUSE

add_fail_sho_drnc_misc

1004: L3 signalling at Iur

RL FAIL FOR INTER RNC SHO ON SRNC DUE TO SYN FAIL

fail_rl_add_srnc_rl_syn_fail

1004: L3 signalling at Iur

RL FAIL FOR INTER RNC SHO ON SRNC DUE TO RN LAYER CAUSE

fail_rl_add_srnc_rnl

1004: L3 signalling at Iur

RL FAIL FOR INTER RNC SHO ON SRNC DUE TO TR CAUSE

fail_rl_add_srnc_trl

1004: L3 signalling at Iur

RL FAIL FOR INTER RNC SHO ON SRNC DUE TO PROT CAUSE

fail_rl_add_srnc_prot

1004: L3 signalling at Iur

RL FAIL FOR INTER RNC SHO ON SRNC DUE TO MISC CAUSE

fail_rl_add_srnc_misc

1004: L3 signalling at Iur

RL FAIL FOR INTER RNC SHO ON DRNC DUE TO SYN FAIL

fail_rl_add_drnc_rl_syn_fail

1004: L3 signalling at Iur

RL FAIL FOR INTER RNC SHO ON DRNC DUE TO RN LAYER CAUSE

fail_rl_add_drnc_rnl

1004: L3 signalling at Iur

RL FAIL FOR INTER RNC SHO ON DRNC DUE TO TR CAUSE

fail_rl_add_drnc_trl

1004: L3 signalling at Iur

RL FAIL FOR INTER RNC SHO ON DRNC DUE TO PROT CAUSE

fail_rl_add_drnc_prot

1004: L3 signalling at Iur

RL FAIL FOR INTER RNC SHO ON DRNC DUE TO MISC CAUSE

fail_rl_add_drnc_misc

1004: L3 signalling at Iur

RL DEL FOR INTER RNC SHO ON SRNC

rl_del_sho_srnc

1004: L3 signalling at Iur

RL DEL RESP FOR INTER RNC rl_del_resp_sho_rnc_srnc SHO ON SRNC

1004: L3 signalling at Iur

RL DEL FOR INTER RNC SHO ON DRNC

1004: L3 signalling at Iur

RL DEL RESP FOR INTER RNC rl_del_resp_sho_drnc SHO ON DRNC

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH ADD ON SRNC

reconf_iur_add_srnc

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH MOD ON SRNC

reconf_iur_mod_srnc

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH DEL ON SRNC

reconf_iur_del_srnc

rl_del_sho_drnc

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH ADD ON DRNC

reconf_iur_add_drnc

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH MOD ON DRNC

reconf_iur_mod_drnc

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH DEL ON DRNC

reconf_iur_del_drnc

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH ADD ON SRNC READY

reconf_iur_add_srnc_ready

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH MOD ON SRNC READY

reconf_iur_mod_srnc_ready

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH DEL ON SRNC READY

reconf_iur_del_srnc_ready

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH ADD ON DRNC READY

reconf_iur_add_drnc_ready

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH MOD ON DRNC READY

reconf_iur_mod_drnc_ready

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH DEL ON DRNC READY

reconf_iur_del_drnc_ready

1004: L3 signalling at Iur

RL RECONF PREP SYNCH rec_add_fail_srnc_rnl OVER IUR FOR DCH ADD FAIL ON SRNC DUE TO RN LAYER CAUSE

1004: L3 signalling at Iur

RL RECONF PREP SYNCH rec_add_fail_srnc_trl OVER IUR FOR DCH ADD FAIL ON SRNC DUE TO TR CAUSE

1004: L3 signalling at Iur

RL RECONF PREP SYNCH rec_add_fail_srnc_prot OVER IUR FOR DCH ADD FAIL ON SRNC DUE TO PROT CAUSE

1004: L3 signalling at Iur

RL RECONF PREP SYNCH rec_add_fail_srnc_misc OVER IUR FOR DCH ADD FAIL ON SRNC DUE TO MISC CAUSE

1004: L3 signalling at Iur

RL RECONF PREP SYNCH rec_mod_fail_srnc_rnl OVER IUR FOR DCH MOD FAIL ON SRNC DUE TO RN LAYER CAUSE

1004: L3 signalling at Iur

RL RECONF PREP SYNCH rec_mod_fail_srnc_trl OVER IUR FOR DCH MOD FAIL ON SRNC DUE TO TR CAUSE

1004: L3 signalling at Iur

RL RECONF PREP SYNCH rec_mod_fail_srnc_prot OVER IUR FOR DCH MOD FAIL ON SRNC DUE TO PROT CAUSE

1004: L3 signalling at Iur

RL RECONF PREP SYNCH rec_mod_fail_srnc_misc OVER IUR FOR DCH MOD FAIL ON SRNC DUE TO MISC CAUSE

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH DEL FAIL ON SRNC DUE TO RN LAYER CAUSE

rec_del_fail_srnc_rnl

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH DEL FAIL ON SRNC DUE TO TR CAUSE

rec_del_fail_srnc_trl

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH DEL FAIL ON SRNC DUE TO PROT CAUSE

rec_del_fail_srnc_prot

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH DEL FAIL ON SRNC DUE TO MISC CAUSE

rec_del_fail_srnc_misc

1004: L3 signalling at Iur

RL RECONF PREP SYNCH rec_add_fail_drnc_rnl OVER IUR FOR DCH ADD FAIL ON DRNC DUE TO RN LAYER CAUSE

1004: L3 signalling at Iur

RL RECONF PREP SYNCH rec_add_fail_drnc_trl OVER IUR FOR DCH ADD FAIL ON DRNC DUE TO TR CAUSE

1004: L3 signalling at Iur

RL RECONF PREP SYNCH rec_add_fail_drnc_prot OVER IUR FOR DCH ADD FAIL ON DRNC DUE TO PROT CAUSE

1004: L3 signalling at Iur

RL RECONF PREP SYNCH rec_add_fail_drnc_misc OVER IUR FOR DCH ADD FAIL ON DRNC DUE TO MISC CAUSE

1004: L3 signalling at Iur

RL RECONF PREP SYNCH rec_mod_fail_drnc_rnl OVER IUR FOR DCH MOD FAIL ON DRNC DUE TO RN LAYER CAUSE

1004: L3 signalling at Iur

RL RECONF PREP SYNCH rec_mod_fail_drnc_trl OVER IUR FOR DCH MOD FAIL ON DRNC DUE TO TR CAUSE

1004: L3 signalling at Iur

RL RECONF PREP SYNCH rec_mod_fail_drnc_prot OVER IUR FOR DCH MOD FAIL ON DRNC DUE TO PROT CAUSE

1004: L3 signalling at Iur

RL RECONF PREP SYNCH rec_mod_fail_drnc_misc OVER IUR FOR DCH MOD FAIL ON DRNC DUE TO MISC CAUSE

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH DEL FAIL ON DRNC DUE TO RN LAYER CAUSE

rec_del_fail_drnc_rnl

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH DEL FAIL ON DRNC DUE TO TR CAUSE

rec_del_fail_drnc_trl

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH DEL FAIL ON DRNC DUE TO PROT CAUSE

rec_del_fail_drnc_prot

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FOR DCH DEL FAIL ON DRNC DUE TO MISC CAUSE

rec_del_fail_drnc_misc

1004: L3 signalling at Iur

RL RECONF COMM SYNCH ON rec_comm_srnc_over_iur SRNC OVER IUR

1004: L3 signalling at Iur

RL RECONF COMM SYNCH ON rec_comm_drnc_over_iur DRNC OVER IUR

1004: L3 signalling at Iur

RL RECONF CANC SYNCH ON rec_canc_srnc_over_iur SRNC OVER IUR

1004: L3 signalling at Iur

RL RECONF CANC SYNCH ON rec_canc_drnc_over_iur DRNC OVER IUR

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR ON SRNC

rec_prep_srnc_over_iur

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR ON DRNC

rec_prep_drnc_over_iur

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR ON SRNC READY

rec_prep_srnc_over_iur_rdy

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR ON DRNC READY

rec_prep_drnc_over_iur_rdy

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FAIL ON SRNC

rec_prep_srnc_over_iur_fail

1004: L3 signalling at Iur

RL RECONF PREP SYNCH OVER IUR FAIL ON DRNC

rec_prep_drnc_over_iur_fail

1004: L3 signalling at Iur

NBR OF SENT COMP MODE CMDS ON SRNC

sent_cmp_cmds_srnc

1004: L3 signalling at Iur

NBR OF REC COMP MODE CMDS ON DRNC

rec_cmp_cmds_drnc

1004: L3 signalling at Iur

NBR OF SENT DED MEA INI ON SRNC

sent_ded_mea_ini_srnc

1004: L3 signalling at Iur

NBR OF REC DED MEA RES ON SRNC

rec_ded_mea_res_srnc

1004: L3 signalling at Iur

NBR OF REC DED MEA FAIL ON SRNC

rec_ded_mea_fail_srnc

1004: L3 signalling at Iur

NBR OF REC DED MEA INI ON REC_DED_MEA_INI_DRNC DRNC

1004: L3 signalling at Iur

NBR OF SENT DED MEA RES ON DRNC

sent_ded_mea_res_drnc

1004: L3 signalling at Iur

NBR OF SENT DED MEA FAIL ON DRNC

sent_ded_mea_fail_drnc

1004: L3 signalling at Iur

NBR OF REC DED MEA REP ON SRNC

rec_ded_mea_ini_srnc

1004: L3 signalling at Iur

NBR OF SENT DED MEA REP ON DRNC

sent_ded_mea_rep_drnc

1004: L3 signalling at Iur

NBR OF SENT DED MEA TER REQ ON SRNC

sent_ded_mea_ter_req_srnc

1004: L3 signalling at Iur

NBR OF REC DED MEA TER REQ ON DRNC

rec_ded_mea_ter_req_drnc

1004: L3 signalling at Iur

NBR OF REC DED MEA FAIL IND ON SRNC

rec_ded_mea_fail_ind_srnc

1004: L3 signalling at Iur

NBR OF SENT DED MEA FAIL IND ON DRNC

sent_ded_mea_fail_ind_drnc

1004: L3 signalling at Iur

NBR OF REC RL PRE EMP REQ IND ON SRNC

rec_rl_pre_req_ind_srnc

1004: L3 signalling at Iur

NBR OF SENT RL PRE EMP REQ IND ON DRNC

rec_rl_pre_req_ind_drnc

1004: L3 signalling at Iur

NBR OF REC RL RES IND ON SRNC

rec_rl_res_ind_srnc

1004: L3 signalling at Iur

NBR OF SENT RES IND ON DRNC

sent_res_ind_drnc

1004: L3 signalling at Iur

NBR OF REC PHY CHA RECONF REQ ON SRNC

rec_phy_cha_rec_req_srnc

1004: L3 signalling at Iur

NBR OF SENT PHY CHA RECONF COM ON SRNC

sent_phy_cha_rec_com_srnc

1004: L3 signalling at Iur

NBR OF SENT PHY CHA RECONF REQ ON DRNC

sent_phy_cha_rec_req_drnc

1004: L3 signalling at Iur

NBR OF REC PHY CHA RECONF COM ON DRNC

rec_phy_cha_rec_com_drnc

1004: L3 signalling at Iur

NBR OF SENT ERROR IND ON sent_error_ind_iur IUR

1004: L3 signalling at Iur

NBR OF REC ERROR IND ON IUR

1004: L3 signalling at Iur

ALL IUR DL POWER CONTROL DL_PWR_CTRL_IUR_ALL_SR MESSAGES IN SRNC NC

1004: L3 signalling at Iur

IUR DL POWER CONTROL MESSAGES FOR POWER UPDATE IN SRNC

1004: L3 signalling at Iur

ALL IUR DL POWER CONTROL DL_PWR_CTRL_IUR_ALL_DR MESSAGES IN DRNC NC

1004: L3 signalling at Iur

IUR DL POWER CONTROL MESSAGES FOR POWER UPDATE IN DRNC

DL_PWR_CTRL_IUR_PWR_UP D_DRNC

1004: L3 signalling at Iur

RL DEL FOR INTER RNC SHO ON SRNC DUE TO HANGING RESOURCE

RL_DEL_SHO_SRNC_HANG_ RES

rec_error_ind_iur

DL_PWR_CTRL_IUR_PWR_UP D_SRNC

1004: L3 signalling at Iur

COMMON MEAS INIT REQUEST IUR ON SRNC

COMMON_MEAS_INI_REQ_IU R_SRNC

1004: L3 signalling at Iur

COMMON MEAS INIT REQUEST IUR ON DRNC

COMMON_MEAS_INI_REQ_IU R_DRNC

1004: L3 signalling at Iur

COMMON MEAS INIT RESPONSE IUR ON SRNC

COMMON_MEAS_INI_RES_IU R_SRNC

1004: L3 signalling at Iur

COMMON MEAS INIT RESPONSE IUR ON DRNC

COMMON_MEAS_INI_RES_IU R_DRNC

1004: L3 signalling at Iur

COMMON MEAS INIT FAILURES OVER IUR ON SRNC DUE RN LAYER

COMM_MEAS_INI_FAIL_SRNC _RNL

1004: L3 signalling at Iur

COMMON MEAS INIT FAILURES OVER IUR ON SRNC DUE TR LAYER

COMM_MEAS_INI_FAIL_SRNC _TRL

1004: L3 signalling at Iur

COMMON MEAS INIT FAILURES OVER IUR ON SRNC DUE PROT

COMM_MEAS_INI_FAIL_SRNC _PROT

1004: L3 signalling at Iur

COMMON MEAS INIT FAILURES OVER IUR ON SRNC DUE MISC

COMM_MEAS_INI_FAIL_SRNC _MISC

1004: L3 signalling at Iur

COMMON MEAS INIT FAILURES OVER IUR ON DRNC DUE RN LAYER

COMM_MEAS_INI_FAIL_DRN C_RNL

1004: L3 signalling at Iur

COMMON MEAS INIT FAILURES OVER IUR ON DRNC DUE TR LAYER

COMM_MEAS_INI_FAIL_DRN C_TRL

1004: L3 signalling at Iur

COMMON MEAS INIT FAILURES OVER IUR ON DRNC DUE PROT

COMM_MEAS_INI_FAIL_DRN C_PROT

1004: L3 signalling at Iur

COMMON MEAS INIT FAILURES OVER IUR ON DRNC DUE MISC

COMM_MEAS_INI_FAIL_DRN C_MISC

1004: L3 signalling at Iur

COMMON MEAS REPORTS OVER IUR ON SRNC

COMM_MEAS_REPORT_IUR_ SRNC

1004: L3 signalling at Iur

COMMON MEAS REPORTS OVER IUR ON DRNC

COMM_MEAS_REPORT_IUR_ DRNC

1004: L3 signalling at Iur

COMMON MEAS COMM_MEAS_TERM_IUR_SR TERMINATIONS OVER IUR ON NC SRNC

1004: L3 signalling at Iur

COMMON MEAS COMM_MEAS_TERM_IUR_DR TERMINATIONS OVER IUR ON NC DRNC

1004: L3 signalling at Iur

COMMON MEAS FAILURE INDICATION OVER IUR ON SRNC DUE RN LAYER

COMM_MEAS_FAIL_IND_SRN C_RNL

1004: L3 signalling at Iur

COMMON MEAS FAILURE INDICATION OVER IUR ON SRNC DUE TR LAYER

COMM_MEAS_FAIL_IND_SRN C_TRL

1004: L3 signalling at Iur

COMMON MEAS FAILURE INDICATION OVER IUR ON SRNC DUE PROT

COMM_MEAS_FAIL_IND_SRN C_PROT

1004: L3 signalling at Iur

COMMON MEAS FAILURE INDICATION OVER IUR ON SRNC DUE MISC

COMM_MEAS_FAIL_IND_SRN C_MISC

1004: L3 signalling at Iur

COMMON MEAS FAILURE INDICATION OVER IUR ON DRNC DUE RN LAYER

COMM_MEAS_FAIL_IND_DRN C_RNL

1004: L3 signalling at Iur

COMMON MEAS FAILURE INDICATION OVER IUR ON DRNC DUE TR LAYER

COMM_MEAS_FAIL_IND_DRN C_TRL

1004: L3 signalling at Iur

COMMON MEAS FAILURE INDICATION OVER IUR ON DRNC DUE PROT

COMM_MEAS_FAIL_IND_DRN C_PROT

1004: L3 signalling at Iur

COMMON MEAS FAILURE INDICATION OVER IUR ON DRNC DUE MISC

COMM_MEAS_FAIL_IND_DRN C_MISC

1004: L3 signalling at Iur

RL RECONF REQ UNSYNCH OVER IUR ON DRNC

REC_REQ_UNS_DRNC_OVER _IUR

1004: L3 signalling at Iur

RL RECONF RESP UNSYNCH OVER IUR ON DRNC

REC_RESP_UNS_IUR_DRNC

1004: L3 signalling at Iur

RL RECONF REQ UNSYNCH REC_RE_UN_IUR_FAIL_DRNC OVER IUR FAIL ON DRNC DUE _RNL TO RN LAYER CAUSE

1004: L3 signalling at Iur

RL RECONF REQ UNSYNCH REC_RE_UN_IUR_FAIL_DRNC OVER IUR FAIL ON DRNC DUE _TR TO TR CAUSE

1004: L3 signalling at Iur

RL RECONF REQ UNSYNCH REC_RE_UN_IUR_FAIL_DRNC OVER IUR FAIL ON DRNC DUE _PROT TO PROT CAUSE

1004: L3 signalling at Iur

RL RECONF REQ UNSYNCH REC_RE_UN_IUR_FAIL_DRNC OVER IUR FAIL ON DRNC DUE _MISC TO MISC CAUSE

1004: L3 signalling at Iur

IUR AVAILABILITY

IUR_AVAILABILITY

1004: L3 signalling at Iur

IUR AVAILABILITY DENOM

IUR_AVAILABILITY_DENOM

1004: L3 signalling at Iur

IUR NOT WORKING DURATION IUR_NOT_WORKING_DURATI ON

1004: L3 signalling at Iur

IUR TO WO STATE CHANGES

IUR_TO_WO_STATE_CHANG ES

1004: L3 signalling at Iur

TRANSFERRED DATA FOR AMR IN UL FROM DRNC

AMR_DATA_FROM_DRNC

1004: L3 signalling at Iur

TRANSFERRED DATA FOR AMR IN DL TO DRNC

AMR_DATA_TO_DRNC

1004: L3 signalling at Iur

TRANSFERRED DATA FOR INTERACTIVE IN UL FROM DRNC

INTERA_DATA_FROM_DRNC

1004: L3 signalling at Iur

TRANSFERRED DATA FOR INTERACTIVE IN DL TO DRNC

INTERA_DATA_TO_DRNC

1004: L3 signalling at Iur

TRANSFERRED DATA FOR BACKGROUND IN UL FROM DRNC

BGR_DATA_FROM_DRNC

1004: L3 signalling at Iur

TRANSFERRED DATA FOR BGR_DATA_TO_DRNC BACKGROUND IN DL TO DRNC

1004: L3 signalling at Iur

TRANSFERRED DATA FOR CS CS_CONV_DATA_FROM_DRN CONVERSATIONAL IN UL C FROM DRNC

1004: L3 signalling at Iur

TRANSFERRED DATA FOR CS CS_CONV_DATA_TO_DRNC CONVERSATIONAL IN DL TO DRNC

1004: L3 signalling at Iur

TRANSFERRED DATA FOR CS CS_STREA_DATA_FROM_DR STREAMING IN UL FROM NC DRNC

1004: L3 signalling at Iur

TRANSFERRED DATA FOR PS PS_STREA_DATA_FROM_DR STREAMING IN UL FROM NC DRNC

1004: L3 signalling at Iur

TRANSFERRED DATA FOR CS CS_STREA_DATA_TO_DRNC STREAMING IN DL TO DRNC

1004: L3 signalling at Iur

TRANSFERRED DATA FOR PS PS_STREA_DATA_TO_DRNC STREAMING IN DL TO DRNC

1004: L3 signalling at Iur

TRANSFERRED DATA FOR PS PS_STR_DCH_UL_DATA_FRO STREAMING DCH IN UL M_DRNC

1004: L3 signalling at Iur

TRANSFERRED DATA FOR PS PS_STR_DCH_DL_DATA_TO_ STREAMING DCH IN DL DRNC

1004: L3 signalling at Iur

TRANSFERRED DATA FOR NRT INTERACTIVE DCH IN UL

INTERA_DCH_UL_DATA_FRO M_DRNC

1004: L3 signalling at Iur

TRANSFERRED DATA FOR NRT INTERACTIVE DCH IN DL

INTERA_DCH_DL_DATA_TO_ DRNC

1004: L3 signalling at Iur

TRANSFERRED DATA FOR BGR_DCH_UL_DATA_FROM_ NRT BACKGROUND DCH IN UL DRNC

1004: L3 signalling at Iur

TRANSFERRED DATA FOR BGR_DCH_DL_DATA_TO_DR NRT BACKGROUND DCH IN DL NC

1004: L3 signalling at Iur

NRT DCH SETUP FAIL DUE TO FAIL_NRT_DCH_SETUP_IUR IUR

1004: L3 signalling at Iur

NRT DCH UL RECONFIG FAIL FOR NRT RB DUE TO IUR

FAIL_NRT_DCH_UL_RECONF _IUR

1004: L3 signalling at Iur

NRT DCH DL RECONFIG FAIL FOR NRT RB DUE TO IUR

FAIL_NRT_DCH_DL_RECONF _IUR

1004: L3 signalling at Iur

SHO BRANCH SETUP FAIL DUE TO IUR

FAIL_SHO_BRANCH_SETUP_I UR

1004: L3 signalling at Iur

TRANSFERRED DATA FOR NRT HSDPA RETURN CHANNEL FROM DRNC

NRT_HSDPA_UL_DATA_FRO M_DRNC

1004: L3 signalling at Iur

TRANSFERRED DATA FOR RT RT_HSDPA_UL_DATA_FROM_ HSDPA RETURN CHANNEL DRNC FROM DRNC

1004: L3 signalling at Iur

HS-DSCH MAC-D FLOW ALLOCATION ATTEMPTS OVER IUR ON SRNC

1004: L3 signalling at Iur

HS-DSCH MAC-D FLOW SUCC_HSDSCH_OVER_IUR_ ALLOCATION SUCCESS OVER ON_SRNC IUR ON SRNC

ATT_HSDSCH_OVER_IUR_ON _SRNC

1004: L3 signalling at Iur

AMR CODEC SET (12.2, 7.4, 5.9, 4.75) IUR FAIL

AMR_122_74_59_475_IUR_FAI L

1004: L3 signalling at Iur

SUCCESSFUL HS-DSCH FLEXIBLE RLC ALLOCATION OVER IUR

SUCC_HS_FRLC_DL_OVER_I UR

1004: L3 signalling at Iur

FAILED HS-DSCH FLEXIBLE RLC ALLOCATION OVER IUR

FAIL_HS_FRLC_DL_OVER_IU R

1004: L3 signalling at Iur

SUCCESSFUL DC-HSDPA ALLOCATION OVER IUR

SUCC_DCHSDPA_OVER_IUR

1004: L3 signalling at Iur

FAILED DC-HSDPA ALLOCATION OVER IUR

FAIL_DCHSDPA_OVER_IUR

1004: L3 signalling at Iur

SUCCESSFUL HSDPA 64QAM ALLOCATION OVER IUR

SUCC_HSDPA_64QAM_OVER _IUR

1004: L3 signalling at Iur

FAILED HSDPA 64QAM ALLOCATION OVER IUR

FAIL_HSDPA_64QAM_OVER_I UR

1004: L3 signalling at Iur

SENT RL CONGESTION INDICATION ON DRNC

SENT_RL_CONG_IND_DRNC

1004: L3 signalling at Iur

RECEIVED RL CONGESTION INDICATION ON SRNC

REC_RL_CONG_IND_SRNC

1004: L3 signalling at Iur

SUCCESSFUL HSUPA 2MS TTI SUCC_HSUPA_2MS_TTI_IUR OVER IUR

1004: L3 signalling at Iur

FAILED HSUPA 2MS TTI OVER FAIL_HSUPA_2MS_TTI_IUR IUR

1004: L3 signalling at Iur

SUCCESSFUL E-DCH MAC-D SUCC_EDCH_MACD_IUR FLOW ALLOCATION OVER IUR

1004: L3 signalling at Iur

FAILED E-DCH MAC-D FLOW ALLOCATION OVER IUR

FAIL_EDCH_MACD_IUR

1004: L3 signalling at Iur

SUCCESSFUL MULTI HSPA ALLOCATIONS OVER IUR

SUC_MULTI_HSPA_ALLO_IUR

1004: L3 signalling at Iur

FAILED MULTI HSPA ALLOCATIONS OVER IUR

FAIL_MULTI_HSPA_ALLO_IUR

1005: L3 signalling at Iub

RL SETUP ATT FOR FIRST RL

rl_setup_att_for_first_rl

1005: L3 signalling at Iub

RL SETUP ATT FOR SHO ON SRNC

rl_setup_att_for_sho_on_srnc

1005: L3 signalling at Iub

RL SETUP ATT FOR HHO ON SRNC

rl_setup_att_for_hho_on_srnc

1005: L3 signalling at Iub

RL SETUP ATT FOR SHO ON DRNC

rl_setup_att_for_sho_on_drnc

1005: L3 signalling at Iub

RL SETUP ATT FOR HHO ON DRNC

rl_setup_att_for_hho_on_drnc

1005: L3 signalling at Iub

RL SETUP SUCC FOR FIRST RL

rl_setup_succ_for_first_rl

1005: L3 signalling at Iub

RL SETUP SUCC FOR SHO ON rl_setup_succ_for_sho_srnc SRNC

1005: L3 signalling at Iub

RL SETUP SUCC FOR HHO ON rl_setup_succ_for_hho_srnc SRNC

1005: L3 signalling at Iub

RL SETUP SUCC FOR SHO ON rl_setup_succ_for_sho_drnc DRNC

1005: L3 signalling at Iub

RL SETUP SUCC FOR HHO ON rl_setup_succ_for_hho_drnc DRNC

1005: L3 signalling at Iub

RL SETUP FAIL FOR FIRST RL setup_fail_rl_bts_not_resp DUE TO BTS NOT RESP

1005: L3 signalling at Iub

RL SETUP FAIL FOR SHO ON setup_fail_sho_srnc_bts_nr SRNC DUE TO BTS NOT RESP

1005: L3 signalling at Iub

RL SETUP FAIL FOR HHO ON setup_fail_hho_srnc_bts_nr SRNC DUE TO BTS NOT RESP

1005: L3 signalling at Iub

RL SETUP FAIL FOR SHO ON setup_fail_sho_drnc_bts_nr DRNC DUE TO BTS NOT RESP

1005: L3 signalling at Iub

RL SETUP FAIL FOR HHO ON setup_fail_hho_drnc_bts_nr DRNC DUE TO BTS NOT RESP

1005: L3 signalling at Iub

RL BRANCH ADD ATT FOR SHO ON SRNC

rl_branch_add_att_sho_srnc

1005: L3 signalling at Iub

RL BRANCH ADD ATT FOR SHO ON DRNC

rl_branch_add_att_sho_drnc

1005: L3 signalling at Iub

RL BRANCH ADD SUCC FOR SHO ON SRNC

rl_branch_add_succ_sho_srnc

1005: L3 signalling at Iub

RL BRANCH ADD SUCC FOR SHO ON DRNC

rl_branch_add_succ_sho_drnc

1005: L3 signalling at Iub

RL BRANCH ADD FAIL FOR SHO ON SRNC DUE TO BTS NOT RESP

branch_add_fail_srnc_bts_nr

1005: L3 signalling at Iub

RL BRANCH ADD FAIL FOR SHO ON DRNC DUE TO BTS NOT RESP

branch_add_fail_drnc_bts_nr

1005: L3 signalling at Iub

RL FAIL ON SRNC DUE TO INI SYN FAIL

fail_sho_srnc_ini_syn_fail

1005: L3 signalling at Iub

RL FAIL ON DRNC DUE TO INI SYN FAIL

fail_sho_drnc_ini_syn_fail

1005: L3 signalling at Iub

RL DEL ON SRNC DUE TO NORM REL

del_srnc_norm_rel

1005: L3 signalling at Iub

RL DEL ON SRNC DUE TO INI SYN FAIL

del_sho_srnc_ini_syn_fail

1005: L3 signalling at Iub

RL DEL ON SRNC DUE TO ACT del_sho_srnc_act_rl_syn_fail RL SYN FAIL

1005: L3 signalling at Iub

RL DEL ON SRNC DUE TO BTS del_srnc_bts_overl HW OVERL

1005: L3 signalling at Iub

RL DEL ON SRNC DUE TO BTS del_sho_srnc_bts_equip_fail EQUIP FAIL

1005: L3 signalling at Iub

RL DEL RESP ON SRNC

del_resp_srnc

1005: L3 signalling at Iub

RL DEL ON DRNC DUE TO NORM REL

del_drnc_norm_rel

1005: L3 signalling at Iub

RL DEL ON DRNC DUE TO INI SYN FAIL

del_sho_drnc_ini_syn_fail

1005: L3 signalling at Iub

RL DEL ON DRNC DUE TO ACT del_sho_drnc_act_rl_syn_fail RL SYN FAIL

1005: L3 signalling at Iub

RL DEL ON DRNC DUE TO BTS del_sho_drnc_bts_hw_overl HW OVERL

1005: L3 signalling at Iub

RL DEL ON DRNC DUE TO BTS del_sho_drnc_bts_equip_fail EQUIP FAIL

1005: L3 signalling at Iub

RL DEL RESP ON DRNC

del_resp_drnc

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH ADD ON SRNC

reconf_prep_dch_add_srnc

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH MOD ON SRNC

reconf_prep_dch_mod_srnc

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DEL ON SRNC

reconf_prep_dch_del_srnc

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH ADD ON DRNC

reconf_prep_dch_add_drnc

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH MOD ON DRNC

reconf_prep_dch_mod_drnc

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DEL ON DRNC

reconf_prep_dch_del_drnc

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH ADD ON SRNC READY

reconf_dch_add_srnc_rdy

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH MOD ON SRNC READY

reconf_dch_mod_srnc_rdy

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DEL ON SRNC READY

reconf_dch_del_srnc_rdy

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH ADD ON DRNC READY

reconf_dch_add_drnc_rdy

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH MOD ON DRNC READY

reconf_dch_mod_drnc_rdy

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DEL ON DRNC READY

reconf_dch_del_drnc_rdy

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH ADD FAIL ON SRNC DUE TO BTS NOT RESP

reconf_add_fail_srnc_bts_nr

1005: L3 signalling at Iub

RL RECONF PREP SYNCH reconf_mod_fail_srnc_bts_nr FOR DCH MOD FAIL ON SRNC DUE TO BTS NOT RESP

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DEL FAIL ON SRNC DUE TO BTS NOT RESP

reconf_del_fail_srnc_bts_nr

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH ADD FAIL ON DRNC DUE TO BTS NOT RESP

reconf_add_fail_drnc_bts_nr

1005: L3 signalling at Iub

RL RECONF PREP SYNCH reconf_mod_fail_drnc_bts_nr FOR DCH MOD FAIL ON DRNC DUE TO BTS NOT RESP

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DEL FAIL ON DRNC DUE TO BTS NOT RESP

1005: L3 signalling at Iub

RL RECONF COMM SYNCH ON rec_comm_synch_srnc SRNC

1005: L3 signalling at Iub

RL RECONF COMM SYNCH ON rec_comm_synch_drnc DRNC

1005: L3 signalling at Iub

RL RECONF CANC SYNCH ON canc_srnc_tran_stp_fail SRNC DUE TO TRANSMISSION SETUP FAIL

1005: L3 signalling at Iub

RL RECONF CANC SYNCH ON canc_srnc_bts_not_ready SRNC DUE TO OTHER BTS NOT READY

reconf_del_fail_drnc_bts_nr

1005: L3 signalling at Iub

RL RECONF CANC SYNCH ON canch_drnc_tran_stp_fail DRNC DUE TO TRANSMISSION SETUP FAIL

1005: L3 signalling at Iub

RL RECONF CANC SYNCH ON canc_drnc_bts_not_ready DRNC DUE TO OTHER BTS NOT READY

1005: L3 signalling at Iub

RL RECONF PREP SYNCH ON rec_prep_srnc SRNC

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH MOD DUE TO DYN LINK OPT ON SRNC

1005: L3 signalling at Iub

RL RECONF PREP SYNCH ON rec_prep_drnc DRNC

1005: L3 signalling at Iub

RL RECONF PREP SYNCH ON rec_prep_srnc_ready SRNC READY

1005: L3 signalling at Iub

RL RECONF PREP SYNCH ON rec_prep_drnc_ready DRNC READY

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FAIL ON SRNC

rec_prep_srnc_fail

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FAIL ON DRNC

rec_prep_drnc_fail

1005: L3 signalling at Iub

NBR OF SENT COMP MODE CMDS

sent_cmp_mode_cmds

1005: L3 signalling at Iub

NBR OF SENT ERROR INDICATIONS

sent_err_ind

1005: L3 signalling at Iub

NBR OF REC ERROR INDICATIONS

rec_err_ind

rec_prep_mod_dyn_lnk_srnc

1005: L3 signalling at Iub

RL RECONF PREP SYNCH RECONF_DCH_MOD_SRNC_ FOR DCH MOD ON SRNC DUE CM TO CM

1005: L3 signalling at Iub

RL RECONF PREP SYNCH RECONF_MOD_FAIL_SRNC_C FOR DCH MOD FAIL ON SRNC M DUE TO CM

1005: L3 signalling at Iub

DEDICATED MEASUREMENT INITIATION REQUESTS

DEDIC_MEAS_INI_REQ

1005: L3 signalling at Iub

DEDICATED MEASUREMENT INITIATION RESPONSE

DEDIC_MEAS_INI_RESP

1005: L3 signalling at Iub

DEDICATED MEAS INIT FAIL DUE TO MEAS TEMP NOT AVAIL

DEDIC_MEA_FAIL_TMP_NOT_ AVAIL

1005: L3 signalling at Iub

DEDICATED MEAS INIT FAIL DUE TO NOT SUPPORTED FOR THE OBJECT

DEDIC_MEA_FAIL_NOT_SUPP _OBJ

1005: L3 signalling at Iub

DEDICATED MEASUREMENT REPORT

DEDIC_MEAS_REPORT

1005: L3 signalling at Iub

ALL IUB DL POWER CONTROL DL_PWR_CTRL_IUB_ALL_SR MESSAGES IN SRNC NC

1005: L3 signalling at Iub

ALL IUB DL POWER CONTROL DL_PWR_CTRL_IUB_ALL_DR MESSAGES IN DRNC NC

1005: L3 signalling at Iub

IUB DL POWER CONTROL MESSAGES FOR POWER UPDATE IN SRNC

DL_PWR_CTRL_IUB_PWR_UP D_SRNC

1005: L3 signalling at Iub

IUB DL POWER CONTROL MESSAGES FOR POWER UPDATE IN DRNC

DL_PWR_CTRL_IUB_PWR_UP D_DRNC

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DEL DUE TO PRIORITY BASED SCHEDULING

RECONF_PREP_DCH_DEL_P BS

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DELETION DUE TO PRE-EMPTION

RECONF_PREP_DCH_DEL_P RE_EMPT

1005: L3 signalling at Iub

DEDIC MEAS FAIL DUE TO CTRL PROC OVERLOAD OR NOT ENOUGH RES

DEDIC_MEAS_FAIL_OVRL_N O_RES

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DEL DUE ENHANCED OVERLOAD CONTROL

RECONF_PREP_DCH_DEL_E NH_OLC

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DEL DUE DYNAMIC LINK OPTIMIZATION

RECONF_PREP_DCH_DEL_D LNK_OPT

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH MOD DUE PBS DOWNGRADING

RECONF_PREP_DCH_MOD_P BS_DGR

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH MOD DUE PREEMPTION DOWNGRADING

RECONF_PREP_DCH_MOD_P RE_DGR

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH MOD DUE ENHANCED OLC DOWNGRADING

RECONF_PREP_DCH_MOD_O LC_DGR

1005: L3 signalling at Iub

COMMON MEAS INIT REQUESTS

COMMON_MEAS_INIT_REQ

1005: L3 signalling at Iub

COMMON MEAS INIT FAIL DUE COMMON_MEA_INI_FAIL_NO TO NOT SUPPORT FOR THE T_SUP OBJ

1005: L3 signalling at Iub

COMMON MEAS INIT FAIL DUE COMMON_MEA_INI_FAIL_NO TO MEAS TEMPORARILY NOT T_AVA AVAILABLE

1005: L3 signalling at Iub

COMMON MEAS REPORTS

COMMON_MEAS_REPORTS

1005: L3 signalling at Iub

COMMON MEAS TERMINATIONS

COMMON_MEAS_TERMINATI ONS

1005: L3 signalling at Iub

COMMON MEAS FAILURE INDICATION

COMMON_MEAS_FAIL_IND

1005: L3 signalling at Iub

BLOCK RESOURCE FROM BTS BLOCK_RES_BTS_HIGH_PRI HIGH PRIORITY OR

1005: L3 signalling at Iub

BLOCK RESOURCE FROM BTS BLOCK_RES_BTS_NORM_LO NORMAL OR LOW PRIORITY W_PRIOR

1005: L3 signalling at Iub

BLOCK RESOURCE FAIL TO BTS

BLOCK_RES_FAIL_TO_BTS

1005: L3 signalling at Iub

RESET REQUEST SENT WITH IE COMMUNICATION CONTEXT

RESET_REQ_SENT_IE_COM_ CONT

1005: L3 signalling at Iub

RESET REQUEST SENT WITH IE COMMUNICATION CONTROL PORT

RESET_REQ_SENT_COM_CT RL_PORT

1005: L3 signalling at Iub

RESET REQUEST SENT WITH IE NODE B

RESET_REQ_SENT_IE_NODE _B

1005: L3 signalling at Iub

RESET REQUEST RECEIVED WITH IE COMMUNICATION CONTEXT

RESET_REQ_REC_IE_COMM _CONT

1005: L3 signalling at Iub

RESET REQUEST RECEIVED WITH IE COMMUNICATION CONTROL PORT

RESET_REQ_REC_COM_CTR L_PORT

1005: L3 signalling at Iub

RESET REQUEST RECEIVED WITH IE NODE B

RESET_REQ_REC_IE_NODE_ B

1005: L3 signalling at Iub

RL SETUP FAIL FOR FIRST RL SETUP_FAIL_FIRST_RL_RNL DUE TO RN LAYER CAUSE

1005: L3 signalling at Iub

RL SETUP FAIL FOR FIRST RL SETUP_FAIL_FIRST_RL_TRL DUE TO TR LAYER CAUSE

1005: L3 signalling at Iub

RL SETUP FAIL FOR FIRST RL SETUP_FAIL_FIRST_RL_PRO DUE TO PROT CAUSE T

1005: L3 signalling at Iub

RL SETUP FAIL FOR FIRST RL SETUP_FAIL_FIRST_RL_MISC DUE TO MISC CAUSE

1005: L3 signalling at Iub

RL SETUP FAIL FOR SHO ON SRNC DUE TO RN LAYER CAUSE

SETUP_FAIL_SHO_SRNC_RN L

1005: L3 signalling at Iub

RL SETUP FAIL FOR SHO ON SRNC DUE TO TR LAYER CAUSE

SETUP_FAIL_SHO_SRNC_TR L

1005: L3 signalling at Iub

RL SETUP FAIL FOR SHO ON SRNC DUE TO PROT CAUSE

SETUP_FAIL_SHO_SRNC_PR OT

1005: L3 signalling at Iub

RL SETUP FAIL FOR SHO ON SRNC DUE TO MISC CAUSE

SETUP_FAIL_SHO_SRNC_MIS C

1005: L3 signalling at Iub

RL SETUP FAIL FOR HHO ON SRNC DUE TO RN LAYER CAUSE

SETUP_FAIL_HHO_SRNC_RN L

1005: L3 signalling at Iub

RL SETUP FAIL FOR HHO ON SRNC DUE TO TR LAYER CAUSE

SETUP_FAIL_HHO_SRNC_TR L

1005: L3 signalling at Iub

RL SETUP FAIL FOR HHO ON SRNC DUE TO PROT CAUSE

SETUP_FAIL_HHO_SRNC_PR OT

1005: L3 signalling at Iub

RL SETUP FAIL FOR HHO ON SRNC DUE TO MISC CAUSE

SETUP_FAIL_HHO_SRNC_MI SC

1005: L3 signalling at Iub

RL SETUP FAIL FOR SHO ON DRNC DUE TO RN LAYER CAUSE

SETUP_FAIL_SHO_DRNC_RN L

1005: L3 signalling at Iub

RL SETUP FAIL FOR SHO ON DRNC DUE TO TR LAYER CAUSE

SETUP_FAIL_SHO_DRNC_TR L

1005: L3 signalling at Iub

RL SETUP FAIL FOR SHO ON DRNC DUE TO PROT CAUSE

SETUP_FAIL_SHO_DRNC_PR OT

1005: L3 signalling at Iub

RL SETUP FAIL FOR SHO ON DRNC DUE TO MISC CAUSE

SETUP_FAIL_SHO_DRNC_MI SC

1005: L3 signalling at Iub

RL SETUP FAIL FOR HHO ON DRNC DUE TO RN LAYER CAUSE

SETUP_FAIL_HHO_DRNC_RN L

1005: L3 signalling at Iub

RL SETUP FAIL FOR HHO ON DRNC DUE TO TR LAYER CAUSE

SETUP_FAIL_HHO_DRNC_TR L

1005: L3 signalling at Iub

RL SETUP FAIL FOR HHO ON DRNC DUE TO PROT CAUSE

SETUP_FAIL_HHO_DRNC_PR OT

1005: L3 signalling at Iub

RL SETUP FAIL FOR HHO ON DRNC DUE TO MISC CAUSE

SETUP_FAIL_HHO_DRNC_MI SC

1005: L3 signalling at Iub

RL BRANCH ADD FAIL FOR SHO ON SRNC DUE TO RNL

BRANCH_ADD_FAIL_SRNC_R NL

1005: L3 signalling at Iub

RL BRANCH ADD FAIL FOR SHO ON SRNC DUE TO TRL

BRANCH_ADD_FAIL_SRNC_T RL

1005: L3 signalling at Iub

RL BRANCH ADD FAIL FOR SHO ON SRNC DUE TO PROT

BRANCH_ADD_FAIL_SRNC_P ROT

1005: L3 signalling at Iub

RL BRANCH ADD FAIL FOR SHO ON SRNC DUE TO MISC

BRANCH_ADD_FAIL_SRNC_M ISC

1005: L3 signalling at Iub

RL BRANCH ADD FAIL FOR SHO ON DRNC DUE TO RNL

BRANCH_ADD_FAIL_DRNC_R NL

1005: L3 signalling at Iub

RL BRANCH ADD FAIL FOR SHO ON DRNC DUE TO TRL

BRANCH_ADD_FAIL_DRNC_T RL

1005: L3 signalling at Iub

RL BRANCH ADD FAIL FOR SHO ON DRNC DUE TO PROT

BRANCH_ADD_FAIL_DRNC_P ROT

1005: L3 signalling at Iub

RL BRANCH ADD FAIL FOR SHO ON DRNC DUE TO MISC

BRANCH_ADD_FAIL_DRNC_M ISC

1005: L3 signalling at Iub

RL FAIL ON SRNC DUE TO RN RL_FAIL_SRNC_RNL LAYER CAUSE

1005: L3 signalling at Iub

RL FAIL ON SRNC DUE TO TR LAYER CAUSE

RL_FAIL_SRNC_TRL

1005: L3 signalling at Iub

RL FAIL ON SRNC DUE TO PROT CAUSE

RL_FAIL_SRNC_PROT

1005: L3 signalling at Iub

RL FAIL ON SRNC DUE TO MISC CAUSE

RL_FAIL_SRNC_MISC

1005: L3 signalling at Iub

RL FAIL ON DRNC DUE TO RN RL_FAIL_DRNC_RNL LAYER CAUSE

1005: L3 signalling at Iub

RL FAIL ON DRNC DUE TO TR LAYER CAUSE

RL_FAIL_DRNC_TRL

1005: L3 signalling at Iub

RL FAIL ON DRNC DUE TO PROT CAUSE

RL_FAIL_DRNC_PROT

1005: L3 signalling at Iub

RL FAIL ON DRNC DUE TO MISC CAUSE

RL_FAIL_DRNC_MISC

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH ADD FAIL ON SRNC DUE TO RNL

RECONF_ADD_FAIL_SRNC_R NL

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH ADD FAIL ON SRNC DUE TO TRL

RECONF_ADD_FAIL_SRNC_T RL

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH ADD FAIL ON SRNC DUE TO PROT

RECONF_ADD_FAIL_SRNC_P ROT

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH ADD FAIL ON SRNC DUE TO MISC

RECONF_ADD_FAIL_SRNC_M ISC

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH ADD FAIL ON DRNC DUE TO RNL

RECONF_ADD_FAIL_DRNC_R NL

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH ADD FAIL ON DRNC DUE TO TRL

RECONF_ADD_FAIL_DRNC_T RL

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH ADD FAIL ON DRNC DUE TO PROT

RECONF_ADD_FAIL_DRNC_P ROT

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH ADD FAIL ON DRNC DUE TO MISC

RECONF_ADD_FAIL_DRNC_M ISC

1005: L3 signalling at Iub

RL RECONF PREP SYNCH RECONF_MOD_FAIL_SRNC_R FOR DCH MOD FAIL ON SRNC NL DUE TO RNL

1005: L3 signalling at Iub

RL RECONF PREP SYNCH RECONF_MOD_FAIL_SRNC_T FOR DCH MOD FAIL ON SRNC RL DUE TO TRL

1005: L3 signalling at Iub

RL RECONF PREP SYNCH RECONF_MOD_FAIL_SRNC_P FOR DCH MOD FAIL ON SRNC ROT DUE TO PROT

1005: L3 signalling at Iub

RL RECONF PREP SYNCH RECONF_MOD_FAIL_SRNC_ FOR DCH MOD FAIL ON SRNC MISC DUE TO MISC

1005: L3 signalling at Iub

RL RECONF PREP SYNCH RECONF_MOD_FAIL_DRNC_ FOR DCH MOD FAIL ON DRNC RNL DUE TO RNL

1005: L3 signalling at Iub

RL RECONF PREP SYNCH RECONF_MOD_FAIL_DRNC_T FOR DCH MOD FAIL ON DRNC RL DUE TO TRL

1005: L3 signalling at Iub

RL RECONF PREP SYNCH RECONF_MOD_FAIL_DRNC_P FOR DCH MOD FAIL ON DRNC ROT DUE TO PROT

1005: L3 signalling at Iub

RL RECONF PREP SYNCH RECONF_MOD_FAIL_DRNC_ FOR DCH MOD FAIL ON DRNC MISC DUE TO MISC

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DEL FAIL ON SRNC DUE TO RNL

RECONF_DEL_FAIL_SRNC_R NL

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DEL FAIL ON SRNC DUE TO TRL

RECONF_DEL_FAIL_SRNC_T RL

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DEL FAIL ON SRNC DUE TO PROT

RECONF_DEL_FAIL_SRNC_P ROT

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DEL FAIL ON SRNC DUE TO MISC

RECONF_DEL_FAIL_SRNC_MI SC

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DEL FAIL ON DRNC DUE TO RNL

RECONF_DEL_FAIL_DRNC_R NL

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DEL FAIL ON DRNC DUE TO TRL

RECONF_DEL_FAIL_DRNC_T RL

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DEL FAIL ON DRNC DUE TO PROT

RECONF_DEL_FAIL_DRNC_P ROT

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DEL FAIL ON DRNC DUE TO MISC

RECONF_DEL_FAIL_DRNC_M ISC

1005: L3 signalling at Iub

DEDICATED MEAS TERMINATIONS

DEDIC_MEAS_TERMINATION S

1005: L3 signalling at Iub

DEDICATED MEAS FAILURE INDICATION

DEDIC_MEAS_FAIL_IND

1005: L3 signalling at Iub

RL RESTORE IND SYNC REACHIEVED

RL_RESTORE_IND_SYNC_RE ACH

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH MOD DUE THROUGHPUT BASED OPTIMISATION

RECONF_PREP_DCH_MOD_T HRPOPT

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH DEL DUE THROUGHPUT BASED OPTIMISATION

RECONF_PREP_DCH_DEL_T HRPOPT

1005: L3 signalling at Iub

MAC-D SETUP ATTEMPT FOR HSDPA

ATT_MACD_SETUP_FOR_HS DPA

1005: L3 signalling at Iub

SUCCESSFUL MAC-D SETUP FOR HSDPA

SUCC_MACD_SETUP_FOR_H SDPA

1005: L3 signalling at Iub

RADIO LINK SETUP TIME

SUM_TIME_RL_SETUP

1005: L3 signalling at Iub

DENOMINATOR FOR RADIO LINK SETUP TIME

DENOM_TIME_RL_SETUP

1005: L3 signalling at Iub

SPARE COUNTER 1 FOR IUB

SPARE_1_IUB

1005: L3 signalling at Iub

SPARE COUNTER 2 FOR IUB

SPARE_2_IUB

1005: L3 signalling at Iub

FAILED MAC-D SETUP FOR HSDPA DUE TO NO RESPONSE

FAIL_MACD_SETUP_HSDPA_ NORESP

1005: L3 signalling at Iub

FAILED MAC-D SETUP FOR HSDPA DUE TO RN LAYER

FAIL_MACD_SETUP_HSDPA_ RNL

1005: L3 signalling at Iub

FAILED MAC-D SETUP FOR HSDPA DUE TO TRANSPORT LAYER

FAIL_MACD_SETUP_HSDPA_ TR

1005: L3 signalling at Iub

FAILED MAC-D SETUP FOR HSDPA DUE TO PROTOCOL

FAIL_MACD_SETUP_HSDPA_ PROT

1005: L3 signalling at Iub

FAILED MAC-D SETUP FOR HSDPA DUE TO MISC

FAIL_MACD_SETUP_HSDPA_ MISC

1005: L3 signalling at Iub

MAC-D SETUP ATTEMPT FOR DC-HSDPA

ATT_MACD_SETUP_FOR_DC HSDPA

1005: L3 signalling at Iub

SUCCESSFUL MAC-D SETUP FOR DC-HSDPA

SUCC_MACD_SETUP_FOR_D CHSDPA

1005: L3 signalling at Iub

FAILED MAC-D SETUP FOR DC-HSDPA

FAIL_MACD_SETUP_DCHSDP A

1005: L3 signalling at Iub

RL SETUP REJECT DUE TO OVERLOAD

RL_SETUP_REJECT_OVERLO AD

1005: L3 signalling at Iub

RL ADDITION REJECT DUE TO RL_ADD_REJECT_OVERLOA OVERLOAD D

1005: L3 signalling at Iub

RL RECONFIGURATION REJECT DUE TO OVERLOAD

RL_RECONF_REJECT_OVERL OAD

1005: L3 signalling at Iub

RL SETUP FAIL DUE TO BTS OVERLOAD

SETUP_FAIL_BTS_OVERLOA D

1005: L3 signalling at Iub

RL SETUP FAIL FOR FIRST RL SETUP_FAIL_FIRST_RL_HSU DUE TO BTS HSUPA PA_RE RESOURCES

1005: L3 signalling at Iub

RL SETUP FAIL FOR SHO DUE SETUP_FAIL_SHO_HSUPA_R TO BTS HSUPA RESOURCES E

1005: L3 signalling at Iub

RL RECONF PREP SYNCH FOR DCH ADD FAIL DUE TO BTS HSUPA RESOURCES

RECONF_ADD_FAIL_HSUPA_ RE

1006: RRC signalling

RRC CONN REQ FOR MOC ESTAB OF CONV CALL

conn_req_moc_estab_conv_call

1006: RRC signalling

RRC CONN REQ FOR MTC ESTAB OF CONV CALL

conn_req_mtc_estab_conv_call

1006: RRC signalling

RRC CONN REQ FOR MOC ESTAB OF STREAM CALL

conn_req_moc_estab_strm_call

1006: RRC signalling

RRC CONN REQ FOR MTC ESTAB OF STREAM CALL

conn_req_mtc_estab_strm_call

1006: RRC signalling

RRC CONN REQ FOR MOC ESTAB OF INTERACT CALL

conn_req_moc_estab_int_call

1006: RRC signalling

RRC CONN REQ FOR MTC ESTAB OF INTERACT CALL

conn_req_mtc_estab_int_call

1006: RRC signalling

RRC CONN REQ FOR MOC ESTAB OF BACKGR CALL

conn_req_moc_estab_backgr

1006: RRC signalling

RRC CONN REQ FOR MTC ESTAB OF BACKGR CALL

conn_req_mtc_estab_backgr

1006: RRC signalling

RRC CONN REQ FOR EMERG CALL

rrc_conn_req_for_emerg_call

1006: RRC signalling

RRC CONN REQ FOR rrc_conn_req_int_cell_re_sel INTR_RAT_CELL_RE_SELECT

1006: RRC signalling

RRC CONN REQ FOR INTR_RAT_CELL_CHNG_ORD

rrc_conn_req_int_cell_ch_ord

1006: RRC signalling

RRC CONN REQ FOR REGISTRATION

rrc_conn_req_for_reg

1006: RRC signalling

RRC CONN REQ FOR DETACH rrc_conn_req_for_detach

1006: RRC signalling

RRC CONN REQ FOR rrc_con_req_or_hi_pri_sign ORIGINATING HIGH PRIORITY SIGNALLING

1006: RRC signalling

RRC CONN REQ FOR ORIGINATING LOW PRIORITY SIGNALLING

1006: RRC signalling

RRC CONN REQ FOR rrc_con_req_te_hi_pri_sign TERMINATING HIGH PRIORITY SIGNALLING

1006: RRC signalling

RRC CONN REQ FOR rrc_con_req_te_lo_pri_sign TERMINATING LOW PRIORITY SIGNALLING

1006: RRC signalling

RRC CONN REQ FOR TERMINATING CAUSE UNKNOWN

rrc_co_re_term_cu

1006: RRC signalling

RRC CONN REQ FOR ORIGINATING SUBSCRIBED TRAFFIC CALL

rrc_co_re_orig_sub_traf

1006: RRC signalling

RRC CONN REQ FOR CALL RE rrc_conn_req_call_re_estab ESTAB

1006: RRC signalling

RRC CONN REQ FAIL

rrc_conn_req_fail

1006: RRC signalling

RRC CONN REJECT

rrc_conn_reject

1006: RRC signalling

RRC CONN SETUP

rrc_conn_setup

1006: RRC signalling

RRC CONN SETUP COMPL RECEIVED

rrc_conn_setup_compl_sent

rrc_con_req_or_lo_pri_sign

1006: RRC signalling

RRC CONN REL

rrc_conn_rel

1006: RRC signalling

PAGING TYPE 1 ATT CN ORIG paging_type_1_att_cn_orig

1006: RRC signalling

PAGING TYPE 1 ATT RNC ORIG

paging_type_1_att_rnc_orig

1006: RRC signalling

PAGING TYPE 2 ATT

paging_type_2_att

1006: RRC signalling

RADIO BEARER SETUP

rb_setup

1006: RRC signalling

RADIO BEARER SETUP COMPLETE

rb_setup_complete

1006: RRC signalling

RADIO BEARER RECONF

rb_reconf

1006: RRC signalling

RADIO BEARER RECONF COMPLETE

rb_reconf_complete

1006: RRC signalling

TRAN CH RECONF

tran_ch_reconf

1006: RRC signalling

TRAN CH RECONF COMP

tran_ch_reconf_comp

1006: RRC signalling

CELL UPDATE ATT DUE TO CELL RESEL

cell_update_att_due_cell_res

1006: RRC signalling

CELL UPDATE ATT DUE TO PER UPDATE

cell_update_att_per_update

1006: RRC signalling

CELL UPDATE ATT DUE TO DATA TRANSM

cell_update_att_data_transm

1006: RRC signalling

CELL UPDATE ATT DUE TO PAGING RESP

cell_update_att_paging_resp

1006: RRC signalling

CELL UPDATE ATT DUE TO RE-ENTERED SERVICE AREA

cell_upd_att_re_ent_s_area

1006: RRC signalling

CELL UPDATE ATT DUE TO RADIO LINK FAILURE

cell_update_att_r_link_fail

1006: RRC signalling

CELL UPDATE ATT DUE TO RLC UNRECOVERABLE ERROR

cell_update_att_rlc_err

1006: RRC signalling

URA UPDATE ATT DUE TO CHANGE OF URA

ura_update_att_change_of_ura

1006: RRC signalling

URA UPDATE ATT DUE TO PER UPDATE

ura_update_att_per_update

1006: RRC signalling

CAP REQ UL

cap_req_ul

1006: RRC signalling

CELL DCH STATE TO CELL FACH

cell_dch_state_to_cell_fach

1006: RRC signalling

CELL FACH STATE TO CELL DCH

cell_fach_state_to_cell_dch

1006: RRC signalling

CELL FACH STATE TO CELL PCH DUE TO INACTIVITY

cell_fach_state_cell_pch_ina

1006: RRC signalling

CELL FACH STATE TO CELL PCH AFT CELL UPDATE

cell_fach_state_cell_pch_upd

1006: RRC signalling

CELL FACH STATE TO URA PCH

cell_fach_state_to_ura_pch

1006: RRC signalling

MEA CAP REQ FOR DL

mea_cap_req_for_dl

1006: RRC signalling

RRC CONN FOR CELL PCH DUE TO MS IS LOST

conn_cell_pch_due_ms_is_lost

1006: RRC signalling

RRC CONN REL FOR DUE TO DIR SIG CONN RE EST

rrc_con_rel_sig_con_re_est

1006: RRC signalling

INI DIR TRAN

ini_dir_tran

1006: RRC signalling

SEC MOD CONTRL

sec_mod_contrl

1006: RRC signalling

SEC MOD CONTRL COMP

sec_mod_contrl_comp

1006: RRC signalling

SIG CONN REL

sig_conn_rel

1006: RRC signalling

SIG CONN REL REQ

sig_conn_rel_ind

1006: RRC signalling

PHY CH RECONF

phy_ch_reconf

1006: RRC signalling

PHY CH RECONF COMP

phy_ch_reconf_comp

1006: RRC signalling

INTER RAT HO FROM UTRAN

inter_rat_ho_utran

1006: RRC signalling

INTER RAT HO FROM UTRAN FAIL

inter_rat_ho_utran_fail

1006: RRC signalling

HO FROM UTRAN COM

ho_utran_com

1006: RRC signalling

HO FROM UTRAN COM FAIL

ho_utran_com_fail

1006: RRC signalling

RRC HO TO UTRAN COMP

rrc_ho_utran_comp

1006: RRC signalling

RRC CONNECTED MODE UES RRC_CONN_MODE_LEFT_CE THAT HAVE LEFT THE CELL LL_UPD THROUGH CELL/URA UPDATE PROCEDURE

1006: RRC signalling

RADIO BEARER RELEASE

RB_RELEASE

1006: RRC signalling

RADIO BEARER RELEASE COMPLETE

RB_RELEASE_COMPLETE

1006: RRC signalling

RRC CONN REJECT DUE TO RRC CONNECTION SETUP REDIRECTION

RRC_CONN_REJ_DIR_SETUP

1006: RRC signalling

PHY CH RECONF FAIL

PHY_CH_RECONF_FAIL

1006: RRC signalling

PHY CH RECONF FAIL DUE TO PHY_CH_RECONF_FAIL_UNS UNSUPPORTED _CONF CONFIGURATION

1006: RRC signalling

RADIO BEARER RECONF FAIL RB_RECONF_FAIL

1006: RRC signalling

RADIO BEARER RECONF FAIL RB_RECONF_FAIL_UNS_CON DUE TO UNSUPPORTED F CONFIGURATION

1006: RRC signalling

RADIO BEARER SETUP FAIL

RB_SETUP_FAIL

1006: RRC signalling

RADIO BEARER SETUP FAIL DUE TO UNSUPPORTED CONFIGURATION

RB_SETUP_FAIL_UNS_CONF

1006: RRC signalling

TRANSPORT FORMAT TFC_CTRL_FOR_TFO COMBINATION CONTROL FOR TFO

1006: RRC signalling

MEAS REPORT MESSAGES WITH PERIODIC REPORTING RESULTS

MEAS_REPORT_MSG_PER_R EP

1006: RRC signalling

STATE TRANS CELL_DCH TO CELL_FACH DUE TO LOW UTILISATION

CELL_DCH_FACH_LOW_UTIL

1006: RRC signalling

SUM OF UE OPERATING TIME SUM_OPER_TIME_CELL_DCH IN CELL_DCH

1006: RRC signalling

NUM OF UE MEASURED IN CELL_DCH

1006: RRC signalling

SUM OF UE OPERATING TIME SUM_OPER_TIME_CELL_FAC IN CELL_FACH H

1006: RRC signalling

NUM OF UE MEASURED IN CELL_FACH

1006: RRC signalling

SUM OF UE OPERATING TIME SUM_OPER_TIME_CELL_PCH IN CELL_PCH

1006: RRC signalling

NUM OF UE MEASURED IN CELL_PCH

1006: RRC signalling

SUM OF UE OPERATING TIME SUM_OPER_TIME_URA_PCH IN URA_PCH

NUM_UE_MEAS_CELL_DCH

NUM_UE_MEAS_CELL_FACH

NUM_UE_MEAS_CELL_PCH

1006: RRC signalling

NUM OF UE MEASURED IN URA_PCH

NUM_UE_MEAS_URA_PCH

1006: RRC signalling

ASSISTANCE DATA DELIVERY ASSISTANCE_DATA_DELIVER MESSAGES Y_MSG

1006: RRC signalling

RRC CONN SETUP RETRANS TRIGGERED BY UE

RRC_SETUP_RETRANS_TRIG _BY_UE

1006: RRC signalling

RRC CONN SETUP RETRANS TRIGGERED BY TIMER

RRC_SETUP_RETRANS_TRIG _TIMER

1006: RRC signalling

RRC STATUS MESSAGES

RRC_STATUS_MSG

1006: RRC signalling

RRC STATUS MESSAGES DUE RRC_STATUS_INVALID_PAGI TO INVALID PAGING TYPE 2 NG2 MESSAGE

1006: RRC signalling

RRC STATUS MESSAGES DUE RRC_STATUS_INVALID_CON TO INVALID CONFIGURATION FIG

1006: RRC signalling

RRC STATUS MSG DUE TO ASN1 VIOLATION OR ENCODING ERROR

RRC_STATUS_ASN1_VIOL_E NC_ERR

1006: RRC signalling

RRC CONN RELEASE ON CCCH

RRC_CONN_REL_CCCH

1006: RRC signalling

RRC REL DUE TO MS IS LOST RRC_REL_MSLOST_URA_PC IN URA_PCH H

1006: RRC signalling

RRC CONN REL DUE TO RNC INTERNAL

1006: RRC signalling

RRC REL DUE TO MS IS LOST RRC_REL_MSLOST_CELL_FA IN CELL_FACH CH

RRC_CONN_REL_RNC_INT

1006: RRC signalling

HS-DSCH STATE TO CELL FACH DUE TO LOW UTILISATION

CELL_DCH_HSDSCH_TO_FA CH_LOW

1006: RRC signalling

CELL DCH STATE TO CELL PCH

CELL_DCH_STATE_TO_CELL _PCH

1006: RRC signalling

HS-DSCH STATE TO CELL PCH

CELL_DCH_HSDSCH_TO_CEL L_PCH

1006: RRC signalling

RRC RE-ESTABLISH SUCCESS RRC_RE_EST_SUCC_NRT NRT

1006: RRC signalling

RRC RE-ESTABLISH FAIL UE NRT

RRC_RE_EST_FAIL_UE_NRT

1006: RRC signalling

RRC RE-ESTABLISH FAIL NO REPLY NRT

RRC_RE_EST_FAIL_NOREPL Y_NRT

1006: RRC signalling

ACTIVE SET UPDATE RL ADD ATTEMPTS

AS_UPDATE_RL_ADD_ATT

1006: RRC signalling

ACTIVE SET UPDATE RL ADD SUCCESS

AS_UPDATE_RL_ADD_SUCC

1006: RRC signalling

ACTIVE SET UPDATE RL ADD FAILURE UE

AS_UPDATE_RL_ADD_FAIL_U E

1006: RRC signalling

ACTIVE SET UPDATE RL ADD FAIL NO REPLY

AS_UPDATE_RL_ADD_NORE PLY

1006: RRC signalling

ACTIVE SET UPDATE RL DEL ATTEMPTS

AS_UPDATE_RL_DEL_ATT

1006: RRC signalling

ACTIVE SET UPDATE RL DEL SUCCESS

AS_UPDATE_RL_DEL_SUCC

1006: RRC signalling

CELL FACH STATE TO HSDSCH

CELL_FACH_STATE_TO_HS_ DSCH

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_0 CLASS 0

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_1 CLASS 1

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_2 CLASS 2

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_3 CLASS 3

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_4 CLASS 4

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_5 CLASS 5

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_6 CLASS 6

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_7 CLASS 7

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_8 CLASS 8

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_9 CLASS 9

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_10 CLASS 10

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_11 CLASS 11

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_12 CLASS 12

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_13 CLASS 13

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_14 CLASS 14

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_15 CLASS 15

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_16 CLASS 16

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_17 CLASS 17

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_18 CLASS 18

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_19 CLASS 19

1006: RRC signalling

PRACH PROPAGATION DELAY PRACH_DELAY_CLASS_20 CLASS 20

1006: RRC signalling

RB SETUP ATTEMPT FOR HSDPA

1006: RRC signalling

SUCCESSFUL RB SETUP FOR SUCC_RB_SETUP_HSDPA HSDPA

ATT_RB_SETUP_HSDPA

1006: RRC signalling

FACH TO HS-DSCH ATTEMPTS ATT_FACH_TO_HS_DSCH

1006: RRC signalling

FACH TO HS-DSCH SUCCESSFUL

1006: RRC signalling

HS-DSCH TO FACH ATTEMPTS ATT_HS_DSCH_TO_FACH

1006: RRC signalling

HS-DSCH TO FACH SUCCESSFUL

SUCC_HS_DSCH_TO_FACH

1006: RRC signalling

PAGING OCCASIONS IN CELL_PCH

PAGING_OCCASION_CELL_P CH

1006: RRC signalling

PAGING MESSAGES IN CELL_PCH

PAGING_MESSAGES_CELL_P CH

1006: RRC signalling

CELL UPDATE AFTER PAGING CELL_UPD_AFTER_PAG_CEL IN CELL_PCH L_PCH

1006: RRC signalling

PAGING FAILURE DUE TO NO RESPONSE IN CELL_PCH

FAIL_PAG_NO_RESP_CELL_P CH

1006: RRC signalling

PAGING OCCASIONS IN URA_PCH

PAGING_OCCASION_URA_PC H

1006: RRC signalling

PAGING MESSAGES IN URA_PCH

PAGING_MESSAGES_URA_P CH

1006: RRC signalling

CELL UPDATE AFTER PAGING CELL_UPD_AFTER_PAG_URA IN URA_PCH _PCH

1006: RRC signalling

PAGING FAILURE DUE TO NO RESPONSE IN URA_PCH

SUCC_FACH_TO_HS_DSCH

FAIL_PAG_NO_RESP_URA_P CH

1006: RRC signalling

PAGING DELAY UNTIL CELL UPDATE IN CELL_PCH

PAG_DELAY_CU_CELL_PCH

1006: RRC signalling

PAGING DELAY UNTIL UE RESPONSE IN CELL_PCH

PAG_DELAY_RESP_CELL_PC H

1006: RRC signalling

PAGING DELAY UNTIL UE RESPONSE IN CELL_PCH DENOMINATOR

DENOM_PAG_DELAY_RESP_ CEL_PCH

1006: RRC signalling

PAGING DELAY UNTIL CELL UPDATE IN URA_PCH

SUM_PAG_DELAY_CU_URA_ PCH

1006: RRC signalling

PAGING DELAY UNTIL UE RESPONSE IN URA_PCH

SUM_PAG_DELAY_RESP_UR A_PCH

1006: RRC signalling

PAGING DELAY UNTIL UE RESPONSE IN URA_PCH DENOMINATOR

DENOM_PAG_DELAY_RESP_ URA_PCH

1006: RRC signalling

PRACH DELAY RANGE PARAMETER VALUE

PRACH_DELAY_RANGE_VAL UE

1006: RRC signalling

STATE TRANSITION TIME PCH SUM_ST_TRANS_TIME_PCH_ TO FACH FACH

1006: RRC signalling

DENOMINATOR FOR STATE TRANSITION TIME PCH TO FACH

DENOM_ST_TRANS_TIME_PC H_FACH

1006: RRC signalling

STATE TRANSITION TIME FACH TO DCH

SUM_ST_TRANS_TIME_FACH _DCH

1006: RRC signalling

DENOMINATOR FOR STATE TRANSITION TIME FACH TO DCH

DENOM_ST_TRANS_TIME_FA CH_DCH

1006: RRC signalling

STATE TRANSITION TIME PCH SUM_ST_TRANS_TIME_PCH_ TO DCH DCH

1006: RRC signalling

DENOMINATOR FOR STATE TRANSITION TIME PCH TO DCH

DENOM_ST_TRANS_TIME_PC H_DCH

1006: RRC signalling

STATE TRANSITION TIME DCH SUM_ST_TRANS_TIME_DCH_ TO FACH FACH

1006: RRC signalling

DENOMINATOR FOR STATE TRANSITION TIME DCH TO FACH

1006: RRC signalling

STATE TRANSITION TIME DCH SUM_ST_TRANS_TIME_DCH_ TO PCH PCH

1006: RRC signalling

DENOMINATOR FOR STATE TRANSITION TIME DCH TO PCH

DENOM_ST_TRANS_TIME_DC H_PCH

1006: RRC signalling

STATE TRANSITION TIME FACH TO PCH

SUM_ST_TRANS_TIME_FACH _PCH

1006: RRC signalling

DENOMINATOR FOR STATE TRANSITION TIME FACH TO PCH

DENOM_ST_TRANS_TIME_FA CH_PCH

1006: RRC signalling

RESOURCE ALLOCATION TIME IN RRC SETUP

SUM_RES_ALLO_TIME_RRC_ SETUP

1006: RRC signalling

DENOM FOR RESOURCE ALLOCATION TIME IN RRC SETUP

DENOM_RES_ALLO_TM_RRC _SETUP

1006: RRC signalling

RESOURCE ALLOCATION TIME FROM CELL_FACH

SUM_RES_ALLO_TIME_FACH

1006: RRC signalling

DENOM FOR RESOURCE ALLOCATION TIME FROM CELL_FACH

DENOM_RES_ALLO_TM_FAC H

1006: RRC signalling

RRC RE-ESTABLISH SUCCESS RRC_RE_EST_SUCC_RT RT

DENOM_ST_TRANS_TIME_DC H_FACH

1006: RRC signalling

RRC RE-ESTABLISH FAIL UE RT

RRC_RE_EST_FAIL_UE_RT

1006: RRC signalling

RRC RE-ESTABLISH FAIL NO REPLY RT

RRC_RE_EST_FAIL_NOREPL Y_RT

1006: RRC signalling

RRC RE-ESTABLISH SUCCESS RRC_RE_EST_SUCC_MR MULTI RAB

1006: RRC signalling

RRC RE-ESTABLISH FAIL UE MULTI RAB

RRC_RE_EST_FAIL_UE_MR

1006: RRC signalling

RRC RE-ESTABLISH FAIL NO REPLY MULTI RAB

RRC_RE_EST_FAIL_NOREPL Y_MR

1006: RRC signalling

RB SETUP FAIL FOR HSDPA DUE TO NO REPLY

FAIL_RB_SETUP_HSDPA_NO REPLY

1006: RRC signalling

RB SETUP FAIL FOR HSDPA DUE TO UE NACK

FAIL_RB_SETUP_HSDPA_UE

1006: RRC signalling

AAL2 SETUP TIME

SUM_TIME_AAL2_SETUP

1006: RRC signalling

DENOMINATOR FOR AAL2 SETUP TIME

DENOM_TIME_AAL2_SETUP

1006: RRC signalling

ATTEMPTED PCH TO DCH ATT_PCH_DCH_TRANS_UMR TRANSITIONS USING UM-RLC LC

1006: RRC signalling

SUCCESSFUL PCH TO DCH SUCC_PCH_DCH_TRANS_UM TRANSITIONS USING UM-RLC RLC

1006: RRC signalling

CELL RESELECTIONS DURING RESEL_PCH_DCH_TRANS PCH TO DCH TRANSITIONS USING UM-RLC

1006: RRC signalling

CELL UPDATE ATT DUE TO DATA TRANSM TVM TRUE

CELL_UPDATE_ATT_DATA_T R_TVM

1006: RRC signalling

INACTIVE HSPA UP RELEASE DUE TO PREVENTIVE OVERLOAD

INACT_HSPA_REL_DUE_PRE V_OVER

1006: RRC signalling

CAPACITY REQ FOR RELEASED HSPA DUE TO PREVENTIVE OVERLOAD

CAP_REQ_REL_HSPA_DUE_P RE_OVE

1006: RRC signalling

RADIO BEARER CONFIGURED RB_CONFIGURED_FLEXIBLE_ FOR FLEXIBLE RLC RLC

1006: RRC signalling

RRC CONN REJECT DUE TO IUB OVERLOAD CTRL

RRC_CONN_REJ_IUB_OVERL OAD

1006: RRC signalling

RRC CONN REJECT DUE TO MAX REGISTRATIONS

RRC_CONN_REJ_MAX_REGI ST

1006: RRC signalling

RRC CONN REJECT DUE TO CENTRALIZED UNIT OVERLOAD

RRC_CONN_REJ_CENT_UNIT _OVERL

1006: RRC signalling

RRC CONN REJECT DUE TO RNC RESTART

RRC_CONN_REJ_RNC_REST ART

1006: RRC signalling

RB SETUP ATTEMPT FOR DC- ATT_RB_SETUP_DCHSDPA HSDPA

1006: RRC signalling

SUCCESSFUL RB SETUP FOR SUCC_RB_SETUP_DCHSDPA DC-HSDPA

1006: RRC signalling

RB SETUP FAIL FOR DCHSDPA DUE TO NO REPLY

FAIL_RB_SETUP_DCHSDPA_ NOREP

1006: RRC signalling

RB SETUP FAIL FOR DCHSDPA DUE TO UE NACK

FAIL_RB_SETUP_DCHSDPA_ UE

1006: RRC signalling

SUM OF UE OPERATING TIME SUM_OPER_TIME_EFACH IN ENHANCED CELL_FACH

1006: RRC signalling

NUM OF UE MEASURED IN ENHANCED CELL_FACH

NUM_UE_MEAS_EFACH

1006: RRC signalling

CELL_DCH TO ENHANCED CELL_FACH ATTEMPTS

ATT_DCH_TO_EFACH

1006: RRC signalling

CELL_DCH TO ENHANCED CELL_FACH SUCCESSFUL

SUCC_DCH_TO_EFACH

1006: RRC signalling

ENHANCED CELL_FACH TO CELL_DCH ATTEMPTS

ATT_EFACH_TO_DCH

1006: RRC signalling

ENHANCED CELL_FACH TO CELL_DCH SUCCESSFUL

SUCC_EFACH_TO_DCH

1006: RRC signalling

CELL_PCH TO ENHANCED CELL_FACH ATTEMPTS

ATT_PCH_TO_EFACH

1006: RRC signalling

CELL_PCH TO ENHANCED CELL_FACH SUCCESSFUL

SUCC_PCH_TO_EFACH

1006: RRC signalling

ENHANCED CELL_FACH TO CELL_PCH ATTEMPTS

ATT_EFACH_TO_PCH

1006: RRC signalling

ENHANCED CELL_FACH TO CELL_PCH SUCCESSFUL

SUCC_EFACH_TO_PCH

1006: RRC signalling

CELL_FACH TO IDLE

CELL_FACH_TO_IDLE

1006: RRC signalling

CELL_FACH TO CELL_DCH ATTEMPTS

ATT_FACH_TO_DCH

1006: RRC signalling

CELL_DCH TO CELL_FACH ATTEMPTS

ATT_DCH_TO_FACH

1006: RRC signalling

CELL_FACH TO PCH ATTEMPTS

ATT_FACH_TO_PCH

1006: RRC signalling

PCH TO CELL_FACH ATTEMPTS

ATT_PCH_TO_FACH

1006: RRC signalling

CELL_DCH TO PCH ATTEMPTS

ATT_DCH_TO_PCH

1006: RRC signalling

PCH TO CELL_DCH ATTEMPTS

ATT_PCH_TO_DCH

1006: RRC signalling

CELL_FACH TO HS-DSCH/EDCH ATTEMPTS

ATT_FACH_TO_HS_DSCH_ED CH

1006: RRC signalling

HS-DSCH/E-DCH TO CELL FACH ATTEMPTS

ATT_HS_DSCH_EDCH_TO_FA CH

1006: RRC signalling

FACH TO HS-DSCH/E-DCH SUCCESSFUL

SUCC_FACH_TO_HS_DSCH_ EDCH

1006: RRC signalling

RADIO BEARER CONFIGURED RB_CONFIG_FLEXIBLE_RLC_ FOR FLEXIBLE RLC UL UL

1006: RRC signalling

RB SETUP ATTEMPT WITH BLIND HO

1006: RRC signalling

RB SETUP SUCCESSFUL WITH SUCC_RB_SETUP_BLIND_HO BLIND HO

1006: RRC signalling

RB SETUP FAIL BLIND HO DUE FAIL_RB_BLHO_UENACK_WO TO UE NACK WITHOUT MEAS _MEAS

ATT_RB_SETUP_BLIND_HO

1006: RRC signalling

RB SETUP FAIL BLIND HO DUE FAIL_RB_BLHO_UENACK_W_ TO UE NACK WITH MEAS MEAS

1006: RRC signalling

RB SETUP FAIL BLIND HO DUE FAIL_RB_BLHO_UELOST_WO TO UE LOST WITHOUT MEAS _MEAS

1006: RRC signalling

RB SETUP FAIL BLIND HO DUE FAIL_RB_BLHO_UELOST_W_ TO UE LOST WITH MEAS MEAS

1006: RRC signalling

ATTEMPTED INTER-BTS LAYER CHANGES IN PCH/FACH TO DCH

ATT_INT_BTS_PCH_FACH_TO _DCH

1006: RRC signalling

SUCCESSFUL INTER-BTS LAYER CHANGES IN PCH/FACH TO DCH

SUCC_INT_BTS_PCH_FACH_ TO_DCH

1006: RRC signalling

FAILED INTER-BTS LAYER CHANGES IN PCH/FACH TO DCH

FAIL_INT_BTS_PCH_FACH_T O_DCH

1006: RRC signalling

SIG CONN REL IND DUE PS SESSION END

SIG_CONN_REL_IND_PS_EN D

1006: RRC signalling

RADIO BEARER CONFIGURED RB_CONFIG_MIMO_SUCC FOR MIMO

1006: RRC signalling

RADIO BEARER CONFIGURATION FOR MIMO FAILED

1006: RRC signalling

RADIO BEARER CONFIGURED RB_CONFIG_64QAM_SUCC FOR 64QAM

1006: RRC signalling

RADIO BEARER RB_CONFIG_64QAM_FAIL CONFIGURATION FOR 64QAM FAILED

1006: RRC signalling

RADIO BEARER CONFIGURED RB_CONFIG_HSFACH_DL FOR HS-FACH DL

RB_CONFIG_MIMO_FAIL

1006: RRC signalling

RADIO BEARER CONFIGURED RB_CONFIG_HSFACH_UL FOR HS-FACH UL

1006: RRC signalling

LOW PRIORITY PAGING DROP PAGING_DROP_LOW_PRIORI TY

1006: RRC signalling

HIGH PRIORITY PAGING DROP PAGING_DROP_HIGH_PRIORI TY

1006: RRC signalling

CELL UPDATE ATT DUE TO CS CELL_UPDATE_ATT_CS_CAL CALL L

1006: RRC signalling

CELL UPDATE SUCCESS DUE CELL_UPDATE_SUCC_CS_CA TO CS CALL LL

1006: RRC signalling

UE IDENTIFIED AS LFDPHONE UE_ID_LFDPHONE_STATE_T R

1006: RRC signalling

LFDPHONE FACH OR DCH TO LFDPHONE_TO_PCH PCH SUCCESS

1006: RRC signalling

LFDPHONE PCH TO FACH OR DCH SUCCESS

LFDPHONE_PCH_TO_FACH_ DCH

1006: RRC signalling

RRC CONN RELEASE LTE REDIR DUE TO INACTIVITY

RRC_REL_LTE_REDIR_INACT

1006: RRC signalling

RRC CONN RELEASE LTE REDIR DUE TO CH TYPE SWITCH

RRC_REL_LTE_REDIR_CH_S WI

1006: RRC signalling

LTE REDIRECTIONS PREVENTED BY TIMER

LTE_REDIR_PREV_TIMER

1006: RRC signalling

ATTEMPTED INTRA-BTS LAYER CHANGES IN PCH/FACH TO DCH

ATT_INTRA_BTS_TR_TO_DC H

1006: RRC signalling

SUCCESSFUL INTRA-BTS LAYER CHANGES IN PCH/FACH TO DCH

SUCC_INTRA_BTS_TR_TO_D CH

1006: RRC signalling

FAILED INTRA-BTS LAYER CHANGES IN PCH/FACH TO DCH

FAIL_INTRA_BTS_TR_TO_DC H

1006: RRC signalling

CANCELLED INTRA-BTS LAYER CHANGES IN PCH/FACH TO DCH

CANC_INTRA_BTS_TR_TO_D CH

1006: RRC signalling

RRC CONN RELEASE WCDMA RRC_REL_WCDMA_REDIR REDIRECTION

1006: RRC signalling

CS CALL TERMINATIONS DURING RE-ESTABLISHMENT

CS_CALL_TERM_RE_EST

1006: RRC signalling

RRC CONN RELEASE LTE REDIR DUE TO CS CALL RELEASE

RRC_REL_LTE_REDIR_CS_R EL

1006: RRC signalling

RB SETUP ATTEMPT FOR DB- ATT_RB_SETUP_DBHSDPA HSDPA

1006: RRC signalling

SUCCESSFUL RB SETUP FOR SUCC_RB_SETUP_DBHSDPA DB-HSDPA

1006: RRC signalling

RB SETUP FAIL FOR DBHSDPA DUE TO NO REPLY

FAIL_RB_SETUP_DBHSDPA_ NOREP

1006: RRC signalling

RB SETUP FAIL FOR DBHSDPA DUE TO UE NACK

FAIL_RB_SETUP_DBHSDPA_ UE

1006: RRC signalling

MASS EVENT HANDLER INCREASED TVM PENDING TIME

MEH_INCR_TVM_PEND_TIME

1006: RRC signalling

MASS EVENT HANDLER INCREASED CQI FEEDBACK CYCLE

MEH_INCR_CQI_CYCLE

1006: RRC signalling

RADIO BEARER CONFIGURATION FOR DCHSUPA SUCCESSFUL

RB_CONFIG_DC_HSUPA_SU CC

1006: RRC signalling

RADIO BEARER CONFIGURATION FOR DCHSUPA FAILED

RB_CONFIG_DC_HSUPA_FAI L

1006: RRC signalling

RRC CONN REDIRECTION TO GSM FAILED

RRC_CONN_REDIR_GSM_FAI L

1006: RRC signalling

RADIO BEARER CONFIGURATION FOR MCHSDPA ATTEMPT

RB_CONFIG_MC_HSDPA_ATT

1006: RRC signalling

RADIO BEARER CONFIGURATION FOR MCHSDPA SUCCESSFUL

RB_CONFIG_MC_HSDPA_SU CC

1006: RRC signalling

RADIO BEARER CONFIGURATION FOR MCHSDPA FAILED

RB_CONFIG_MC_HSDPA_FAI L

1006: RRC signalling

SUCCESSFUL PCH TO DCH TRANS DUE TO DATA SESSION PROFILING

SUCC_PCH_DCH_DATA_SES S_PROF

1006: RRC signalling

RRC CONN RELEASE LTE REDIR IN DCH

RRC_REL_LTE_REDIR_DCH

1006: RRC signalling

CS CALL RADIO CONN LOST

CS_CALL_RADIO_CONN_LOS T

1006: RRC signalling

HSUPA IFHO COMPRESSED MODE FAIL DUE TO UE

FAIL_HSUPA_IFHO_CM_UE

1006: RRC signalling

LTE COMPRESSED MODE FAIL DUE TO UE

FAIL_LTE_CM_UE

1006: RRC signalling

RRC RE-ESTABLISH SUCCESS RRC_RE_EST_SUCC_RT_IUR RT OVER IUR

1006: RRC signalling

RRC RE-ESTABLISH FAIL RT OVER IUR

RRC_RE_EST_FAIL_RT_IUR

1006: RRC signalling

AMR CODEC SET (12.2, 7.4, 5.9, 4.75) UE FAIL

AMR_122_74_59_475_UE_FAI L

1006: RRC signalling

HS-FACH NOT ALLOCATED DUE TO MAX USERS

HSFACH_REJECT_MAX_USE RS

1006: RRC signalling

MAX NUMBER OF HSFACH/R99-RACH USERS PER CELL

MAX_HSFACH_R99_USERS

1006: RRC signalling

MAX NUMBER OF HSFACH/HS-RACH USERS PER CELL

MAX_HSFACH_HSRACH_USE RS

1006: RRC signalling

MAX NUMBER OF PCH USERS MAX_PCH_WITH_RNTI_USER WITH H-RNTI ALLOCATED PER S CELL

1006: RRC signalling

MAX NUMBER OF HSPA AND HS-FACH USERS PER CELL

MAX_HSPA_TOTAL_USERS

1006: RRC signalling

RRC CONN REL WITH BLACKLISTED LTE CELLS

RRC_CONN_REL_BLACKLIST _LTE

1006: RRC signalling

SUCCESSFUL LAYER CHANGES IN DCH TO PCH/FACH WITH CM

SUCC_LAYER_CH_OUT_DCH _W_CM

1006: RRC signalling

FAILED LAYER CHANGES IN DCH TO PCH/FACH WITH CM

FAIL_LAYER_CH_OUT_DCH_ W_CM

1006: RRC signalling

SUCCESSFUL LAYER CHANGES IN DCH TO PCH/FACH WITHOUT CM

SUCC_LAYER_CH_OUT_DCH _WO_CM

1006: RRC signalling

FAILED LAYER CHANGES IN DCH TO PCH/FACH WITHOUT CM

FAIL_LAYER_CH_OUT_DCH_ WO_CM

1006: RRC signalling

HS-FACH ABNORMAL RELEASE

HSFACH_ABNORMAL_RELEA SE

1006: RRC signalling

ATTEMPTED TRANSFER TO ALLOWED LAYER

ATT_TRANS_TO_ALLOWED_L AYER

1006: RRC signalling

FAILED TRANSFER TO ALLOWED LAYER

FAIL_TRANS_TO_ALLOWED_ LAYER

1006: RRC signalling

SUM OF UE OPERATING TIME SUM_OPER_TIME_CELL_PCH IN CELL_PCH WITH H/E-RNTI _RNTI

1006: RRC signalling

DEDICATED PRIORITY INFORMATION SENT TO UE

DEDICATED_PRIORITY_INFO _SENT

1006: RRC signalling

RRC CONN RELEASE LTE REDIR DUE TO CS CALL RELEASE WITH INACTIVE PS

RRC_REL_LTE_REDIR_CS_R EL_PS

1006: RRC signalling

ATTEMPTED CIPHERING ATT_CIPH_RECOV_CS_SETU RECOVERY IN CS RAB SETUP P

1006: RRC signalling

ATTEMPTED CIPHERING RECOVERY IN CS IFHO

ATT_CIPH_RECOV_CS_IFHO

1006: RRC signalling

RRC RE-ESTABLISH ATT CS RB SETUP

RRC_RE_EST_ATT_CS_SETU P

1006: RRC signalling

RRC RE-ESTABLISH SUCCESS RRC_RE_EST_SUCC_CS_SET CS RB SETUP UP

1006: RRC signalling

BLIND REDIRECTION HAPPENS FOR CS FALLBACK

1006: RRC signalling

RB SETUP ATTEMPT FOR AMR ATT_RB_SETUP_AMR_DCHS + DC-HSDPA

BL_REDIR_CS_FALLBACK

1006: RRC signalling

SUCCESSFUL RB SETUP FOR SUCC_RB_SETUP_AMR_DCH AMR + DC-HSDPA S

1006: RRC signalling

RB SETUP FAIL FOR AMR + FAIL_RB_SETUP_AMR_DCHS DC-HSDPA DUE TO NO REPLY _NOREP

1006: RRC signalling

RB SETUP FAIL FOR AMR + DC-HSDPA DUE TO UE NACK

FAIL_RB_SETUP_AMR_DCHS _UE

1006: RRC signalling

NUMBER OF RRC CONNECTION SETUP REDIRECTIONS BASED ON RADIO QUALITY

RRC_SETUP_REDIR_RADIO_ QUA

1007: Soft Handover

ONE CELL IN THE ACTIVE SET one_cell_in_act_set_for_rt FOR RT (SRNC)

1007: Soft Handover

TWO CELLS IN THE ACTIVE SET FOR RT (SRNC)

two_cells_in_act_set_for_rt

1007: Soft Handover

THREE CELLS IN THE ACTIVE SET FOR RT (SRNC)

three_cells_in_act_set_rt

1007: Soft Handover

SOFTER HANDOVER DURATION ON THE SRNC SIDE FOR RT TRAFFIC

softer_ho_dur_on_srnc_for_rt

1007: Soft Handover

SOFTER HANDOVER DURATION ON THE DRNC SIDE FOR RT/NRT TRAFFIC

softer_ho_dur_on_drnc_for_rt

1007: Soft Handover

INTER-RNC SOFT HO DURATION ON THE SRNC SIDE FOR RT TRAFFIC

soft_ho_dur_on_srnc_for_rt

1007: Soft Handover

INTER-RNC SOFT HO DURATION ON THE DRNC SIDE FOR RT/NRT TRAFFIC

soft_ho_dur_on_drnc_for_rt

1007: Soft Handover

CELL ADDITION REQUEST ON cell_add_req_on_sho_for_rt SHO FOR RT TRAFFIC

1007: Soft Handover

CELL DELETION REQUEST ON cell_del_req_on_sho_for_rt SHO FOR RT TRAFFIC

1007: Soft Handover

CELL REPLACEMENT REQUEST ON SHO FOR RT TRAFFIC

cell_repl_req_on_sho_for_rt

1007: Soft Handover

CELL ADDITION FAILURE ON SHO FOR RT TRAFFIC

cell_add_fail_on_sho_for_rt

1007: Soft Handover

CELL REPLACEMENT FAILURE cell_repl_fail_on_sho_for_rt ON SHO FOR RT TRAFFIC

1007: Soft Handover

SUCCESSFUL ACTIVE SET UPDATES ON SHO FOR RT TRAFFIC

succ_updates_on_sho_for_rt

1007: Soft Handover

UNSUCCESSFUL ACTIVE SET UPDATES ON SHO FOR RT TRAFFIC

unsucc_updates_on_sho_for_rt

1007: Soft Handover

HIGH UE RX-TX TIME DIFFERENCE FORRT

high_ue_rx_tx_time_dif_rt

1007: Soft Handover

LOW UE RX-TX TIME DIFFERENCE FOR RT

low_ue_rx_tx_time_dif_for_rt

1007: Soft Handover

ONE CELL IN THE ACTIVE SET one_cell_in_act_set_for_nrt FOR NRT (SRNC)

1007: Soft Handover

TWO CELLS IN THE ACTIVE SET FOR NRT (SRNC)

two_cells_in_act_set_for_nrt

1007: Soft Handover

THREE CELLS IN THE ACTIVE SET FOR NRT (SRNC)

three_cells_in_act_set_nrt

1007: Soft Handover

SOFTER HANDOVER DURATION ON THE SRNC SIDE FOR NRT TRAFFIC

softer_ho_dur_on_srnc_nrt

1007: Soft Handover

INTER-RNC SOFT HO DURATION ON THE SRNC SIDE FOR NRT TRAFFIC

soft_ho_dur_on_srnc_for_nrt

1007: Soft Handover

CELL ADDITION REQUEST ON cell_add_req_on_sho_for_nrt SHO FOR NRT TRAFFIC

1007: Soft Handover

CELL DELETION REQUEST ON cell_del_req_on_sho_for_nrt SHO FOR NRT TRAFFIC

1007: Soft Handover

CELL REPLACEMENT REQUEST ON SHO FOR NRT TRAFFIC

cell_repl_req_on_sho_for_nrt

1007: Soft Handover

CELL ADDITION FAILURE ON SHO FOR NRT TRAFFIC

cell_add_fail_on_sho_for_nrt

1007: Soft Handover

CELL REPLACEMENT FAILURE cell_repl_fail_on_sho_nrt ON SHO FOR NRT TRAFFIC

1007: Soft Handover

SUCCESSFUL ACTIVE SET UPDATES ON SHO FOR NRT TRAFFIC

succ_updates_on_sho_for_nrt

1007: Soft Handover

UNSUCCESSFUL ACTIVE SET UPDATES ON SHO FOR NRT TRAFFIC

unsucc_updates_on_sho_nrt

1007: Soft Handover

HIGH UE RX-TX TIME DIFFERENCE FOR NRT

high_ue_rx_tx_time_dif_nrt

1007: Soft Handover

LOW UE RX-TX TIME DIFFERENCE FOR NRT

low_ue_rx_tx_time_dif_nrt

1007: Soft Handover

CELL DELETION FAILURE ON SHO FOR RT TRAFFIC

CELL_DEL_FAIL_ON_SHO_FO R_RT

1007: Soft Handover

CELL DELETION FAILURE ON SHO FOR NRT TRAFFIC

CELL_DEL_FAIL_ON_SHO_FO R_NRT

1007: Soft Handover

CELL SPECIFIC CPICH EC/NO - CPICH_ECNO_CLASS_0 CLASS 0

1007: Soft Handover

CELL SPECIFIC CPICH EC/NO - CPICH_ECNO_CLASS_1 CLASS 1

1007: Soft Handover

CELL SPECIFIC CPICH EC/NO - CPICH_ECNO_CLASS_2 CLASS 2

1007: Soft Handover

CELL SPECIFIC CPICH EC/NO - CPICH_ECNO_CLASS_3 CLASS 3

1007: Soft Handover

CELL SPECIFIC CPICH EC/NO - CPICH_ECNO_CLASS_4 CLASS 4

1007: Soft Handover

CELL SPECIFIC CPICH EC/NO - CPICH_ECNO_CLASS_5 CLASS 5

1007: Soft Handover

CELL SPECIFIC CPICH EC/NO - CPICH_ECNO_CLASS_6 CLASS 6

1007: Soft Handover

CELL SPECIFIC CPICH EC/NO - CPICH_ECNO_CLASS_7 CLASS 7

1007: Soft Handover

CELL SPECIFIC CPICH EC/NO - CPICH_ECNO_CLASS_8 CLASS 8

1007: Soft Handover

CELL SPECIFIC CPICH EC/NO - CPICH_ECNO_CLASS_9 CLASS 9

1007: Soft Handover

ONE CELL IN THE ACTIVE SET ONE_CELL_IN_ACT_SET_HS FOR HSDPA MOBILITY DPA

1007: Soft Handover

TWO CELLS IN THE ACTIVE SET FOR HSDPA MOBILITY

TWO_CELLS_IN_ACT_SET_H SDPA

1007: Soft Handover

THREE CELLS IN THE ACTIVE SET FOR HSDPA MOBILITY

THREE_CELLS_IN_ACT_SET_ HSDPA

1007: Soft Handover

SOFTER HANDOVER DURATION ON THE SRNC SIDE FOR HSDPA MOBILITY

SOFTER_HO_DUR_HSDPA

1007: Soft Handover

INTER-RNC SOFT HANDOVER INTER_RNC_SOFT_HO_DUR_ DURATION ON THE SRNC HSDPA SIDE FOR HSDPA MOBILITY

1007: Soft Handover

CELL ADDITION REQUEST ON CELL_ADD_REQ_ON_SHO_H SHO FOR HSDPA MOBILITY SDPA

1007: Soft Handover

CELL DELETION REQUEST ON CELL_DEL_REQ_ON_SHO_HS SHO FOR HSDPA MOBILITY DPA

1007: Soft Handover

CELL REPLACEMENT REQUEST ON SHO FOR HSDPA MOBILITY

CELL_REPL_REQ_ON_SHO_H SDPA

1007: Soft Handover

CELL ADDITION FAILURE ON SHO FOR HSDPA MOBILITY

CELL_ADD_FAIL_ON_SHO_H SDPA

1007: Soft Handover

CELL DELETION FAILURE ON SHO FOR HSDPA MOBILITY

CELL_DEL_FAIL_ON_SHO_HS DPA

1007: Soft Handover

CELL REPLACEMENT FAILURE CELL_REPL_FAIL_ON_SHO_H ON SHO FOR HSDPA SDPA MOBILITY

1007: Soft Handover

SUCCESSFUL ACTIVE SET UPDATES ON SHO FOR HSDPA MOBILITY

SUCC_UPDATES_ON_SHO_H SDPA

1007: Soft Handover

UNSUCCESSFUL ACTIVE SET UPDATES ON SHO FOR HSDPA MOBILITY

UNSUCC_UPDATES_ON_SHO _HSDPA

1007: Soft Handover

HIGH UE RX-TX TIME DIFFERENCE FOR HSDPA MOBILITY

HIGH_UE_RX_TX_TIME_DIF_ HSDPA

1007: Soft Handover

LOW UE RX-TX TIME DIFFERENCE FOR HSDPA MOBILITY

LOW_UE_RX_TX_TIME_DIF_H SDPA

1007: Soft Handover

ONE CELL IN E-DCH ACTIVE SET DURATION

ONE_CELL_IN_EDCH_AS_DU RA

1007: Soft Handover

TWO CELLS IN E-DCH ACTIVE TWO_CELLS_IN_EDCH_AS_D SET DURATION URA

1007: Soft Handover

THREE CELLS IN E-DCH ACTIVE SET DURATION

THREE_CELLS_IN_EDCH_AS _DURA

1007: Soft Handover

SOFTER HANDOVER DURATION ON THE SRNC SIDE FOR HSUPA MOBILITY

EDCH_SOFTER_HO_DURA

1007: Soft Handover

CELL ADDITION ATTEMPT REQ BY UE TO E-DCH AS

CELL_ADD_ATT_UE_REQ_ED CH_AS

1007: Soft Handover

CELL ADDITION SUCCESS TO CELL_ADD_SUCC_EDCH_AS E-DCH ACTIVE SET

1007: Soft Handover

CELL NOT ADDED TO E-DCH ACTIVE SET BUT ADDED TO DCH AS

CELL_ADDED_ONLY_TO_DC H_AS

1007: Soft Handover

CELL ADDITION ATTEMPT RETRY TO E-DCH AS

CELL_ADD_ATT_RETRY_EDC H_AS

1007: Soft Handover

SHO BRANCH SETUP FAILURES DUE TO BTS

SETUP_FAIL_SHO_BRANCH_ BTS

1007: Soft Handover

SHO BRANCH SETUP FAILURES DUE TO IUB TRANSMISSION

SETUP_FAIL_SHO_BRANCH_I UB

1007: Soft Handover

SHO SUCCESS FOR CS + PS ACTIVE MULTIRAB

SHO_SUCC_CS_PS_ACT_MR AB

1007: Soft Handover

SHO FAILURE FOR CS + PS ACTIVE MULTIRAB

SHO_FAIL_CS_PS_ACT_MRA B

1007: Soft Handover

CELL ADDITION REQUEST DUE TO EVENT 1A ON CHAINED NEIGHBOR SHO FOR RT

ADD_REQ_1A_CHAIN_SHO_R T

1007: Soft Handover

CELL ADDITION REQUEST DUE TO EVENT 1A ON CHAINED NEIGHBOR SHO FOR NRT

ADD_REQ_1A_CHAIN_SHO_N RT

1007: Soft Handover

CELL REPLACEMENT ADD_REQ_1C_CHAIN_SHO_R REQUEST DUE TO EVENT 1C T ON CHAINED NEIGHBOR SHO FOR RT

1007: Soft Handover

CELL REPLACEMENT ADD_REQ_1C_CHAIN_SHO_N REQUEST DUE TO EVENT 1C RT ON CHAINED NEIGHBOR SHO FOR NRT

1007: Soft Handover

CELL ADDITION REPEATED ADD_REPEAT_CHAIN_SHO_R REQUEST AFTER FAILURE ON T CHAINED NEIGHBOR SHO FOR RT

1007: Soft Handover

CELL ADDITION REPEATED ADD_REPEAT_CHAIN_SHO_N REQUEST AFTER FAILURE ON RT CHAINED NEIGHBOR SHO FOR NRT

1007: Soft Handover

CELL REPLACEMENT REPEATED REQUEST AFTER FAILURE ON CHAINED NEIGHBOR SHO FOR RT

REPL_REPEAT_CHAIN_SHO_ RT

1007: Soft Handover

CELL REPLACEMENT REPEATED REQUEST AFTER FAILURE ON CHAINED NEIGHBOR SHO FOR NRT

REPL_REPEAT_CHAIN_SHO_ NRT

1007: Soft Handover

SUCCESSFUL ACTIVE SET UPDATES ON CHAINED NEIGHBOR SHO FOR RT

SUCC_ASU_CHAIN_SHO_RT

1007: Soft Handover

SUCCESSFUL ACTIVE SET UPDATES ON CHAINED NEIGHBOR SHO FOR NRT

SUCC_ASU_CHAIN_SHO_NRT

1007: Soft Handover

UNSUCCESSFUL ACTIVE SET UPDATES ON CHAINED NEIGHBOR SHO FOR RT

UNSUCC_ASU_CHAIN_SHO_ RT

1007: Soft Handover

UNSUCCESSFUL ACTIVE SET UPDATES ON CHAINED NEIGHBOR SHO FOR NRT

UNSUCC_ASU_CHAIN_SHO_ NRT

1007: Soft Handover

SYNC MISSING FOR ADDED CONFIGURED NEIGHBOR CELL FOR RT

SYNC_FAIL_ASU_NEIGH_CEL L_RT

1007: Soft Handover

SYNC MISSING FOR ADDED CONFIGURED NEIGHBOR CELL FOR NRT

SYNC_FAIL_ASU_NEIGH_CEL L_NRT

1007: Soft Handover

SYNC MISSING FOR ADDED CHAINED NEIGHBOR CELL FOR RT

SYNC_FAIL_ASU_CHAIN_CEL L_RT

1007: Soft Handover

SYNC MISSING FOR ADDED CHAINED NEIGHBOR CELL FOR NRT

SYNC_FAIL_ASU_CHAIN_CEL L_NRT

1007: Soft Handover

CELL ADDITION REQUEST DUE TO PERIODIC REPORTING FOR ADJS

ADD_REQ_PERD_REPORT_A DJS

1007: Soft Handover

SUCCESSFUL ACTIVE SET UPDATES DUE TO PERIODIC REPORTING FOR ADJS

SUCC_ASU_PERD_REPT_ADJ S

1007: Soft Handover

UNSUCCESSFUL ACTIVE SET UPDATES DUE TO PERIODIC REPORTING FOR ADJS

UNSUCC_ASU_PERD_REPT_ ADJS

1007: Soft Handover

CELL ADDITION REQUEST DUE TO PERIODIC REPORTING FOR ADJD

ADD_REQ_PERD_REPT_ADJ D

1007: Soft Handover

SUCCESSFUL ACTIVE SET UPDATES DUE TO PERIODIC REPORTING FOR ADJD

SUCC_ASU_PERD_REPT_ADJ D

1007: Soft Handover

UNSUCCESSFUL ACTIVE SET UPDATES DUE TO PERIODIC REPORTING FOR ADJD

UNSUCC_ASU_PERD_REPT_ ADJD

1007: Soft Handover

CELL ADDITION REQUEST DUE TO PERIODIC REPORTING FOR CHAINED NEIGHBOR CELL

ADD_REQ_PERD_REPT_CHAI N

1007: Soft Handover

SUCCESSFUL ACTIVE SET UPDATES DUE TO PERIODIC REPORTING FOR CHAINED NEIGHBOR CELL

SUCC_ASU_PERD_REPT_CH AIN

1007: Soft Handover

UNSUCCESSFUL ACTIVE SET UPDATES DUE TO PERIODIC REPORTING FOR CHAINED NEIGHBOR CELL

UNSUCC_ASU_PERD_REPT_ CHAIN

1007: Soft Handover

SUCCESSFUL EARLY SHO FOR LOCATION SERVICE

SUCC_ESHO_FOR_LCS

1007: Soft Handover

ATTEMPTED EARLY SHO FOR ATTMPT_ESHO_FOR_LCS LOCATION SERVICE

1007: Soft Handover

TOTAL SHO DURATION OF ICIC DATA

TOTAL_SHO_DUR_OF_ICIC_D ATA

1007: Soft Handover

NON SHO DURATION IN ICIC DATA

NON_SHO_DUR_IN_ICIC_DAT A

1008: Intra System Hard Handover

UTRAN IS NOT ABLE TO EXECUTE INTRA SYSTEM HHO FOR RT

utran_not_able_exec_hho_rt

1008: Intra System Hard Handover

UE IS NOT ABLE TO EXECUTE ue_not_able_exec_hho_rt INTRA SYSTEM HHO FOR RT

1008: Intra System Hard Handover

CELL ADDITION FAILURE DUE cell_add_fail_sho_incap_rt TO SHO INCAPABILITY FOR RT

1008: Intra System Hard Handover

CELL REPLACEMENT FAILURE cell_repl_fail_sho_incap_rt DUE TO SHO INCAPABILITY FOR RT

1008: Intra System Hard Handover

RT HHO ATTEMPTS DUE TO SHO INCAPABILITY AND AVE ECNO

1008: Intra System Hard Handover

RT HHO ATTEMPTS DUE TO immed_hho_csd_sho_incap_rt SHO INCAPABILITY AND PEAK ECNO

hho_att_caused_sho_incap_rt

1008: Intra System Hard Handover

SUCCESSFUL HARD succ_hho_caused_sho_incap_rt HANDOVERS CAUSED BY SHO INCAPABILITY FOR RT

1008: Intra System Hard Handover

UNSUCCESSFUL HARD unsucc_hho_csd_sho_incap_rt HANDOVERS CAUSED BY SHO INCAPABILITY FOR RT

1008: Intra System Hard Handover

RRC CONNECTION DROPS DURING HHO CAUSED BY SHO INCAPABILITY FOR RT

conn_drops_hho_csd_incap_rt

1008: Intra System Hard Handover

UTRAN IS NOT ABLE TO EXECUTE INTRA SYSTEM HHO FOR NRT

utran_not_able_exec_hho_nrt

1008: Intra System Hard Handover

UE IS NOT ABLE TO EXECUTE ue_not_able_exec_hho_nrt INTRA SYSTEM HHO FOR NRT

1008: Intra System Hard Handover

CELL ADDITION FAILURE DUE cell_add_fail_sho_incap_nrt TO SHO IN CAPABILITY FOR NRT

1008: Intra System Hard Handover

CELL REPLACEMENT FAILURE cell_repl_fail_sho_incap_nrt DUE TO SHO INCAPABILITY FOR NRT

1008: Intra System Hard Handover

NRT HHO ATTEMPTS DUE TO SHO INCAPABILITY AND AVE ECNO

1008: Intra System Hard Handover

NRT HHO ATTEMPTS DUE TO immed_hho_csd_sho_incap_nrt SHO INCAPABILITY AND PEAK ECNO

1008: Intra System Hard Handover

SUCCESSFUL HARD succ_hho_sho_incap_nrt HANDOVERS CAUSED BY SHO INCAPABILITY FOR NRT

1008: Intra System Hard Handover

UNSUCCESSFUL HARD unsucc_hho_csd_sho_incap_nrt HANDOVERS CAUSED BY SHO INCAPABILITY FOR NRT

1008: Intra System Hard Handover

RRC CONNECTION DROPS DURING HHO CAUSED BY SHO INCAPABILITY FOR NRT

hho_att_caused_sho_incap_nrt

conn_drops_hho_csd_incap_nrt

1008: Intra System Hard Handover

INTER FREQ COMPR MODE START NOT POSSIBLE FOR RT

if_com_mod_sta_not_pos_rt

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS if_hho_w_cmod_ul_dch_q_rt AFTER COMP MODE MEAS DUE TO UL DCH QUAL FOR RT

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS if_hho_w_cmod_ue_tx_pwr_rt AFTER COMP MODE MEAS DUE TO UE TRX PWR FOR RT

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS AFTER COMP MODE MEAS DUE TO DL DPCH PWR FOR RT

if_hho_w_cmod_dl_dpch_rt

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS AFTER COMP MODE MEAS DUE TO CPICH RSCP FOR RT

if_hho_w_cmod_rscp_rt

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS if_hho_w_cmod_cpich_ecno_rt AFTER COMP MODE MEAS DUE TO CPICH ECNO FOR RT

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS if_hho_wo_cmod_ul_dch_q_rt AFTER MEAS WITHOUT COMP MODE DUE TO UL DCH QUAL FOR RT

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS if_hho_wo_cmod_ue_trx_rt AFTER MEAS WITHOUT COMP MODE DUE TO UE TRX PWR FOR RT

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS if_hho_wo_cmod_dl_dpch_rt AFTER MEAS WITHOUT COMP MODE DUE TO DL DPCH PWR FOR RT

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS if_hho_wo_cmod_rscp_rt AFTER MEAS WITHOUT COMP MODE DUE TO CPICH RSCP FOR RT

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS if_hho_wo_cmod_cpich_ecno_rt AFTER MEAS WITHOUT COMP MODE DUE TO CPICH ECNO FOR RT

1008: Intra System Hard Handover

NOT STARTED INTER FREQ HHO BEC OF NO CELL GOOD ENOUGH DUE TO UL DCH QUAL FOR RT

if_hho_no_cell_ul_dch_q_rt

1008: Intra System Hard Handover

NOT STARTED INTER FREQ HHO BEC OF NO CELL GOOD ENOUGH DUE TO UE TRX PWR FOR RT

if_hho_no_cell_ue_trx_pwr_rt

1008: Intra System Hard Handover

NOT STARTED INTER FREQ HHO BEC OF NO CELL GOOD ENOUGH DUE TO DL DPCH PWR FOR RT

if_hho_no_cell_dl_dpch_rt

1008: Intra System Hard Handover

NOT STARTED INTER FREQ HHO BEC OF NO CELL GOOD ENOUGH DUE TO CPICH RSCP FOR RT

if_hho_no_cell_cpich_rcsp_rt

1008: Intra System Hard Handover

NOT STARTED INTER FREQ HHO BEC OF NO CELL GOOD ENOUGH DUE TO CPICH ECNO FOR RT

if_hho_no_cell_cpich_ecno_rt

1008: Intra System Hard Handover

INTER FREQ HO ATTEMPTS CAUSED BY UL DCH QUAL FOR RT

if_hho_att_ul_dch_q_rt

1008: Intra System Hard Handover

SUCCESSFUL INTER FREQ HANDOVERS CAUSED BY UL DCH QUAL FOR RT

succ_if_hho_ul_dch_q_rt

1008: Intra System Hard Handover

UNSUCCESSFUL INTER FREQ unsucc_if_hho_ul_dch_q_rt HANDOVERS CAUSED BY UL DCH QUAL FOR RT

1008: Intra System Hard Handover

RRC CONNECTION DROPS DURING INTER FREQ HO CAUSED BY UL DCH QUAL FOR RT

1008: Intra System Hard Handover

INTER FREQ HO ATTEMPTS if_hho_att_ue_trx_pwr_rt CAUSED BY UE TRX PWR FOR RT

1008: Intra System Hard Handover

SUCCESSFUL INTER FREQ HANDOVERS CAUSED BY UE TRX PWR FOR RT

1008: Intra System Hard Handover

UNSUCCESSFUL INTER FREQ unsucc_if_hho_ue_trx_pwr_rt HANDOVERS CAUSED BY UE TRX PWR FOR RT

1008: Intra System Hard Handover

RRC CONNECTION DROPS con_drps_if_hho_ue_trx_rt DURING INTER FREQ HO CAUSED BY UE TRX PWR FOR RT

con_drps_hho_ul_dch_q_rt

succ_if_hho_ue_trx_pwr_rt

1008: Intra System Hard Handover

INTER FREQ HO ATTEMPTS CAUSED BY DL DPCH PWR FOR RT

if_hho_att_dl_dpch_pwr_rt

1008: Intra System Hard Handover

SUCCESSFUL INTER FREQ HANDOVERS CAUSED BY DL DPCH PWR FOR RT

succ_if_hho_dl_dpch_pwr_rt

1008: Intra System Hard Handover

UNSUCCESSFUL INTER FREQ unsucc_if_hho_dl_dpch_pwr_rt HANDOVERS CAUSED BY DL DPCH PWR FOR RT

1008: Intra System Hard Handover

RRC CONNECTION DROPS DURING INTER FREQ HO CAUSED BY DL DPCH PWR FOR RT

1008: Intra System Hard Handover

INTER FREQ HO ATTEMPTS if_hho_att_cpich_rscp_rt CAUSED BY CPICH RSCP FOR RT

1008: Intra System Hard Handover

SUCCESSFUL INTER FREQ HANDOVERS CAUSED BY CPICH RSCP FOR RT

1008: Intra System Hard Handover

UNSUCCESSFUL INTER FREQ unsucc_if_hho_cpich_rscp_rt HANDOVERS CAUSED BY CPICH RSCP FOR RT

1008: Intra System Hard Handover

RRC CONNECTION DROPS con_drps_if_hho_rscp_rt DURING INTER FREQ HO CAUSED BY CPICH RSCP FOR RT

1008: Intra System Hard Handover

INTER FREQ HO ATTEMPTS if_hho_att_cpich_ecno_rt CAUSED BY CPICH ECNO FOR RT

1008: Intra System Hard Handover

SUCCESSFUL INTER FREQ HANDOVERS CAUSED BY CPICH ECNO FOR RT

1008: Intra System Hard Handover

UNSUCCESSFUL INTER FREQ unsucc_if_hho_cpich_ecno_rt HANDOVERS CAUSED BY CPICH ECNO FOR RT

1008: Intra System Hard Handover

RRC CONNECTION DROPS con_drps_if_hho_ecno_rt DURING INTER FREQ HO CAUSED BY CPICH ECNO FOR RT

con_drps_if_hho_dl_dpch_rt

succ_if_hho_cpich_rscp_rt

succ_if_hho_cpich_ecno_rt

1008: Intra System Hard Handover

INTRA RNC INTRA BTS INTER FREQ HO ATTEMPTS FOR RT

intra_intra_hho_att_rt

1008: Intra System Hard Handover

SUCCESSFUL INTRA RNC INTRA BTS INTER FREQ HO FOR RT

succ_intra_intra_hho_att_rt

1008: Intra System Hard Handover

UNSUCCESSFUL INTRA RNC INTRA BTS INTER FREQ HO FOR RT

usuc_intra_intra_hho_att_rt

1008: Intra System Hard Handover

RRC CONN DROPS DURING INTRA RNC INTRA BTS INTER FREQ HO FOR RT

conn_drps_hho_intra_intra_rt

1008: Intra System Hard Handover

INTRA RNC INTER BTS INTER FREQ HO ATTEMPTS FOR RT

intra_inter_hho_att_rt

1008: Intra System Hard Handover

SUCCESSFUL INTRA RNC INTER BTS INTER FREQ HO FOR RT

succ_intra_inter_hho_att_rt

1008: Intra System Hard Handover

UNSUCCESSFUL INTRA RNC INTER BTS INTER FREQ HO FOR RT

usuc_intra_inter_hho_att_rt

1008: Intra System Hard Handover

RRC CONN DROPS DURING INTRA RNC INTER BTS INTER FREQ HO FOR RT

conn_drps_hho_intra_inter_rt

1008: Intra System Hard Handover

INTER RNC INTER FREQ HO ATTEMPTS FOR RT

inter_hho_att_rt

1008: Intra System Hard Handover

SUCCESSFUL INTER RNC INTER FREQ HO FOR RT

succ_inter_hho_att_rt

1008: Intra System Hard Handover

UNSUCCESSFUL INTER RNC INTER FREQ HO FOR RT

usuc_inter_hho_att_rt

1008: Intra System Hard Handover

RRC CONN DROPS DURING INTER RNC INTER FREQ HO FOR RT

conn_drps_hho_inter_rt

1008: Intra System Hard Handover

INTER FREQ COMPR MODE START NOT POSSIBLE FOR NRT

if_com_mod_sta_not_pos_nrt

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS AFTER COMP MODE MEAS DUE TO UL DCH QUAL FOR NRT

if_hho_w_cmod_ul_dch_q_nrt

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS AFTER COMP MODE MEAS DUE TO UE TRX PWR FOR NRT

if_hho_w_cmod_ue_tx_pwr_nrt

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS AFTER COMP MODE MEAS DUE TO DL DPCH PWR FOR NRT

if_hho_w_cmod_dl_dpch_nrt

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS AFTER COMP MODE MEAS DUE TO CPICH RSCP FOR NRT

if_hho_w_cmod_cpich_rscp_nrt

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS AFTER COMP MODE MEAS DUE TO CPICH ECNO FOR NRT

if_hho_w_cmod_cpich_ecno_nrt

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS if_hho_wo_cmod_ul_dch_q_nrt AFTER MEAS WITHOUT COMP MODE DUE TO UL DCH QUAL FOR NRT

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS if_hho_wo_cmod_ue_tx_nrt AFTER MEAS WITHOUT COMP MODE DUE TO UE TRX PWR FOR NRT

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS if_hho_wo_cmod_dl_cpch_nrt AFTER MEAS WITHOUT COMP MODE DUE TO DL DPCH PWR FOR NRT

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS if_hho_wo_cmod_rscp_nrt AFTER MEAS WITHOUT COMP MODE DUE TO CPICH RSCP FOR NRT

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS if_hho_wo_cmod_ecno_nrt AFTER MEAS WITHOUT COMP MODE DUE TO CPICH ECNO FOR NRT

1008: Intra System Hard Handover

NOT STARTED INTER FREQ HHO BEC OF NO CELL GOOD ENOUGH DUE TO UL DCH QUAL FOR NRT

if_hho_no_cell_ul_dch_q_nrt

1008: Intra System Hard Handover

NOT STARTED INTER FREQ HHO BEC OF NO CELL GOOD ENOUGH DUE TO UE TRX PWR FOR NRT

if_hho_no_cell_ue_tx_pwr_nrt

1008: Intra System Hard Handover

NOT STARTED INTER FREQ HHO BEC OF NO CELL GOOD ENOUGH DUE TO DL DPCH PWR FOR NRT

if_hho_no_cell_dl_dcpch_nrt

1008: Intra System Hard Handover

NOT STARTED INTER FREQ HHO BEC OF NO CELL GOOD ENOUGH DUE TO CPICH RSCP FOR NRT

if_hho_nocell_cpich_rscp_nrt

1008: Intra System Hard Handover

NOT STARTED INTER FREQ HHO BEC OF NO CELL GOOD ENOUGH DUE TO CPICH ECNO FOR NRT

if_hho_nocell_cpich_ecno_nrt

1008: Intra System Hard Handover

INTER FREQ HO ATTEMPTS CAUSED BY UL DCH QUAL FOR NRT

if_hho_att_ul_dch_q_nrt

1008: Intra System Hard Handover

SUCCESSFUL INTER FREQ HANDOVERS CAUSED BY UL DCH QUAL FOR NRT

succ_if_hho_ul_dch_q_nrt

1008: Intra System Hard Handover

UNSUCCESSFUL INTER FREQ unsucc_if_hho_ul_dch_q_nrt HANDOVERS CAUSED BY UL DCH QUAL FOR NRT

1008: Intra System Hard Handover

RRC CONNECTION DROPS DURING INTER FREQ HO CAUSED BY UL DCH QUAL FOR NRT

1008: Intra System Hard Handover

INTER FREQ HO ATTEMPTS if_hho_att_ue_trx_pwr_nrt CAUSED BY UE TRX PWR FOR NRT

1008: Intra System Hard Handover

SUCCESSFUL INTER FREQ HANDOVERS CAUSED BY UE TRX PWR FOR NRT

1008: Intra System Hard Handover

UNSUCCESSFUL INTER FREQ unsucc_if_hho_ue_trx_pwr_nrt HANDOVERS CAUSED BY UE TRX PWR FOR NRT

1008: Intra System Hard Handover

RRC CONNECTION DROPS con_drps_if_hho_ue_pwr_nrt DURING INTER FREQ HO CAUSED BY UE TRX PWR FOR NRT

con_drps_if_hho_ul_dch_q_nrt

succ_if_hho_ue_trx_pwr_nrt

1008: Intra System Hard Handover

INTER FREQ HO ATTEMPTS CAUSED BY DL DPCH PWR FOR NRT

if_hho_att_dl_dpch_pwr_nrt

1008: Intra System Hard Handover

SUCCESSFUL INTER FREQ HANDOVERS CAUSED BY DL DPCH PWR FOR NRT

succ_if_hho_dl_dpch_pwr_nrt

1008: Intra System Hard Handover

UNSUCCESSFUL INTER FREQ unsuc_if_hho_dl_dpch_pwr_nrt HANDOVERS CAUSED BY DL DPCH PWR FOR NRT

1008: Intra System Hard Handover

RRC CONNECTION DROPS DURING INTER FREQ HO CAUSED BY DL DPCH PWR FOR NRT

1008: Intra System Hard Handover

INTER FREQ HO ATTEMPTS if_hho_att_cpich_rscp_nrt CAUSED BY CPICH RSCP FOR NRT

1008: Intra System Hard Handover

SUCCESSFUL INTER FREQ HANDOVERS CAUSED BY CPICH RSCP FOR NRT

1008: Intra System Hard Handover

UNSUCCESSFUL INTER FREQ unsucc_if_hho_cpich_rscp_nrt HANDOVERS CAUSED BY CPICH RSCP FOR NRT

1008: Intra System Hard Handover

RRC CONNECTION DROPS con_drps_if_hho_rscp_nrt DURING INTER FREQ HO CAUSED BY CPICH RSCP FOR NRT

1008: Intra System Hard Handover

INTER FREQ HO ATTEMPTS if_hho_att_cpich_ecno_nrt CAUSED BY CPICH ECNO FOR NRT

1008: Intra System Hard Handover

SUCCESSFUL INTER FREQ HANDOVERS CAUSED BY CPICH ECNO FOR NRT

1008: Intra System Hard Handover

UNSUCCESSFUL INTER FREQ unsucc_if_hho_cpich_ecno_nrt HANDOVERS CAUSED BY CPICH ECNO FOR NRT

1008: Intra System Hard Handover

RRC CONNECTION DROPS con_drps_if_hho_ecno_nrt DURING INTER FREQ HO CAUSED BY CPICH ECNO FOR NRT

con_drps_if_hho_dl_dpch_nrt

succ_if_hho_cpich_rscp_nrt

succ_if_hho_cpich_ecno_nrt

1008: Intra System Hard Handover

INTRA RNC INTRA BTS INTER FREQ HO ATTEMPTS FOR NRT

intra_intra_hho_att_nrt

1008: Intra System Hard Handover

SUCCESSFUL INTRA RNC INTRA BTS INTER FREQ HO FOR NRT

succ_intra_intra_hho_att_nrt

1008: Intra System Hard Handover

UNSUCCESSFUL INTRA RNC INTRA BTS INTER FREQ HO FOR NRT

usuc_intra_intra_hho_att_nrt

1008: Intra System Hard Handover

RRC CONN DROPS DURING INTRA RNC INTRA BTS INTER FREQ HO FOR NRT

con_drps_hho_intra_intra_nrt

1008: Intra System Hard Handover

INTRA RNC INTER BTS INTER FREQ HO ATTEMPTS FOR NRT

intra_inter_hho_att_nrt

1008: Intra System Hard Handover

SUCCESSFUL INTRA RNC INTER BTS INTER FREQ HO FOR NRT

succ_intra_inter_hho_att_nrt

1008: Intra System Hard Handover

UNSUCCESSFUL INTRA RNC INTER BTS INTER FREQ HO FOR NRT

usuc_intra_inter_hho_att_nrt

1008: Intra System Hard Handover

RRC CONN DROPS DURING INTRA RNC INTER BTS INTER FREQ HO FOR NRT

con_drps_hho_intra_inter_nrt

1008: Intra System Hard Handover

INTER RNC INTER FREQ HO ATTEMPTS FOR NRT

inter_hho_att_nrt

1008: Intra System Hard Handover

SUCCESSFUL INTER RNC INTER FREQ HO FOR NRT

succ_inter_hho_att_nrt

1008: Intra System Hard Handover

UNSUCCESSFUL INTER RNC INTER FREQ HO FOR NRT

usuc_inter_hho_att_nrt

1008: Intra System Hard Handover

RRC CONN DROPS DURING INTER RNC INTER FREQ HO FOR NRT

con_drps_hho_inter_nrt

1008: Intra System Hard Handover

NUMBER OF REJECTED SRNS nbr_rej_reloc RELOCATIONS

1008: Intra System Hard Handover

INTER FREQ HO ATTEMPTS CAUSED BY IMSI FOR RT

1008: Intra System Hard Handover

SUCCESSFUL INTER FREQ SUCC_IF_HHO_IM_IMS_RT HANDOVERS CAUSED BY IMSI FOR RT

1008: Intra System Hard Handover

UNSUCCESSFUL INTER FREQ UNSUCC_IF_HHO_IM_IMS_RT HANDOVERS CAUSED BY IMSI FOR RT

1008: Intra System Hard Handover

RRC CONNECTION DROPS DURING INTER FREQ HO CAUSED BY IMSI FOR RT

CON_DRPS_IF_HHO_IM_IMS_ RT

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS AFTER COMP MODE MEAS DUE TO IMSI FOR RT

IF_HHO_W_CMOD_IM_IMS_R T

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS IF_HHO_WO_CMOD_IM_IMS_ AFTER MEAS WITHOUT COMP RT MODE DUE TO IMSI FOR RT

1008: Intra System Hard Handover

NOT STARTED INTER FREQ IF_HHO_NO_CELL_IM_IMS_R HHO BEC OF NO CELL GOOD T ENOUGH DUE TO IMSI FOR RT

1008: Intra System Hard Handover

INTER FREQ HO ATTEMPTS CAUSED BY IMSI FOR NRT

1008: Intra System Hard Handover

SUCCESSFUL INTER FREQ SUCC_IF_HHO_IM_IMS_NRT HANDOVERS CAUSED BY IMSI FOR NRT

1008: Intra System Hard Handover

UNSUCCESSFUL INTER FREQ UNSUCC_IF_HHO_IM_IMS_N HANDOVERS CAUSED BY IMSI RT FOR NRT

1008: Intra System Hard Handover

RRC CONNECTION DROPS DURING INTER FREQ HO CAUSED BY IMSI FOR NRT

IF_HHO_ATT_IM_IMS_RT

IF_HHO_ATT_IM_IMS_NRT

CON_DRPS_IF_HHO_IM_IMS_ NRT

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS AFTER COMP MODE MEAS DUE TO IMSI FOR NRT

IF_HHO_W_CMOD_IM_IMS_N RT

1008: Intra System Hard Handover

INTER FREQ HO DECISIONS IF_HHO_WO_CMOD_IM_IMS_ AFTER MEAS WITHOUT COMP NRT MODE DUE TO IMSI FOR NRT

1008: Intra System Hard Handover

NOT STARTED INTER FREQ HHO BEC OF NO CELL GOOD ENOUGH DUE TO IMSI FOR NRT

IF_HHO_NO_CELL_IM_IMS_N RT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITH COM MOD DUE TO PRXTOTAL FOR RT

IF_HHO_W_CM_LB_PRX_TOT _RT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITH COM MOD DUE TO PTXTOTAL FOR RT

IF_HHO_W_CM_LB_PTX_TOT _RT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITH COM MOD DUE TO RESERVATION RATE SC FOR RT

IF_HHO_W_CM_LB_RSVR_SC _RT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITH COM MOD DUE TO HW OR LOGICAL RESOURCE LIMITATION FOR RT

IF_HHO_W_CM_LB_RES_LIM_ RT

1008: Intra System Hard Handover

SERVICE BASED IFHO MEAS WITH COM MOD FOR RT

IF_HHO_W_CM_SB_RT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITH COM MOD DUE TO PRXTOTAL FOR NRT

IF_HHO_W_CM_LB_PRX_TOT _NRT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITH COM MOD DUE TO PTXTOTAL FOR NRT

IF_HHO_W_CM_LB_PTX_TOT _NRT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS IF_HHO_W_CM_LB_CAPA_UL WITH COM MOD DUE TO CAPA _NRT REJECTION UL FOR NRT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS IF_HHO_W_CM_LB_CAPA_DL WITH COM MOD DUE TO CAPA _NRT REJECTION DL FOR NRT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITH COM MOD DUE TO RESERVATION RATE SC FOR NRT

IF_HHO_W_CM_LB_RSVR_SC _NRT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITH COM MOD DUE TO HW OR LOGICAL RESOURCE LIMITATION FOR NRT

IF_HHO_W_CM_LB_RES_LIM_ NRT

1008: Intra System Hard Handover

SERVICE BASED IFHO MEAS WITH COM MOD FOR NRT

IF_HHO_W_CM_SB_NRT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITHOUT COM MOD DUE TO PRXTOTAL FOR RT

IF_HHO_WO_CM_LB_PRX_TO T_RT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITHOUT COM MOD DUE TO PTXTOTAL FOR RT

IF_HHO_WO_CM_LB_PTX_TO T_RT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITHOUT COM MOD DUE TO RESERVATION RATE SC FOR RT

IF_HHO_WO_CM_LB_RSVR_S C_RT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITHOUT COM MOD DUE TO HW OR LOGICAL RESOURCE LIMITATION FOR RT

IF_HHO_WO_CM_LB_RES_LI M_RT

1008: Intra System Hard Handover

SERVICE BASED IFHO MEAS WITHOUT COM MOD FOR RT

IF_HHO_WO_CM_SB_RT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITHOUT COM MOD DUE TO PRXTOTAL FOR NRT

IF_HHO_WO_CM_LB_PRX_TO T_NRT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITHOUT COM MOD DUE TO PTXTOTAL FOR NRT

IF_HHO_WO_CM_LB_PTX_TO T_NRT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITHOUT COM MOD DUE TO CAPA REJECTION UL FOR NRT

IF_HHO_WO_CM_LB_CAPA_U L_NRT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITHOUT COM MOD DUE TO CAPA REJECTION DL FOR NRT

IF_HHO_WO_CM_LB_CAPA_D L_NRT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITHOUT COM MOD DUE TO RESERVATION RATE SC FOR NRT

IF_HHO_WO_CM_LB_RSVR_S C_NRT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITHOUT COM MOD DUE TO HW OR LOGICAL RESOURCE LIMITATION FOR NRT

IF_HHO_WO_CM_LB_RES_LI M_NRT

1008: Intra System Hard Handover

SERVICE BASED IFHO MEAS IF_HHO_WO_CM_SB_NRT WITHOUT COM MOD FOR NRT

1008: Intra System Hard Handover

NOT STARTED LOAD BASED IFHO BECAUSE NO CELL GOOD ENOUGH DUE TO PRXTOTAL FOR RT

IF_HHO_NOCELL_LB_PRX_T OT_RT

1008: Intra System Hard Handover

NOT STARTED LOAD BASED IFHO BECAUSE NO CELL GOOD ENOUGH DUE TO PTXTOTAL FOR RT

IF_HHO_NOCELL_LB_PTX_TO T_RT

1008: Intra System Hard Handover

NOT STARTED LOAD BASED IFHO BECAUSE NO CELL GOOD ENOUGH DUE TO TO RESERVATION RATE SC FOR RT NOT STARTED LOAD BASED IFHO BECAUSE NO CELL GOOD ENOUGH DUE TO HW OR LOGICAL RESOURCE LIMIT FOR RT NOT STARTED SERVICE BASED IFHO BECAUSE NO CELL GOOD ENOUGH FOR RT

IF_HHO_NOCELL_LB_RSVR_ SC_RT

1008: Intra System Hard Handover

NOT STARTED LOAD BASED IFHO BECAUSE NO CELL GOOD ENOUGH DUE TO PRXTOTAL FOR NRT

IF_HHO_NOCELL_LB_PRX_T OT_NRT

1008: Intra System Hard Handover

NOT STARTED LOAD BASED IFHO BECAUSE NO CELL GOOD ENOUGH DUE TO PTXTOTAL FOR NRT

IF_HHO_NOCELL_LB_PTX_TO T_NRT

1008: Intra System Hard Handover

NOT STARTED LOAD BASED IF_HHO_NOCELL_LB_CAPA_ IFHO BECAUSE NO CELL UL_NRT GOOD ENOUGH DUE TO CAPA REJECTION UL FOR NRT

1008: Intra System Hard Handover

NOT STARTED LOAD BASED IF_HHO_NOCELL_LB_CAPA_ IFHO BECAUSE NO CELL DL_NRT GOOD ENOUGH DUE TO CAPA REJECTION DL FOR NRT

1008: Intra System Hard Handover

1008: Intra System Hard Handover

IF_HHO_NOCELL_LB_RES_LI M_RT

IF_HHO_NOCELL_SB_RT

1008: Intra System Hard Handover

1008: Intra System Hard Handover

1008: Intra System Hard Handover

NOT STARTED LOAD BASED IFHO BECAUSE NO CELL GOOD ENOUGH DUE TO RESERVATION RATE SC FOR NRT NOT STARTED LOAD BASED IFHO BECAUSE NO CELL GOOD ENOUGH DUE TO HW OR LOGICAL RESOURCE LIMIT FOR NRT NOT STARTED SERVICE BASED IFHO BECAUSE NO CELL GOOD ENOUGH FOR NRT

IF_HHO_NOCELL_LB_RSVR_ SC_NRT

IF_HHO_NOCELL_LB_RES_LI M_NRT

IF_HHO_NOCELL_SB_NRT

1008: Intra System Hard Handover

LOAD BASED IFHO ATTEMPTS IF_HHO_ATT_LB_PRX_TOT_R CAUSED BY PRXTOTAL FOR T RT

1008: Intra System Hard Handover

LOAD BASED IFHO ATTEMPTS IF_HHO_ATT_LB_PTX_TOT_R CAUSED BY PTXTOTAL FOR T RT

1008: Intra System Hard Handover

LOAD BASED IFHO ATTEMPTS IF_HHO_ATT_LB_RSVR_SC_R CAUSED BY RESERVATION T RATE SC FOR RT

1008: Intra System Hard Handover

LOAD BASED IFHO ATTEMPTS IF_HHO_ATT_LB_RES_LIM_R CAUSED BY HW OR LOGICAL T RESOURCE LIMITATION FOR RT

1008: Intra System Hard Handover

SERVICE BASED IFHO ATTEMPTS FOR RT

1008: Intra System Hard Handover

LOAD BASED IFHO ATTEMPTS IF_HHO_ATT_LB_PRX_TOT_N CAUSED BY PRXTOTAL FOR RT NRT

1008: Intra System Hard Handover

LOAD BASED IFHO ATTEMPTS IF_HHO_ATT_LB_PTX_TOT_N CAUSED BY PTXTOTAL FOR RT NRT

1008: Intra System Hard Handover

LOAD BASED IFHO ATTEMPTS IF_HHO_ATT_LB_CAPA_UL_N CAUSED BY CAPA REJECTION RT UL FOR NRT

1008: Intra System Hard Handover

LOAD BASED IFHO ATTEMPTS IF_HHO_ATT_LB_CAPA_DL_N CAUSED BY CAPA REJECTION RT DL FOR NRT

IF_HHO_ATT_SB_RT

1008: Intra System Hard Handover

LOAD BASED IFHO ATTEMPTS IF_HHO_ATT_LB_RSVR_SC_N CAUSED BY RESERVATION RT RATE SC FOR NRT

1008: Intra System Hard Handover

LOAD BASED IFHO ATTEMPTS IF_HHO_ATT_LB_RES_LIM_N CAUSED BY HW OR LOGICAL RT RESOURCE LIMITATION FOR NRT

1008: Intra System Hard Handover

SERVICE BASED IFHO ATTEMPTS FOR NRT

IF_HHO_ATT_SB_NRT

1008: Intra System Hard Handover

SUCCESSFUL LOAD BASED IFHO CAUSED BY PRXTOTAL FOR RT

SUCC_IF_HHO_LB_PRX_TOT _RT

1008: Intra System Hard Handover

SUCCESSFUL LOAD BASED IFHO CAUSED BY PTXTOTAL FOR RT

SUCC_IF_HHO_LB_PTX_TOT_ RT

1008: Intra System Hard Handover

SUCCESSFUL IFHO CAUSED BY RESERVATION RATE SC FOR RT

SUCC_IF_HHO_LB_RSVR_SC _RT

1008: Intra System Hard Handover

SUCCESSFUL IFHO CAUSED BY HW OR LOGICAL RESOURCE LIMITATION FOR RT

SUCC_IF_HHO_LB_RES_LIM_ RT

1008: Intra System Hard Handover

SUCCESSFUL SERVICE BASED IFHO FOR RT

SUCC_IF_HHO_SB_RT

1008: Intra System Hard Handover

SUCCESSFUL LOAD BASED IFHO CAUSED BY PRXTOTAL FOR NRT

SUCC_IF_HHO_LB_PRX_TOT _NRT

1008: Intra System Hard Handover

SUCCESSFUL LOAD BASED IFHO CAUSED BY PTXTOTAL FOR NRT

SUCC_IF_HHO_LB_PTX_TOT_ NRT

1008: Intra System Hard Handover

SUCCESSFUL IFHO CAUSED BY CAPA REJECTION UL FOR NRT

SUCC_IF_HHO_LB_CAPA_UL _NRT

1008: Intra System Hard Handover

SUCCESSFUL IFHO CAUSED BY CAPA REJECTION DL FOR NRT

SUCC_IF_HHO_LB_CAPA_DL _NRT

1008: Intra System Hard Handover

SUCCESSFUL IFHO CAUSED BY RESERVATION RATE SC FOR NRT

SUCC_IF_HHO_LB_RSVR_SC _NRT

1008: Intra System Hard Handover

SUCCESSFUL IFHO CAUSED BY HW OR LOGICAL RESOURCE LIMITATION FOR NRT

SUCC_IF_HHO_LB_RES_LIM_ NRT

1008: Intra System Hard Handover

SUCCESSFUL SERVICE BASED IFHO FOR NRT

SUCC_IF_HHO_SB_NRT

1008: Intra System Hard Handover

UNSUCCESSFUL LOAD BASED UNSUCC_IF_HHO_LB_PRX_T IFHO CAUSED BY PRXTOTAL OT_RT FOR RT

1008: Intra System Hard Handover

UNSUCCESSFUL LOAD BASED UNSUCC_IF_HHO_LB_PTX_T IFHO CAUSED BY PTXTOTAL OT_RT FOR RT

1008: Intra System Hard Handover

UNSUCCESSFUL IFHO CAUSED BY RESERVATION RATE SC FOR RT

UNSUCC_IF_HHO_LB_RSVR_ SC_RT

1008: Intra System Hard Handover

UNSUCCESSFUL IFHO CAUSED BY HW OR LOGICAL RESOURCE LIMITATION FOR RT

UNSUCC_IF_HHO_LB_RES_LI M_RT

1008: Intra System Hard Handover

UNSUCCESSFUL SERVICE BASED IFHO FOR RT

UNSUCC_IF_HHO_SB_RT

1008: Intra System Hard Handover

UNSUCCESSFUL LOAD BASED UNSUCC_IF_HHO_LB_PRX_T IFHO CAUSED BY PRXTOTAL OT_NRT FOR NRT

1008: Intra System Hard Handover

UNSUCCESSFUL LOAD BASED UNSUCC_IF_HHO_LB_PTX_T IFHO CAUSED BY PTXTOTAL OT_NRT FOR NRT

1008: Intra System Hard Handover

UNSUCCESSFUL IFHO UNSUCC_IF_HHO_LB_CAPA_ CAUSED BY CAPA REJECTION UL_NRT UL FOR NRT

1008: Intra System Hard Handover

UNSUCCESSFUL IFHO UNSUCC_IF_HHO_LB_CAPA_ CAUSED BY CAPA REJECTION DL_NRT DL FOR NRT

1008: Intra System Hard Handover

UNSUCCESSFUL IFHO CAUSED BY RESERVATION RATE SC FOR NRT

UNSUCC_IF_HHO_LB_RSVR_ SC_NRT

1008: Intra System Hard Handover

UNSUCCESSFUL IFHO CAUSED BY HW OR LOGICAL RESOURCE LIMITATION FOR NRT

UNSUCC_IF_HHO_LB_RES_LI M_NRT

1008: Intra System Hard Handover

UNSUCCESSFUL SERVICE BASED IFHO FOR NRT

UNSUCC_IF_HHO_SB_NRT

1008: Intra System Hard Handover

RRC CONNECTION DROPS DURING LOAD BASED IFHO CAUSED BY PRXTOTAL FOR RT

CONDR_IF_HHO_LB_PRX_TO T_RT

1008: Intra System Hard Handover

RRC CONNECTION DROPS DURING LOAD BASED IFHO CAUSED BY PTXTOTAL FOR RT

CONDR_IF_HHO_LB_PTX_TO T_RT

1008: Intra System Hard Handover

RRC CONNECTION DROPS DURING IFHO CAUSED BY RESERVATION RATE SC FOR RT

CONDR_IF_HHO_LB_RSVR_S C_RT

1008: Intra System Hard Handover

RRC CONNECTION DROPS CONDR_IF_HHO_LB_RES_LI DURING IFHO CAUSED BY HW M_RT OR LOGICAL RESOURCE LIMITATION FOR RT

1008: Intra System Hard Handover

RRC CONNECTION DROPS DURING SERVICE BASED IFHO FOR RT

CONDR_IF_HHO_SB_RT

1008: Intra System Hard Handover

RRC CONNECTION DROPS DURING LOAD BASED IFHO CAUSED BY PRXTOTAL FOR NRT

CONDR_IF_HHO_LB_PRX_TO T_NRT

1008: Intra System Hard Handover

RRC CONNECTION DROPS DURING LOAD BASED IFHO CAUSED BY PTXTOTAL FOR NRT

CONDR_IF_HHO_LB_PTX_TO T_NRT

1008: Intra System Hard Handover

RRC CONNECTION DROPS IFHO CAUSED BY CAPA REJECTION UL FOR NRT

CONDR_IF_HHO_LB_CAPA_U L_NRT

1008: Intra System Hard Handover

RRC CONNECTION DROPS IFHO CAUSED BY CAPA REJECTION DL FOR NRT

CONDR_IF_HHO_LB_CAPA_D L_NRT

1008: Intra System Hard Handover

RRC CONNECTION DROPS DURING IFHO CAUSED BY RESERVATION RATE SC FOR NRT

CONDR_IF_HHO_LB_RSVR_S C_NRT

1008: Intra System Hard Handover

RRC CONNECTION DROPS CONDR_IF_HHO_LB_RES_LI DURING IFHO CAUSED BY HW M_NRT OR LOGICAL RESOURCE LIMITATION FOR NRT

1008: Intra System Hard Handover

RRC CONNECTION DROPS DURING SERVICE BASED IFHO FOR NRT

CONDR_IF_HHO_SB_NRT

1008: Intra System Hard Handover

HS-DSCH SERVING CELL CHANGES STARTED DUE TO CPICH EC/NO

SCC_STARTED_CPICH_ECNO

1008: Intra System Hard Handover

HS-DSCH SERVING CELL CHANGES STARTED DUE TO UL SIR ERROR

SCC_STARTED_UL_SIR_ERR OR

1008: Intra System Hard Handover

HS-DSCH SERVING CELL CHANGES STARTED DUE TO ACTIVE SET UPDATE

SCC_STARTED_ACTIVE_SET _UPD

1008: Intra System Hard Handover

HS-DSCH SERVING CELL CHANGES STARTED DUE TO OTHER REASON

SCC_STARTED_OTHER_REA SON

1008: Intra System Hard Handover

HS-DSCH SERVING CELL SCC_FAILED_DUE_TO_UE CHANGES FAILED DUE TO UE

1008: Intra System Hard Handover

HS-DSCH SERVING CELL CHANGES FAILED DUE TO BTS

SCC_FAILED_DUE_TO_BTS

1008: Intra System Hard Handover

HS-DSCH SERVING CELL CHANGES FAILED DUE TO TRANSPORT

SCC_FAILED_DUE_TO_TRAN SM

1008: Intra System Hard Handover

HS-DSCH SERVING CELL SCC_FAILED_DUE_TO_AC CHANGES FAILED DUE TO AC

1008: Intra System Hard Handover

HS-DSCH SERVING CELL CHANGES FAILED DUE TO OTHER REASON

SCC_FAILED_DUE_TO_OTHE R

1008: Intra System Hard Handover

HS-DSCH INTRA BTS SERVING SCC_INTRA_BTS_SUCCESSF CELL CHANGES SUCCESSFUL UL

1008: Intra System Hard Handover

HS-DSCH INTER BTS SERVING SCC_INTER_BTS_SUCCESSF CELL CHANGES SUCCESSFUL UL

1008: Intra System Hard Handover

HS-DSCH SERVING CELL CHANGES PREVENTED DUE TO TIMER

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS IF_HHO_W_CM_LB_CAPA_UL WITH COM MOD DUE TO CAPA _RT REJECTION UL FOR RT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS IF_HHO_W_CM_LB_CAPA_DL WITH COM MOD DUE TO CAPA _RT REJECTION DL FOR RT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITHOUT COM MOD DUE TO CAPA REJECTION UL FOR RT

IF_HHO_WO_CM_LB_CAPA_U L_RT

1008: Intra System Hard Handover

LOAD BASED IFHO MEAS WITHOUT COM MOD DUE TO CAPA REJECTION DL FOR RT

IF_HHO_WO_CM_LB_CAPA_D L_RT

1008: Intra System Hard Handover

NOT STARTED LOAD BASED IF_HHO_NOCELL_LB_CAPA_ IFHO BECAUSE NO CELL UL_RT GOOD ENOUGH DUE TO CAPA REJECTION UL FOR RT

1008: Intra System Hard Handover

NOT STARTED LOAD BASED IF_HHO_NOCELL_LB_CAPA_ IFHO BECAUSE NO CELL DL_RT GOOD ENOUGH DUE TO CAPA REJECTION DL FOR RT

1008: Intra System Hard Handover

LOAD BASED IFHO ATTEMPTS IF_HHO_ATT_LB_CAPA_UL_R CAUSED BY CAPA REJECTION T UL FOR RT

1008: Intra System Hard Handover

LOAD BASED IFHO ATTEMPTS IF_HHO_ATT_LB_CAPA_DL_R CAUSED BY CAPA REJECTION T DL FOR RT

1008: Intra System Hard Handover

SUCCESSFUL IFHO CAUSED BY CAPA REJECTION UL FOR RT

SCC_PREVENTED_DUE_TO_ TIMER

SUCC_IF_HHO_LB_CAPA_UL _RT

1008: Intra System Hard Handover

SUCCESSFUL IFHO CAUSED BY CAPA REJECTION DL FOR RT

SUCC_IF_HHO_LB_CAPA_DL _RT

1008: Intra System Hard Handover

UNSUCCESSFUL IFHO UNSUCC_IF_HHO_LB_CAPA_ CAUSED BY CAPA REJECTION UL_RT UL FOR RT

1008: Intra System Hard Handover

UNSUCCESSFUL IFHO UNSUCC_IF_HHO_LB_CAPA_ CAUSED BY CAPA REJECTION DL_RT DL FOR RT

1008: Intra System Hard Handover

RRC CONNECTION DROPS IFHO CAUSED BY CAPA REJECTION UL FOR RT

CONDR_IF_HHO_LB_CAPA_U L_RT

1008: Intra System Hard Handover

RRC CONNECTION DROPS IFHO CAUSED BY CAPA REJECTION DL FOR RT

CONDR_IF_HHO_LB_CAPA_D L_RT

1008: Intra System Hard Handover

E-DCH SERVING CELL CHANGES STARTED

EDCH_SCC_STARTED

1008: Intra System Hard Handover

E-DCH INTRA BTS SERVING EDCH_SCC_INTRA_BTS_SUC CELL CHANGES SUCCESSFUL CESS

1008: Intra System Hard Handover

E-DCH INTER BTS SERVING EDCH_SCC_INTER_BTS_SUC CELL CHANGES SUCCESSFUL CESS

1008: Intra System Hard Handover

E-DCH DOWNGRADED TO DCH IN SCC

EDCH_DOWNG_DCH_IN_SCC

1008: Intra System Hard Handover

INTER RNC HHO ATTEMPTS DUE TO HSPA SCC

INTER_RNC_HHO_ATT_HSPA _SCC

1008: Intra System Hard Handover

SUCCESSFUL INTER RNC HHO DUE TO HSPA SCC

INTER_RNC_HHO_SUCC_HS PA_SCC

1008: Intra System Hard Handover

UNSUCCESSFUL INTER RNC HHO CAUSED BY HSPA SCC

UNSUCC_INTER_RNC_HHO_ SCC

1008: Intra System Hard Handover

CONNECTION DROPS DURING INTER_RNC_HHO_DROP_SC INTER RNC HHO CAUSED BY C HSPA SCC

1008: Intra System Hard Handover

HSPA IFHO MEAS START ATTEMPTS

ATT_HSPA_IFHO_MEAS

1008: Intra System Hard Handover

HSPA IFHO MEAS START FAILURES

FAIL_HSPA_IFHO_MEAS

1008: Intra System Hard Handover

NOT STARTED HSPA IFHO BECAUSE NO CELL GOOD ENOUGH

NOT_START_HSPA_IFHO_NO _CELL

1008: Intra System Hard Handover

HSPA INTRA-RNC IFHO ATTEMPTS

ATT_HSPA_INTRA_IFHO

1008: Intra System Hard Handover

HSPA INTER-RNC IFHO ATTEMPTS

ATT_HSPA_INTER_IFHO

1008: Intra System Hard Handover

SUCCESSFUL HSPA INTRARNC IFHO TO REL99

SUCC_HSPA_INTRA_IFHO_R EL99

1008: Intra System Hard Handover

SUCCESSFUL HSPA INTRARNC IFHO TO HSDPA

SUCC_HSPA_INTRA_IFHO_H SDPA

1008: Intra System Hard Handover

SUCCESSFUL HSPA INTRARNC IFHO TO HSUPA

SUCC_HSPA_INTRA_IFHO_H SUPA

1008: Intra System Hard Handover

SUCCESSFUL HSPA INTERRNC IFHO

SUCC_HSPA_INTER_IFHO

1008: Intra System Hard Handover

FAILED HSPA INTRA-RNC IFHO DUE TO UTRAN

FAIL_HSPA_INTRA_IFHO_UT RAN

1008: Intra System Hard Handover

FAILED HSPA INTER-RNC IFHO DUE TO UTRAN

FAIL_HSPA_INTER_IFHO_UT RAN

1008: Intra System Hard Handover

FAILED HSPA INTRA-RNC IFHO DUE TO UE NACK

FAIL_HSPA_INTRA_IFHO_UE_ NACK

1008: Intra System Hard Handover

FAILED HSPA INTER-RNC IFHO DUE TO UE NACK

FAIL_HSPA_INTER_IFHO_UE_ NACK

1008: Intra System Hard Handover

FAILED HSPA INTRA-RNC IFHO DUE TO UE LOST

FAIL_HSPA_INTRA_IFHO_UE_ LOST

1008: Intra System Hard Handover

FAILED HSPA INTER-RNC IFHO DUE TO UE LOST

FAIL_HSPA_INTER_IFHO_UE_ LOST

1008: Intra System Hard Handover

IFHO MEAS START ATTEMPTS ATT_HCAP_IFHO_MEAS DUE TO HSPA CAPA

1008: Intra System Hard Handover

IFHO MEAS START FAILURES DUE TO HSPA CAPA

1008: Intra System Hard Handover

NOT STARTED IFHO BECAUSE NOT_START_HCAP_IFHO_NO NO CELL GOOD ENOUGH DUE _CELL TO HSPA CAPA

1008: Intra System Hard Handover

INTRA-RNC IFHO ATTEMPTS DUE TO HSPA CAPA

ATT_HCAP_INTRA_IFHO

1008: Intra System Hard Handover

INTER-RNC IFHO ATTEMPTS DUE TO HSPA CAPA

ATT_HCAP_INTER_IFHO

1008: Intra System Hard Handover

SUCCESSFUL INTRA-RNC IFHO DUE TO HSPA CAPA

SUCC_HCAP_INTRA_IFHO

1008: Intra System Hard Handover

SUCCESSFUL INTER-RNC IFHO DUE TO HSPA CAPA

SUCC_HCAP_INTER_IFHO

1008: Intra System Hard Handover

FAILED HSPA CAPA FAIL_HCAP_INTRA_IFHO_UT TRIGGERED INTRA-RNC IFHO RAN DUE TO UTRAN

FAIL_HCAP_IFHO_MEAS

1008: Intra System Hard Handover

FAILED HSPA CAPA FAIL_HCAP_INTER_IFHO_UT TRIGGERED INTER-RNC IFHO RAN DUE TO UTRAN

1008: Intra System Hard Handover

FAILED HSPA CAPA FAIL_HCAP_INTRA_IFHO_UE_ TRIGGERED INTRA-RNC IFHO NACK DUE TO UE NACK

1008: Intra System Hard Handover

FAILED HSPA CAPA FAIL_HCAP_INTER_IFHO_UE_ TRIGGERED INTER-RNC IFHO NACK DUE TO UE NACK

1008: Intra System Hard Handover

FAILED HSPA CAPA FAIL_HCAP_INTRA_IFHO_UE_ TRIGGERED INTRA-RNC IFHO LOST DUE TO UE LOST

1008: Intra System Hard Handover

FAILED HSPA CAPA FAIL_HCAP_INTER_IFHO_UE_ TRIGGERED INTER-RNC IFHO LOST DUE TO UE LOST

1008: Intra System Hard Handover

HS-DSCH INTER RNC SERVING CELL CHANGES SUCCESSFUL

SCC_INTER_RNC_SUCCESS

1008: Intra System Hard Handover

HS-DSCH INTER RNC SERVING CELL CHANGE FAILURES

SCC_INTER_RNC_FAIL

1008: Intra System Hard Handover

E-DCH INTER RNC SERVING EDCH_SCC_INTER_RNC_SUC CELL CHANGES SUCCESSFUL CESS

1008: Intra System Hard Handover

E-DCH INTER RNC SERVING CELL CHANGE FAILURES

1008: Intra System Hard Handover

INTER FREQ HO ATTEMPTS ATT_IFHO_CELL_SHUTDOWN FORCED BY CELL SHUTDOWN _NRT FOR NRT

1008: Intra System Hard Handover

INTER FREQ HO ATTEMPTS ATT_IFHO_CELL_SHUTDOWN FORCED BY CELL SHUTDOWN _RT FOR RT

1008: Intra System Hard Handover

SUCCESSFUL INTER FREQ HO SUCC_IFHO_CELL_SHUTDO FORCED BY CELL SHUTDOWN WN_NRT FOR NRT

EDCH_SCC_INTER_RNC_FAIL

1008: Intra System Hard Handover

SUCCESSFUL INTER FREQ HO SUCC_IFHO_CELL_SHUTDO FORCED BY CELL SHUTDOWN WN_RT FOR RT

1008: Intra System Hard Handover

INTER FREQ HO ATTEMPTS FORCED BY BLOCK RESOURCE FOR NRT

ATT_IFHO_CELL_BLOCK_NRT

1008: Intra System Hard Handover

INTER FREQ HO ATTEMPTS FORCED BY BLOCK RESOURCE FOR RT

ATT_IFHO_CELL_BLOCK_RT

1008: Intra System Hard Handover

SUCCESSFUL INTER FREQ HO SUCC_IFHO_CELL_BLOCK_N FORCED BY BLOCK RT RESOURCE FOR NRT

1008: Intra System Hard Handover

SUCCESSFUL INTER FREQ HO SUCC_IFHO_CELL_BLOCK_R FORCED BY BLOCK T RESOURCE FOR RT

1008: Intra System Hard Handover

HSUPA IFHO ATTEMPTS

ATT_HSUPA_IFHO

1008: Intra System Hard Handover

SUCCESSFUL HSUPA IFHO

SUCC_HSUPA_IFHO

1008: Intra System Hard Handover

MBLB IFHO ATTEMPTS WITH UE BAND CAPA

ATT_MBLB_IFHO_UE_BAND_ CAPA

1008: Intra System Hard Handover

MBLB IFHO ATTEMPTS WITH SERVICE AND UE FEATURE CAPA

ATT_MBLB_IFHO_SERVICE_U E_CAP

1008: Intra System Hard Handover

MBLB IFHO ATTEMPTS WITH RSCP

ATT_MBLB_IFHO_RSCP

1008: Intra System Hard Handover

MBLB IFHO ATTEMPTS WITH LOAD

ATT_MBLB_IFHO_LOAD

1008: Intra System Hard Handover

SUCCESSFUL MBLB IFHO

SUCC_MBLB_IFHO

1008: Intra System Hard Handover

FAILED MBLB IFHO DUE TO UTRAN

FAIL_MBLB_IFHO_UTRAN

1008: Intra System Hard Handover

FAILED MBLB IFHO DUE TO UE NACK

FAIL_MBLB_IFHO_UE_NACK

1008: Intra System Hard Handover

FAILED MBLB IFHO DUE TO UE LOST

FAIL_MBLB_IFHO_UE_LOST

1008: Intra System Hard Handover

MBLB IFHO ATTEMPTS DUE FAST MOVING UE

ATT_MBLB_IFHO_FAST_UE

1008: Intra System Hard Handover

NOT STARTED MBLB IFHO DUE TO NO CELL GOOD ENOUGH

NOT_START_MBLB_IFHO_NO _CELL

1008: Intra System Hard Handover

IFHO MEAS START ATTEMPTS ATT_MBLB_IFHO_MEAS DUE TO MBLB

1008: Intra System Hard Handover

IFHO MEAS START FAILURES DUE TO MBLB

FAIL_MBLB_IFHO_MEAS

1008: Intra System Hard Handover

MBLB BLIND HO ATTEMPTS WITH UE BAND CAPA

ATT_BLHO_UE_BAND_CAPA

1008: Intra System Hard Handover

MBLB BLIND HO ATTEMPTS WITH SERVICE AND UE FEATURE CAPA

ATT_BLHO_SERVICE_UE_CA P

1008: Intra System Hard Handover

MBLB BLIND HO ATTEMPTS WITH RSCP

ATT_BLHO_RSCP

1008: Intra System Hard Handover

MBLB BLIND HO ATTEMPTS WITH LOAD

ATT_BLHO_LOAD

1008: Intra System Hard Handover

MBLB BLIND HO ATTEMPTS USING HSPA LOAD BYPASS

ATT_BLHO_HSPA_LOAD_BYP ASS

1008: Intra System Hard Handover

MBLB IFHO ATTEMPTS USING ATT_MBLB_IFHO_HSPA_LOA HSPA LOAD BYPASS D_BYPA

1008: Intra System Hard Handover

BLOCKED MBLB IFHO DUE SLHO LOAD

BLOCKED_MBLB_IFHO_SLHO _LOAD

1008: Intra System Hard Handover

BLOCKED MBLB BLHO DUE SLHO LOAD

BLOCKED_MBLB_BLHO_SLH O_LOAD

1008: Intra System Hard Handover

BLOCKED MBLB IFHO DUE HSPA LOAD

BLOCKED_MBLB_IFHO_HSPA _LOAD

1008: Intra System Hard Handover

BLOCKED MBLB BLHO DUE HSPA LOAD

BLOCKED_MBLB_BLHO_HSP A_LOAD

1008: Intra System Hard Handover

SUCCESSFUL MBLB BLIND HO SUCC_MBLB_BLHO

1008: Intra System Hard Handover

IFHO SUCCESS FOR CS + PS ACTIVE MULTIRAB

IFHO_SUCC_CS_PS_ACT_MR AB

1008: Intra System Hard Handover

IFHO FAILURE FOR CS + PS ACTIVE MULTIRAB

IFHO_FAIL_CS_PS_ACT_MRA B

1008: Intra System Hard Handover

IFHO ATTEMPTS TO ALLOWED ATT_IFHO_IDLE_CS LAYER FOR CS INIT FROM IDLE

1008: Intra System Hard Handover

FAILED IFHO TO ALLOWED LAYER FOR CS INIT FROM IDLE DUE TO PREPARATION FAILURE

FAIL_IFHO_IDLE_CS_PRE

1008: Intra System Hard Handover

FAILED IFHO TO ALLOWED LAYER FOR CS INIT FROM IDLE DUE TO UE LOST

FAIL_IFHO_IDLE_CS_UE_LOS T

1008: Intra System Hard Handover

FAILED IFHO TO ALLOWED LAYER FOR CS INIT FROM IDLE DUE TO UE REJECT

FAIL_IFHO_IDLE_CS_UE_REJ

1008: Intra System Hard Handover

IFHO ATTEMPTS TO ALLOWED ATT_IFHO_CCH_CS LAYER FOR CS INIT FROM FACH/PCH

1008: Intra System Hard Handover

FAILED IFHO TO ALLOWED LAYER FOR CS INIT FROM FACH/PCH DUE TO PREPARATION FAILURE

FAIL_IFHO_CCH_CS_PRE

1008: Intra System Hard Handover

FAILED IFHO TO ALLOWED LAYER FOR CS INIT FROM FACH/PCH DUE TO UE LOST

FAIL_IFHO_CCH_CS_UE_LOS T

1008: Intra System Hard Handover

FAILED IFHO TO ALLOWED LAYER FOR CS INIT FROM FACH/PCH DUE TO UE REJECT

FAIL_IFHO_CCH_CS_UE_REJ

1008: Intra System Hard Handover

IFHO ATTEMPTS TO ALLOWED ATT_IFHO_FOR_PS LAYER FOR PS CALL

1008: Intra System Hard Handover

FAILED IFHO TO ALLOWED LAYER FOR PS CALL DUE TO PREPARATION FAILURE

FAIL_IFHO_FOR_PS_PRE

1008: Intra System Hard Handover

FAILED IFHO TO ALLOWED LAYER FOR PS CALL DUE TO UE LOST

FAIL_IFHO_FOR_PS_UE_LOS T

1008: Intra System Hard Handover

FAILED IFHO TO ALLOWED LAYER FOR PS CALL DUE TO UE REJECT

FAIL_IFHO_FOR_PS_UE_REJ

1008: Intra System Hard Handover

DECISION FOR IFHO FROM IFHO_DECI_BAD_CI WCDMA LTE BORDER DUE TO BAD CI RATIO

1008: Intra System Hard Handover

TIMES OF IFHO MEAS FROM IFHO_MEAS_BAD_CI_NO_AT WCDMA LTE BORDER DUE TO MP BAD CI RATIO END WITHOUT IFHO ATTEMPT

1008: Intra System Hard Handover

ATTEMPTS FOR IFHO FROM IFHO_ATMP_BAD_CI WCDMA LTE BORDER DUE TO BAD CI RATIO

1008: Intra System Hard Handover

SUCCESS IFHO FROM WCDMA SUCC_IFHO_BAD_CI LTE BORDER DUE TO BAD CI RATIO

1008: Intra System Hard Handover

FAILED IFHO FROM WCDMA LTE BORDER DUE TO BAD CI RATIO

FAIL_IFHO_BAD_CI

1008: Intra System Hard Handover

CONNECTION DROPS DURING CONN_DROP_IFHO_BAD_CI IFHO FROM WCDMA LTE BORDER DUE TO BAD CI RATIO

1008: Intra System Hard Handover

CPICH RSCP MEASUREMENT CPICH_RSCP_MEAS_IFHO RESULT OF ACTIVE SET CELL FOR IFHO FROM WCDMA LTE BORDER

1008: Intra System Hard Handover

DECISION FOR IFHO FROM IFHO_DECI_CPICH_RSCP WCDMA LTE BORDER DUE TO CPICH RSCP

1008: Intra System Hard Handover

TIMES OF IFHO MEAS FROM IFHO_MEAS_CPICH_RSCP_N WCDMA LTE BORDER DUE TO O_ATMP CPICH RSCP END WITHOUT IFHO ATTEMPT

1008: Intra System Hard Handover

ATTEMPTS FOR IFHO FROM IFHO_ATMP_CPICH_RSCP WCDMA LTE BORDER DUE TO CPICH RSCP

1008: Intra System Hard Handover

SUCCESS IFHO FROM WCDMA SUCC_IFHO_CPICH_RSCP LTE BORDER DUE TO CPICH RSCP

1008: Intra System Hard Handover

FAILED IFHO FROM WCDMA LTE BORDER DUE TO CPICH RSCP

1008: Intra System Hard Handover

CONNECTION DROPS DURING CONN_DROP_IFHO_CPICH_R IFHO FROM WCDMA LTE SCP BORDER DUE TO CPICH RSCP

1009: L3 Relocation signalling

RELOC COMMIT IN SOURCE RNC

reloc_commit_source_rnc

1009: L3 Relocation signalling

RELOC COMMIT IN TARGET RNC

reloc_commit_target_rnc

1009: L3 Relocation signalling

SRNS RELOC OUT PREP REQ srns_reloc_out_req_contr_msc CONTR BY MSC

FAIL_IFHO_CPICH_RSCP

1009: L3 Relocation signalling

SRNS RELOC OUT PREP REQ srns_rel_out_req_contr_sgsn CONTR BY SGSN

1009: L3 Relocation signalling

SRNS RELOC OUT PREP REQ srns_reloc_out_req_contr_2cn CONTR BY 2CN

1009: L3 Relocation signalling

SRNS RELOC OUT PREP SUCC CONTR BY MSC

srns_rel_out_succ_contr_msc

1009: L3 Relocation signalling

SRNS RELOC OUT PREP SUCC CONTR BY SGSN

srns_rel_out_succ_contr_sgsn

1009: L3 Relocation signalling

SRNS RELOC OUT PREP SUCC CONTR BY 2CN

srns_rel_out_succ_contr_2cn

1009: L3 Relocation signalling

SRNS RELOC OUT PREP srns_rel_out_uctr_msc_rnl UNSUCC CONTR BY MSC DUE TO RN LAYER CAUSE

1009: L3 Relocation signalling

SRNS RELOC OUT PREP srns_rel_out_uctr_msc_trl UNSUCC CONTR BY MSC DUE TO TR LAYER CAUSE

1009: L3 Relocation signalling

SRNS RELOC OUT PREP srns_rel_out_uctr_msc_nas UNSUCC CONTR BY MSC DUE TO NAS CAUSE

1009: L3 Relocation signalling

SRNS RELOC OUT PREP srns_rel_out_uctr_msc_prot UNSUCC CONTR BY MSC DUE TO PROT CAUSE

1009: L3 Relocation signalling

SRNS RELOC OUT PREP srns_rel_out_uctr_msc_misc UNSUCC CONTR BY MSC DUE TO MISC CAUSE

1009: L3 Relocation signalling

SRNS RELOC OUT PREP srns_rel_out_uctr_msc_nst UNSUCC CONTR BY MSC DUE TO NON STAN CAUSE

1009: L3 Relocation signalling

SRNS RELOC OUT PREP UNSUCC CONTR BY SGSN DUE TO RN LAYER CAUSE

srns_rel_out_uctr_sgsn_rnl

1009: L3 Relocation signalling

SRNS RELOC OUT PREP UNSUCC CONTR BY SGSN DUE TO TR LAYER CAUSE

srns_rel_out_uctr_sgsn_trl

1009: L3 Relocation signalling

SRNS RELOC OUT PREP UNSUCC CONTR BY SGSN DUE TO NAS CAUSE

srns_rel_out_uctr_sgsn_nas

1009: L3 Relocation signalling

SRNS RELOC OUT PREP UNSUCC CONTR BY SGSN DUE TO PROT CAUSE

srns_rel_out_uctr_sgsn_prot

1009: L3 Relocation signalling

SRNS RELOC OUT PREP UNSUCC CONTR BY SGSN DUE TO MISC CAUSE

srns_rel_out_uctr_sgsn_misc

1009: L3 Relocation signalling

SRNS RELOC OUT PREP UNSUCC CONTR BY SGSN DUE TO NON STAN CAUSE

srns_rel_out_uctr_sgsn_nst

1009: L3 Relocation signalling

SRNS RELOC OUT PREP srns_rel_out_uctr_2cn_rnl UNSUCC CONTR BY 2CN DUE TO RN LAYER CAUSE

1009: L3 Relocation signalling

SRNS RELOC OUT PREP srns_rel_out_uctr_2cn_trl UNSUCC CONTR BY 2CN DUE TO TR LAYER CAUSE

1009: L3 Relocation signalling

SRNS RELOC OUT PREP srns_rel_out_uctr_2cn_nas UNSUCC CONTR BY 2CN DUE TO NAS CAUSE

1009: L3 Relocation signalling

SRNS RELOC OUT PREP srns_rel_out_uctr_2cn_prot UNSUCC CONTR BY 2CN DUE TO PROT CAUSE

1009: L3 Relocation signalling

SRNS RELOC OUT PREP srns_rel_out_uctr_2cn_misc UNSUCC CONTR BY 2CN REC FROM SGSN DUE MISC CAUSE

1009: L3 Relocation signalling

SRNS RELOC OUT PREP srns_rel_out_uctr_2cn_nst UNSUCC CONTR BY 2CN DUE NON STAN CAUSE

1009: L3 Relocation signalling

SRNS RELOC IN PREP REQ CONTR BY MSC

srns_reloc_in_req_contr_msc

1009: L3 Relocation signalling

SRNS RELOC IN PREP REQ CONTR BY SGSN

srns_reloc_in_req_contr_sgsn

1009: L3 Relocation signalling

SRNS RELOC IN PREP REQ CONTR BY 2CN

srns_reloc_req_contr_2cn

1009: L3 Relocation signalling

SRNS RELOC IN PREP SUCC CONTR BY MSC

srns_reloc_in_succ_contr_msc

1009: L3 Relocation signalling

SRNS RELOC IN PREP SUCC CONTR BY SGSN

srns_rel_in_succ_contr_sgsn

1009: L3 Relocation signalling

SRNS RELOC IN PREP SUCC CONTR BY 2CN

srns_reloc_succ_contr_2cn

1009: L3 Relocation signalling

SRNS RELOC IN PREP srns_rel_in_uctr_msc_rnl UNSUCC CONTR BY MSC DUE TO RN LAYER CAUSE

1009: L3 Relocation signalling

SRNS RELOC IN PREP srns_rel_in_uctr_msc_trl UNSUCC CONTR BY MSC DUE TO TR CAUSE

1009: L3 Relocation signalling

SRNS RELOC IN PREP srns_rel_in_uctr_msc_nas UNSUCC CONTR BY MSC DUE TO NAS CAUSE

1009: L3 Relocation signalling

SRNS RELOC IN PREP srns_rel_in_uctr_msc_prot UNSUCC CONTR BY MSC DUE TO PROT CAUSE

1009: L3 Relocation signalling

SRNS RELOC IN PREP srns_rel_in_uctr_msc_misc UNSUCC CONTR BY MSC DUE TO MISC CAUSE

1009: L3 Relocation signalling

SRNS RELOC IN PREP srns_rel_in_uctr_msc_nst UNSUCC CONTR BY MSC DUE TO NON STAN CAUSE

1009: L3 Relocation signalling

SRNS RELOC IN PREP UNSUCC CONTR BY SGSN DUE TO RN LAYER CAUSE

srns_rel_in_uctr_sgsn_rnl

1009: L3 Relocation signalling

SRNS RELOC IN PREP UNSUCC CONTR BY SGSN DUE TO TR CAUSE

srns_rel_in_uctr_sgsn_trl

1009: L3 Relocation signalling

SRNS RELOC IN PREP UNSUCC CONTR BY SGSN DUE TO NAS CAUSE

srns_rel_in_uctr_sgsn_nas

1009: L3 Relocation signalling

SRNS RELOC IN PREP UNSUCC CONTR BY SGSN DUE TO PROT CAUSE

srns_rel_in_uctr_sgsn_prot

1009: L3 Relocation signalling

SRNS RELOC IN PREP UNSUCC CONTR BY SGSN DUE TO MISC CAUSE

srns_rel_in_uctr_sgsn_misc

1009: L3 Relocation signalling

SRNS RELOC IN PREP UNSUCC CONTR BY SGSN DUE TO NON STAN CAUSE

srns_rel_in_uctr_sgsn_nst

1009: L3 Relocation signalling

SRNS RELOC IN PREP srns_rel_in_uctr_2cn_rnl UNSUCC CONTR BY 2CN DUE TO RN LAYER CAUSE

1009: L3 Relocation signalling

SRNS RELOC IN PREP srns_rel_in_uctr_2cn_trl UNSUCC CONTR BY 2CN DUE TO TR CAUSE

1009: L3 Relocation signalling

SRNS RELOC IN PREP srns_rel_in_uctr_2cn_nas UNSUCC CONTR BY 2CN DUE TO NAS CAUSE

1009: L3 Relocation signalling

SRNS RELOC IN PREP srns_rel_in_uctr_2cn_prot UNSUCC CONTR BY 2CN DUE TO PROT CAUSE

1009: L3 Relocation signalling

SRNS RELOC IN PREP srns_rel_in_uctr_2cn_misc UNSUCC CONTR BY 2CN DUE TO MISC CAUSE

1009: L3 Relocation signalling

SRNS RELOC IN PREP srns_rel_in_uctr_2cn_nst UNSUCC CONTR BY 2CN DUE TO NON STAN CAUSE

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY MSC DUE TO RN LAYER CAUSE

srns_rel_canc_msc_rnl

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY MSC DUE TO RELOC OVE TIM EXP

srns_rel_canc_msc_ove_time

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY MSC DUE TO RELOC PREP TIM EXP

srns_rel_canc_msc_prp_time

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY MSC DUE TO TR CAUSE

srns_rel_canc_msc_trl

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY MSC DUE TO NAS CAUSE

srns_rel_canc_msc_nas

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL srns_rel_canc_msc_prot CONTR BY MSC DUE TO PROT CAUSE

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL srns_rel_canc_msc_misc CONTR BY MSC DUE TO MISC CAUSE

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY MSC DUE TO NON STAN CAUSE

srns_rel_canc_msc_nonst

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY SGSN DUE TO RN LAYER CAUSE

srns_rel_canc_sgsn_rnl

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY SGSN DUE TO RELOC OVE TIM EXP

srns_rel_canc_sgsn_ove_time

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY SGSN DUE TO RELOC PREP TIM EXP

srns_rel_canc_sgsn_prp_time

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY SGSN DUE TO TR CAUSE

srns_rel_canc_sgsn_trl

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL srns_rel_canc_sgsn_nas CONTR BY SGSN DUE TO NAS CAUSE

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY SGSN DUE TO PROT CAUSE

srns_rel_canc_sgsn_prot

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY SGSN DUE TO MISC CAUSE

srns_rel_canc_sgsn_misc

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL srns_rel_canc_sgsn_nonst CONTR BY SGSN DUE TO NON STAN CAUSE

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY 2CN DUE TO RN LAYER CAUSE

srns_rel_canc_2cn_rnl

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY 2CN DUE TO RELOC OVE TIM EXP

srns_rel_canc_2cn_ove_time

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY 2CN DUE TO RELOC PREP TIM EXP

srns_rel_canc_2cn_prp_time

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY 2CN DUE TO TR CAUSE

srns_rel_canc_2cn_trl

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY 2CN DUE TO NAS CAUSE

srns_rel_canc_2cn_nas

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL srns_rel_canc_2cn_prot CONTR BY 2CN DUE TO PROT CAUSE

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY 2CN DUE TO MISC CAUSE

srns_rel_canc_2cn_misc

1009: L3 Relocation signalling

SRNS RELOC OUT CANCEL CONTR BY 2CN DUE TO NON STAN CAUSE

srns_rel_canc_2cn_nonst

1009: L3 Relocation signalling

SRNS RELOC DET IN TARGET srns_reloc_det_rnc_msc RNC CONTR BY MSC

1009: L3 Relocation signalling

SRNS RELOC DET IN TARGET srns_reloc_det_rnc_sgsn RNC CONTR BY SGSN

1009: L3 Relocation signalling

SRNS RELOC DET IN TARGET srns_reloc_det_rnc_2cn RNC CONTR BY 2CN

1009: L3 Relocation signalling

SRNS RELOC COMPL IN srns_reloc_compl_rnc_msc TARGET RNC CONTR BY MSC

1009: L3 Relocation signalling

SRNS RELOC COMPL IN TARGET RNC CONTR BY SGSN

srns_reloc_compl_rnc_sgsn

1009: L3 Relocation signalling

SRNS RELOC COMPL IN TARGET RNC CONTR BY 2CN

srns_reloc_compl_rnc_2cn

1009: L3 Relocation signalling

SRNS RELOC IU REL OUT CONTR BY MSC DUE TO RN LAYER CAUSE

srns_rel_iu_out_msc_rnl

1009: L3 Relocation signalling

SRNS RELOC IU REL OUT CONTR BY MSC DUE TO TR CAUSE

srns_rel_iu_out_msc_trl

1009: L3 Relocation signalling

SRNS RELOC IU REL OUT CONTR BY MSC DUE TO NAS CAUSE

srns_rel_iu_out_msc_nas

1009: L3 Relocation signalling

SRNS RELOC IU REL OUT srns_rel_iu_out_msc_prot CONTR BY MSC DUE TO PROT CAUSE

1009: L3 Relocation signalling

SRNS RELOC IU REL OUT srns_rel_iu_out_msc_misc CONTR BY MSC DUE TO MISC CAUSE

1009: L3 Relocation signalling

SRNS RELOC IU REL OUT CONTR BY MSC DUE TO NON STAN CAUSE

srns_rel_iu_out_msc_nonst

1009: L3 Relocation signalling

SRNS RELOC IU REL OUT CONTR BY SGSN DUE TO RN LAYER CAUSE

srns_rel_iu_out_sgsn_rnl

1009: L3 Relocation signalling

SRNS RELOC IU REL OUT CONTR BY SGSN DUE TO TR CAUSE

srns_rel_iu_out_sgsn_trl

1009: L3 Relocation signalling

SRNS RELOC IU REL OUT srns_rel_iu_out_sgsn_nas CONTR BY SGSN DUE TO NAS CAUSE

1009: L3 Relocation signalling

SRNS RELOC IU REL OUT CONTR BY SGSN DUE TO PROT CAUSE

srns_rel_iu_out_sgsn_prot

1009: L3 Relocation signalling

SRNS RELOC IU REL OUT CONTR BY SGSN DUE TO MISC CAUSE

srns_rel_iu_out_sgsn_misc

1009: L3 Relocation signalling

SRNS RELOC IU REL OUT srns_rel_iu_out_sgsn_nonst CONTR BY SGSN DUE TO NON STAN CAUSE

1009: L3 Relocation signalling

SRNS RELOC IU REL OUT CONTR BY 2CN DUE TO RN LAYER CAUSE

srns_rel_iu_out_2cn_rnl

1009: L3 Relocation signalling

SRNS RELOC IU REL OUT CONTR BY 2CN DUE TO TR CAUSE

srns_rel_iu_out_2cn_trl

1009: L3 Relocation signalling

SRNS RELOC IU REL OUT CONTR BY 2CN DUE TO NAS CAUSE

srns_rel_iu_out_2cn_nas

1009: L3 Relocation signalling

SRNS RELOC IU REL OUT srns_rel_iu_out_2cn_prot CONTR BY 2CN DUE TO PROT CAUSE

1009: L3 Relocation signalling

SRNS RELOC IU REL OUT CONTR BY 2CN DUE TO MISC CAUSE

srns_rel_iu_out_2cn_misc

1009: L3 Relocation signalling

SRNS RELOC IU REL OUT CONTR BY 2CN DUE TO NON STAN CAUSE

srns_rel_iu_out_2cn_nonst

1009: L3 Relocation signalling

SRNS RELOC IU REL IN CONTR BY MSC DUE TO RN LAYER CAUSE

srns_rel_iu_in_msc_rnl

1009: L3 Relocation signalling

SRNS RELOC IU REL IN CONTR BY MSC DUE TO TR CAUSE

srns_rel_iu_in_msc_trl

1009: L3 Relocation signalling

SRNS RELOC IU REL IN CONTR BY MSC DUE TO NAS CAUSE

srns_rel_iu_in_msc_nas

1009: L3 Relocation signalling

SRNS RELOC IU REL IN srns_rel_iu_in_msc_prot CONTR BY MSC DUE TO PROT CAUSE

1009: L3 Relocation signalling

SRNS RELOC IU REL IN srns_rel_iu_in_msc_misc CONTR BY MSC DUE TO MISC CAUSE

1009: L3 Relocation signalling

SRNS RELOC IU REL IN CONTR BY MSC DUE TO NON STAN CAUSE

srns_rel_iu_in_msc_nonst

1009: L3 Relocation signalling

SRNS RELOC IU REL IN CONTR BY SGSN DUE TO RN LAYER CAUSE

srns_rel_iu_in_sgsn_rnl

1009: L3 Relocation signalling

SRNS RELOC IU REL IN CONTR BY SGSN DUE TO TR CAUSE

srns_rel_iu_in_sgsn_trl

1009: L3 Relocation signalling

SRNS RELOC IU REL IN srns_rel_iu_in_sgsn_nas CONTR BY SGSN DUE TO NAS CAUSE

1009: L3 Relocation signalling

SRNS RELOC IU REL IN CONTR BY SGSN DUE TO PROT CAUSE

srns_rel_iu_in_sgsn_prot

1009: L3 Relocation signalling

SRNS RELOC IU REL IN CONTR BY SGSN DUE TO MISC CAUSE

srns_rel_iu_in_sgsn_misc

1009: L3 Relocation signalling

SRNS RELOC IU REL IN srns_rel_iu_in_sgsn_nonst CONTR BY SGSNDUE TO NON STAN CAUSE

1009: L3 Relocation signalling

SRNS RELOC IU REL IN CONTR BY 2CN DUE TO RN LAYER CAUSE

srns_rel_iu_in_2cn_rnl

1009: L3 Relocation signalling

SRNS RELOC IU REL IN CONTR BY 2CN DUE TO TR CAUSE

srns_rel_iu_in_2cn_trl

1009: L3 Relocation signalling

SRNS RELOC IU REL IN CONTR BY 2CN DUE TO NAS CAUSE

srns_rel_iu_in_2cn_nas

1009: L3 Relocation signalling

SRNS RELOC IU REL IN srns_rel_iu_in_2cn_prot CONTR BY 2CN DUE TO PROT CAUSE

1009: L3 Relocation signalling

SRNS RELOC IU REL IN CONTR BY 2CN DUE TO MISC CAUSE

srns_rel_iu_in_2cn_misc

1009: L3 Relocation signalling

SRNS RELOC IU REL IN CONTR BY 2CN DUE TO NON STAN CAUSE

srns_rel_iu_in_2cn_nonst

1009: L3 Relocation signalling

INTER RNC HHO COMMIT IN SOURCE RNC

inter_rnc_hho_source_rnc

1009: L3 Relocation signalling

INTER RNC HHO COMMIT IN TARGET RNC

inter_rnc_hho_target_rnc

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP REQ CONTR BY MSC

inter_rnc_hho_req_contr_msc

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP REQ CONTR BY SGSN

inter_rnc_hho_req_contr_sgsn

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP REQ CONTR BY 2CN

inter_rnc_hho_out_req_2cn

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP SUCC CONTR BY MSC

inter_rnc_hho_succ_msc

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP SUCC CONTR BY SGSN

inter_rnc_hho_prep_succ_sgsn

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP SUCC CONTR BY 2CN

inter_rnc_hho_succ_2cn

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP int_rnc_hho_outus_msc_rnl UNSUCC CONTR BY MSC DUE TO RN LAYER CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP int_rnc_hho_outus_msc_trl UNSUCC CONTR BY MSC DUE TO TR LAYER CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP int_rnc_hho_outus_msc_nas UNSUCC CONTR BY MSC DUE TO NAS CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP int_rnc_hho_outus_msc_prot UNSUCC CONTR BY MSC DUE TO PROT CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP int_rnc_hho_outus_msc_misc UNSUCC CONTR BY MSC DUE TO MISC CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP int_rnc_hho_outus_msc_nst UNSUCC CONTR BY MSC DUE TO NON STAN CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP UNSUCC CONTR BY SGSN DUE TO RN LAYER CAUSE

int_rnc_hho_outus_sgsn_rnl

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP UNSUCC CONTR BY SGSN DUE TO TR LAYER CAUSE

int_rnc_hho_outus_sgsn_trl

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP UNSUCC CONTR BY SGSN DUE TO NAS CAUSE

int_rnc_hho_outus_sgsn_nas

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP UNSUCC CONTR BY SGSN DUE TO PROT CAUSE

int_rnc_hho_outus_sgsn_prot

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP UNSUCC CONTR BY SGSN DUE TO MISC CAUSE

int_rnc_hho_outus_sgsn_misc

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP UNSUCC CONTR BY SGSN DUE TO NON STAN CAUSE

int_rnc_hho_outus_sgsn_nst

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP int_rnc_hho_outus_2cn_rnl UNSUCC CONTR BY 2CN DUE TO RN LAYER CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP int_rnc_hho_outus_2cn_trl UNSUCC CONTR BY 2CN DUE TO TR LAYER CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP int_rnc_hho_outus_2cn_nas UNSUCC CONTR BY 2CN DUE TO NAS CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP int_rnc_hho_outus_2cn_prot UNSUCC CONTR BY 2CN DUE TO PROT CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP int_rnc_hho_outus_2cn_misc UNSUCC CONTR BY 2CN DUE TO MISC CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT PREP int_rnc_hho_outus_2cn_nst UNSUCC CONTR BY 2CN DUE TO NON STAN CAUSE

1009: L3 Relocation signalling

INTER RNC HHO IN PREP REQ inter_rnc_hho_in_req_msc CONTR BY MSC

1009: L3 Relocation signalling

INTER RNC HHO IN PREP REQ inter_rnc_hho_req_sgsn CONTR BY SGSN

1009: L3 Relocation signalling

INTER RNC HHO IN PREP REQ inter_rnc_hho_req_2cn CONTR BY 2CN

1009: L3 Relocation signalling

INTER RNC HHO IN PREP SUCC CONTR BY MSC

inter_rnc_hho_in_succ_msc

1009: L3 Relocation signalling

INTER RNC HHO IN PREP SUCC CONTR BY SGSN

inter_rnc_hho_in_succ_sgsn

1009: L3 Relocation signalling

INTER RNC HHO IN PREP SUCC CONTR BY 2CN

inter_rnc_hho_in_succ_2cn

1009: L3 Relocation signalling

INTER RNC HHO IN PREP int_rnc_hho_inus_msc_rnl UNSUCC CONTR BY MSC DUE TO RN LAYER CAUSE

1009: L3 Relocation signalling

INTER RNC HHO IN PREP int_rnc_hho_inus_msc_trl UNSUCC CONTR BY MSC DUE TO TR LAYER CAUSE

1009: L3 Relocation signalling

INTER RNC HHO IN PREP int_rnc_hho_inus_msc_nas UNSUCC CONTR BY MSC DUE TO NAS CAUSE

1009: L3 Relocation signalling

INTER RNC HHO IN PREP int_rnc_hho_inus_msc_prot UNSUCC CONTR BY MSC DUE TO PROT CAUSE

1009: L3 Relocation signalling

INTER RNC HHO IN PREP int_rnc_hho_inus_msc_misc UNSUCC CONTR BY MSC DUE TO MISC CAUSE

1009: L3 Relocation signalling

INTER RNC HHO IN PREP int_rnc_hho_inus_msc_nst UNSUCC CONTR BY MSC DUE TO NON STAN CAUSE

1009: L3 Relocation signalling

INTER RNC HHO IN PREP UNSUCC CONTR BY SGSN DUE TO RN LAYER CAUSE

int_rnc_hho_inus_sgsn_rnl

1009: L3 Relocation signalling

INTER RNC HHO IN PREP UNSUCC CONTR BY SGSN DUE TO TR LAYER CAUSE

int_rnc_hho_inus_sgsn_trl

1009: L3 Relocation signalling

INTER RNC HHO IN PREP UNSUCC CONTR BY SGSN DUE TO NAS CAUSE

int_rnc_hho_inus_sgsn_nas

1009: L3 Relocation signalling

INTER RNC HHO IN PREP UNSUCC CONTR BY SGSN DUE TO PROT CAUSE

int_rnc_hho_inus_sgsn_prot

1009: L3 Relocation signalling

INTER RNC HHO IN PREP UNSUCC CONTR BY SGSN DUE TO MISC CAUSE

int_rnc_hho_inus_sgsn_misc

1009: L3 Relocation signalling

INTER RNC HHO IN PREP UNSUCC CONTR BY SGSN DUE TO NON STAN CAUSE

int_rnc_hho_inus_sgsn_nst

1009: L3 Relocation signalling

INTER RNC HHO IN PREP int_rnc_hho_inus_2cn_rnl UNSUCC CONTR BY 2CN DUE TO RN LAYER CAUSE

1009: L3 Relocation signalling

INTER RNC HHO IN PREP int_rnc_hho_inus_2cn_trl UNSUCC CONTR BY 2CN DUE TO TR LAYER CAUSE

1009: L3 Relocation signalling

INTER RNC HHO IN PREP int_rnc_hho_inus_2cn_nas UNSUCC CONTR BY 2CN DUE TO NAS CAUSE

1009: L3 Relocation signalling

INTER RNC HHO IN PREP int_rnc_hho_inus_2cn_prot UNSUCC CONTR BY 2CN DUE TO PROT CAUSE

1009: L3 Relocation signalling

INTER RNC HHO IN PREP int_rnc_hho_inus_2cn_misc UNSUCC CONTR BY 2CN DUE TO MISC CAUSE

1009: L3 Relocation signalling

INTER RNC HHO IN PREP int_rnc_hho_inus_2cn_nst UNSUCC CONTR BY 2CN DUE TO NON STAN CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_msc_rnl CONTR BY MSC DUE TO RN LAYER CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_msc_ove_time CONTR BY MSC DUE TO RELOC OVE TIM EXP

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_msc_prp_time CONTR BY MSC DUE TO RELOC PREP TIM EXP

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_msc_trl CONTR BY MSC DUE TO TR CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_msc_nas CONTR BY MSC DUE TO NAS CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_msc_prot CONTR BY MSC DUE TO PROT CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_msc_misc CONTR BYMSC DUE TO MISC CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_msc_nonst CONTR BY MSC DUE TO NON STAN CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_sgsn_rnl CONTR BY SGSN DUE TO RN LAYER CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_sgsn_ove_time CONTR BY SGSN DUE TO RELOC OVE TIM EXP

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_sgsn_prp_time CONTR BY SGSN DUE TO RELOC PREP TIM EXP

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_sgsn_trl CONTR BY SGSN DUE TO TR CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_sgsn_nas CONTR BY SGSN DUE TO NAS CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_sgsn_prot CONTR BY SGSN DUE TO PROT CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_sgsn_misc CONTR BY SGSN DUE TO MISC CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_sgsn_nonst CONTR BY SGSN DUE TO NON STAN CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_2cn_rnl CONTR BY 2CN DUE TO RN LAYER CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_2cn_ove_time CONTR BY 2CN DUE TO RELOC OVE TIM EXP

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_2cn_prp_time CONTR BY 2CN DUE TO RELOC PREP TIM EXP

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_2cn_trl CONTR BY 2CN DUE TO TR CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_2cn_nas CONTR BY 2CN DUE TO NAS CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_2cn_prot CONTR BY 2CN DUE TO PROT CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_2cn_misc CONTR BY 2CN DUE TO MISC CAUSE

1009: L3 Relocation signalling

INTER RNC HHO OUT CANCEL int_hho_canc_2cn_nonst CONTR BY 2CN DUE TO NON STAN CAUSE

1009: L3 Relocation signalling

INTER HHO DETECT IN inter_hho_det_rnc_msc TARGET RNC CONTR BY MSC

1009: L3 Relocation signalling

INTER HHO DET IN TARGET RNC CONTR BY SGSN

inter_hho_det_in_rnc_sgsn

1009: L3 Relocation signalling

INTER HHO DETECT IN TARGET RNC CONTR BY 2CN

inter_hho_det_in_rnc_2cn

1009: L3 Relocation signalling

INTER HHO COMPL IN inter_hho_compl_in_rnc_msc TARGET RNC CONTR BY MSC

1009: L3 Relocation signalling

INTER HHO COMPL IN TARGET RNC CONTR BY SGSN

inter_hho_compl_in_rnc_sgsn

1009: L3 Relocation signalling

INTER HHO COMPL IN TARGET RNC CONTR BY 2CN

inter_hho_compl_in_rnc_2cn

1009: L3 Relocation signalling

INTER HHO IU REL OUT CONTR BY MSC DUE TO RN LAYER CAUSE

hho_iu_rel_out_msc_rnl

1009: L3 Relocation signalling

INTER HHO IU REL OUT CONTR BY MSC DUE TO TR CAUSE

hho_iu_rel_out_msc_trl

1009: L3 Relocation signalling

INTER HHO IU REL OUT CONTR BY MSC DUE TO NAS CAUSE

hho_iu_rel_out_msc_nas

1009: L3 Relocation signalling

INTER HHO IU REL OUT hho_iu_rel_out_msc_prot CONTR BY MSC DUE TO PROT CAUSE

1009: L3 Relocation signalling

INTER HHO IU REL OUT hho_iu_rel_out_msc_misc CONTR BY MSC DUE TO MISC CAUSE

1009: L3 Relocation signalling

INTER HHO IU REL OUT CONTR BY MSC DUE TO NON STAN CAUSE

hho_iu_rel_out_msc_nonst

1009: L3 Relocation signalling

INTER HHO IU REL OUT CONTR BY SGSN DUE TO RN LAYER CAUSE

hho_iu_rel_out_sgsn_rnl

1009: L3 Relocation signalling

INTER HHO IU REL OUT CONTR BY SGSN DUE TO TR CAUSE

hho_iu_rel_out_sgsn_trl

1009: L3 Relocation signalling

INTER HHO IU REL OUT hho_iu_rel_out_sgsn_nas CONTR BY SGSN DUE TO NAS CAUSE

1009: L3 Relocation signalling

INTER HHO IU REL OUT CONTR BY SGSN DUE TO PROT CAUSE

hho_iu_rel_out_sgsn_prot

1009: L3 Relocation signalling

INTER HHO IU REL OUT CONTR BY SGSN DUE TO MISC CAUSE

hho_iu_rel_out_sgsn_misc

1009: L3 Relocation signalling

INTER HHO IU REL OUT hho_iu_rel_out_sgsn_nonst CONTR BY SGSN DUE TO NON STAN CAUSE

1009: L3 Relocation signalling

INTER HHO IU REL OUT CONTR BY 2CN DUE TO RN LAYER CAUSE

hho_iu_rel_out_2cn_rnl

1009: L3 Relocation signalling

INTER HHO IU REL OUT CONTR BY 2CN DUE TO TR CAUSE

hho_iu_rel_out_2cn_trl

1009: L3 Relocation signalling

INTER HHO IU REL OUT CONTR BY 2CN DUE TO NAS CAUSE

hho_iu_rel_out_2cn_nas

1009: L3 Relocation signalling

INTER HHO IU REL OUT hho_iu_rel_out_2cn_prot CONTR BY 2CN DUE TO PROT CAUSE

1009: L3 Relocation signalling

INTER HHO IU REL OUT CONTR BY 2CN DUE TO MISC CAUSE

hho_iu_rel_out_2cn_misc

1009: L3 Relocation signalling

INTER HHO IU REL OUT CONTR BY 2CN DUE TO NON STAN CAUSE

hho_iu_rel_out_2cn_nonst

1009: L3 Relocation signalling

INTER HHO IU REL IN CONTR BY MSC DUE TO RN LAYER CAUSE

hho_iu_rel_in_msc_rnl

1009: L3 Relocation signalling

INTER HHO IU REL IN CONTR BY MSC DUE TO TR CAUSE

hho_iu_rel_in_msc_trl

1009: L3 Relocation signalling

INTER HHO IU REL IN CONTR BY MSC DUE TO NAS CAUSE

hho_iu_rel_in_msc_nas

1009: L3 Relocation signalling

INTER HHO IU REL IN CONTR hho_iu_rel_in_msc_prot BY MSC DUE TO PROT CAUSE

1009: L3 Relocation signalling

INTER HHO IU REL IN CONTR hho_iu_rel_in_msc_misc BY MSC DUE TO MISC CAUSE

1009: L3 Relocation signalling

INTER HHO IU REL IN CONTR BY MSC DUE TO NON STAN CAUSE

hho_iu_rel_in_msc_nonst

1009: L3 Relocation signalling

INTER HHO IU REL IN CONTR BY SGSN DUE TO RN LAYER CAUSE

hho_iu_rel_in_sgsn_rnl

1009: L3 Relocation signalling

INTER HHO IU REL IN CONTR BY SGSN DUE TO TR CAUSE

hho_iu_rel_in_sgsn_trl

1009: L3 Relocation signalling

INTER HHO IU REL IN CONTR hho_iu_rel_in_sgsn_nas BY SGSN DUE TO NAS CAUSE

1009: L3 Relocation signalling

INTER HHO IU REL IN CONTR BY SGSN DUE TO PROT CAUSE

hho_iu_rel_in_sgsn_prot

1009: L3 Relocation signalling

INTER HHO IU REL IN CONTR BY SGSN DUE TO MISC CAUSE

hho_iu_rel_in_sgsn_misc

1009: L3 Relocation signalling

INTER HHO IU REL IN CONTR BY SGSN DUE TO NON STAN CAUSE

hho_iu_rel_in_sgsn_nonst

1009: L3 Relocation signalling

INTER HHO IU REL IN CONTR BY 2CN DUE TO RN LAYER CAUSE

hho_iu_rel_in_2cn_rnl

1009: L3 Relocation signalling

INTER HHO IU REL IN CONTR BY 2CN DUE TO TR CAUSE

hho_iu_rel_in_2cn_trl

1009: L3 Relocation signalling

INTER HHO IU REL IN CONTR BY 2CN DUE TO NAS CAUSE

hho_iu_rel_in_2cn_nas

1009: L3 Relocation signalling

INTER HHO IU REL IN CONTR hho_iu_rel_in_2cn_prot BY 2CN DUE TO PROT CAUSE

1009: L3 Relocation signalling

INTER HHO IU REL IN CONTR BY 2CN DUE TO MISC CAUSE

hho_iu_rel_in_2cn_misc

1009: L3 Relocation signalling

INTER HHO IU REL IN CONTR BY 2CN DUE TO NON STAN CAUSE

hho_iu_rel_in_2cn_nonst

1009: L3 Relocation signalling

STA FORW DATA IN SOURCE RNC ON IUR

sta_forw_data_src_rnc_iur

1009: L3 Relocation signalling

FORW SRNS CON OUT

forw_srns_con_out

1009: L3 Relocation signalling

FORW SRNS CON IN

forw_srns_con_in

1009: L3 Relocation signalling

INTER SYST HHO OUT PREP REQ CONTR BY MSC

is_hho_out_prep_req

1009: L3 Relocation signalling

INTER SYST HHO OUT PREP SUCC CONTR BY MSC

is_hho_out_prep_succ

1009: L3 Relocation signalling

INTER SYST HHO OUT PREP is_hho_out_prep_unsucc_rnl UNSUCC CONTR BY MSC DUE TO RN LAYER CAUSE

1009: L3 Relocation signalling

INTER SYST HHO PREP is_hho_out_prep_unsucc_trl UNSUCC CONTR BY MSC DUE TO TR CAUSE

1009: L3 Relocation signalling

INTER SYST HHO OUT PREP is_hho_out_prep_unsucc_nas UNSUCC CONTR BY MSC DUE TO NAS CAUSE

1009: L3 Relocation signalling

INTER SYST HHO PREP is_hho_out_prep_unsucc_prot UNSUCC CONTR BY MSC DUE TO PROT CAUSE

1009: L3 Relocation signalling

INTER SYST HHO PREP is_hho_out_prep_unsucc_misc UNSUCC CONTR BY MSC DUE TO MISC CAUSE

1009: L3 Relocation signalling

INTER SYST HHO PREP is_hho_out_prep_unsucc_nonst UNSUCC CONTR BY MSC DUE TO NON STAN CAUSE

1009: L3 Relocation signalling

INTER SYST HHO IN PREP REQ CONTR BY MSC

is_hho_in_prep_req

1009: L3 Relocation signalling

INTER SYST HHO IN PREP SUCC CONTR BY MSC

is_hho_in_prep_succ

1009: L3 Relocation signalling

INTER SYST HHO IN PREP is_hho_in_prep_unsucc_rnl UNSUCC CONTR BY MSC DUE TO RN LAYER CAUSE

1009: L3 Relocation signalling

INTER SYST HHO IN PREP is_hho_in_prep_unsucc_trl UNSUCC CONTR BY MSC DUE TO TR CAUSE

1009: L3 Relocation signalling

INTER SYST HHO IN PREP is_hho_in_prep_unsucc_nas UNSUCC CONTR BY MSC DUE TO NAS CAUSE

1009: L3 Relocation signalling

INTER SYST HHO IN PREP is_hho_in_prep_unsucc_prot UNSUCC CONTR BY MSC DUE TO PROT CAUSE

1009: L3 Relocation signalling

INTER SYST HHO IN PREP is_hho_in_prep_unsucc_misc UNSUCC CONTR BY MSC DUE TO MISC CAUSE

1009: L3 Relocation signalling

INTER SYST HHO IN PREP is_hho_in_prep_unsucc_nonst UNSUCC CONTR BY MSC DUE TO NON STAN CAUSE

1009: L3 Relocation signalling

INTER SYST HHO OUT is_hho_out_canc_rnl CANCEL CONTR BY MSC DUE TO RN LAYER CAUSE

1009: L3 Relocation signalling

INTER SYST HHO OUT is_hho_out_canc_ove_time CANCEL CONTR BY MSC DUE TO RELOC OVE TIM EXP

1009: L3 Relocation signalling

INTER SYST HHO OUT is_hho_out_canc_prp_time CANCEL CONTR BY MSC DUE TO RELOC PREP TIMEXP

1009: L3 Relocation signalling

INTER SYST HHO OUT is_hho_out_canc_trl CANCEL CONTR BY MSC DUE TO TR CAUSE

1009: L3 Relocation signalling

INTER SYST HHO OUT is_hho_out_canc_nas CANCEL CONTR BY MSC DUE TO NAS CAUSE

1009: L3 Relocation signalling

INTER SYST HHO OUT is_hho_out_canc_prot CANCEL CONTR BY MSC DUE TO PROT CAUSE

1009: L3 Relocation signalling

INTER SYST HHO OUT is_hho_out_canc_misc CANCEL CONTR BY MSC DUE TO MISC CAUSE

1009: L3 Relocation signalling

INTER SYST HHO OUT is_hho_out_canc_nonst CANCEL CONTR BY MSC DUE TO NON STAN CAUSE

1009: L3 Relocation signalling

INTER SYST COMPL IN is_compl_target_rnc TARGET RNC CONTR BY MSC

1009: L3 Relocation signalling

INTER SYST HHO IU REL OUT CONTR BY MSC DUE TO RN LAYER CAUSE

is_hho_iu_rel_out_msc_rnl

1009: L3 Relocation signalling

INTER SYST HHO IU REL OUT CONTR BY MSC DUE TO TR CAUSE

is_hho_iu_rel_out_msc_trl

1009: L3 Relocation signalling

INTER SYST HHO IU REL OUT CONTR BY MSC DUE TO NAS CAUSE

is_hho_iu_rel_out_msc_nas

1009: L3 Relocation signalling

INTER SYST HHO IU REL OUT is_hho_iu_rel_out_msc_prot CONTR BY MSC DUE TO PROT CAUSE

1009: L3 Relocation signalling

INTER SYST HHO IU REL OUT is_hho_iu_rel_out_msc_misc CONTR BY MSC DUE TO MISC CAUSE

1009: L3 Relocation signalling

INTER SYST HHO IU REL OUT CONTR BY MSC DUE TO NON STAN CAUSE

is_hho_iu_rel_out_msc_nonst

1009: L3 Relocation signalling

INTER SYST HHO IU REL IN CONTR BY MSC DUE TO RN LAYER CAUSE

is_hho_iu_rel_in_msc_rnl

1009: L3 Relocation signalling

INTER SYST HHO IU REL IN CONTR BY MSC DUE TO TR CAUSE

is_hho_iu_rel_in_msc_trl

1009: L3 Relocation signalling

INTER SYST HHO IU REL IN CONTR BY MSC DUE TO NAS CAUSE

is_hho_iu_rel_in_msc_nas

1009: L3 Relocation signalling

INTER SYST HHO IU REL IN is_hho_iu_rel_in_msc_prot CONTR BY MSC DUE TO PROT CAUSE

1009: L3 Relocation signalling

INTER SYST HHO IU REL IN is_hho_iu_rel_in_msc_misc CONTR BY MSC DUE TO MISC CAUSE

1009: L3 Relocation signalling

INTER SYST HHO IU REL IN CONTR BY MSC DUE TO NON STAN CAUSE

is_hho_iu_rel_in_msc_nonst

1009: L3 Relocation signalling

STA FORW DATA IN SOURCE RNC ON IU

sta_forw_data_src_rnc_iu

1009: L3 Relocation signalling

SRNS CON REQ IN

srns_con_req_in

1009: L3 Relocation signalling

SRNS CON RES OUT

srns_con_res_out

1009: L3 Relocation signalling

SRNS DATA FRW COM IN

srns_data_frw_com_in

1009: L3 Relocation signalling

LTE PS HHO IN PREP REQ

LTE_PS_IN_PREP_REQ

1009: L3 Relocation signalling

LTE PS HHO IN PREP SUCC

LTE_PS_IN_PREP_SUCC

1009: L3 Relocation signalling

LTE PS HHO IN PREP FAIL DUE TO RNL

LTE_PS_IN_PREP_FAIL_RNL

1009: L3 Relocation signalling

LTE PS HHO IN PREP FAIL DUE TO TRANS

LTE_PS_IN_PREP_FAIL_TRS

1009: L3 Relocation signalling

LTE PS HHO IN PREP FAIL DUE TO NAS

LTE_PS_IN_PREP_FAIL_NAS

1009: L3 Relocation signalling

LTE PS HHO IN PREP FAIL DUE TO PROT

LTE_PS_IN_PREP_FAIL_PRO

1009: L3 Relocation signalling

LTE PS HHO IN PREP FAIL DUE TO MISC

LTE_PS_IN_PREP_FAIL_MISC

1009: L3 Relocation signalling

LTE PS HHO IN PREP FAIL DUE TO NON STAN

LTE_PS_IN_PREP_FAIL_NST

1009: L3 Relocation signalling

LTE PS HHO IN DETECT

LTE_PS_IN_DETECT

1009: L3 Relocation signalling

LTE PS HHO IN COMPLETE

LTE_PS_IN_COMPLETE

1009: L3 Relocation signalling

LTE CS HHO IN PREP FAIL DUE TO RNL

LTE_CS_IN_PREP_FAIL_RNL

1009: L3 Relocation signalling

RELOC IN REJECT DUE TO OVERLOAD

RELOC_IN_REJECT_OVERLO AD

1009: L3 Relocation signalling

LTE CS HHO IN PREP REQ

LTE_CS_IN_PREP_REQ

1009: L3 Relocation signalling

LTE CS HHO IN PREP SUCC

LTE_CS_IN_PREP_SUCC

1009: L3 Relocation signalling

LTE CS HHO IN PREP FAIL DUE TO TRANS

LTE_CS_IN_PREP_FAIL_TRS

1009: L3 Relocation signalling

LTE CS HHO IN PREP FAIL DUE TO NAS

LTE_CS_IN_PREP_FAIL_NAS

1009: L3 Relocation signalling

LTE CS HHO IN PREP FAIL DUE TO PROT

LTE_CS_IN_PREP_FAIL_PRO

1009: L3 Relocation signalling

LTE CS HHO IN PREP FAIL DUE TO MISC

LTE_CS_IN_PREP_FAIL_MISC

1009: L3 Relocation signalling

LTE CS HHO IN PREP FAIL DUE TO NON STAN

LTE_CS_IN_PREP_FAIL_NST

1009: L3 Relocation signalling

LTE CS HHO IN DETECT

LTE_CS_IN_DETECT

1009: L3 Relocation signalling

LTE CS HHO IN COMPLETE

LTE_CS_IN_COMPLETE

1009: L3 Relocation signalling

LTE CS FALLBACK IN PREP REQ

LTE_CSFB_IN_PREP_REQ

1009: L3 Relocation signalling

LTE CS FALLBACK IN PREP SUCC

LTE_CSFB_IN_PREP_SUCC

1009: L3 Relocation signalling

LTE CS FALLBACK IN PREP FAIL DUE TO RNL

LTE_CSFB_IN_PREP_FAIL_R NL

1009: L3 Relocation signalling

LTE CS FALLBACK IN PREP FAIL DUE TO TRANS

LTE_CSFB_IN_PREP_FAIL_TR S

1009: L3 Relocation signalling

LTE CS FALLBACK IN PREP FAIL DUE TO NAS

LTE_CSFB_IN_PREP_FAIL_N AS

1009: L3 Relocation signalling

LTE CS FALLBACK IN PREP FAIL DUE TO PROT

LTE_CSFB_IN_PREP_FAIL_P RO

1009: L3 Relocation signalling

LTE CS FALLBACK IN PREP FAIL DUE TO MISC

LTE_CSFB_IN_PREP_FAIL_MI SC

1009: L3 Relocation signalling

LTE CS FALLBACK IN PREP FAIL DUE TO NON STAN

LTE_CSFB_IN_PREP_FAIL_N ST

1009: L3 Relocation signalling

LTE CS FALLBACK IN DETECT LTE_CSFB_IN_DETECT

1009: L3 Relocation signalling

LTE CS FALLBACK IN COMPLETE

1009: L3 Relocation signalling

LTE CS FALLBACK HIGH PRIO LTE_CSFB_HPRIO_IN_PREP_ IN PREP REQ REQ

1009: L3 Relocation signalling

LTE CS FALLBACK HIGH PRIO LTE_CSFB_HPRIO_IN_PREP_ IN PREP FAIL FAIL

1010: Inter System Hard Handover

UTRAN IS NOT ABLE TO EXECUTE INTER-SYSTEM HHO FOR RT

1010: Inter System Hard Handover

UE IS NOT ABLE TO EXECUTE ue_not_able_exec_ishho_rt INTER-SYSTEM HHO FOR RT

1010: Inter System Hard Handover

INTER SYSTEM COMPR MODE is_com_mod_sta_not_pos_rt START NOT POSSIBLE FOR RT

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITH COM MOD DUE TO UL DCH QUAL FOR RT

1010: Inter System Hard Handover

NBR OF STARTED INTER is_hho_w_cmod_ue_tx_pwr_rt SYST HHO MEAS WITH COM MOD DUE TO UE TX PWR FOR RT

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITH COM MOD DUE TO DL DPCH FOR RT

LTE_CSFB_IN_COMPLETE

utran_not_able_exec_ishho_rt

is_hho_w_cmod_ul_dch_q_rt

is_hho_w_cmod_dl_dpch_rt

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITH COM MOD DUE TO CPICH RSCP FOR RT

is_hho_w_cmod_cpich_rscp_rt

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITH COM MOD DUE TO CPICH ECNO FOR RT

is_hho_w_cmod_cpich_ecno_rt

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITHOUT COM MOD DUE TO UL DCH QUAL FOR RT

is_hho_wo_cmod_ul_dch_q_rt

1010: Inter System Hard Handover

NBR OF STARTED INTER is_hho_wo_cmod_ue_tx_pwr_rt SYST HHO MEAS WITHOUT COM MOD DUE TO UE TX PWR FOR RT

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITHOUT COM MOD DUE TO DL DPCH FOR RT

is_hho_wo_cmod_dl_dpch_rt

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITHOUT COM MOD DUE TO CPICH RSCP FOR RT

is_hho_wo_cmod_rscp_rt

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITHOUT COM MOD DUE TO CPICH ECNO FOR RT

is_hho_wo_cmod_cpich_ecno_r t

1010: Inter System Hard Handover

NBR OF NOT STA INTER SYST is_hho_no_cell_ul_dch_q_rt HHO BEC OF NO CELL GOOD ENOUGH DUE TO UL DCH QUAL FOR RT

1010: Inter System Hard Handover

NBR OF NOT STA INTER SYST is_hho_no_cell_ue_trx_pwr_rt HHO BEC OF NO CELL GOOD ENOUGH DUE TO UE TRX PWR FOR RT

1010: Inter System Hard Handover

NBR OF NOT STA INTER SYST is_hho_no_cell_dl_dpch_rt HHO BEC OF NO CELL GOOD ENOUGH DUE TO DL DPCH FOR RT

1010: Inter System Hard Handover

NBR OF NOT STA INTER SYST is_hho_no_cell_cpich_rscp_rt HHO BEC OF NO CELL GOOD ENOUGH DUE TO CPICH RSCP FOR RT

1010: Inter System Hard Handover

NBR OF NOT STA INTER SYST is_hho_no_cell_cpich_ecno_rt HHO BEC OF NO CELL GOOD ENOUGH DUE TO CPICH ECNO FOR RT

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS is_hho_att_ul_dch_q_rt CAUSED BY UL DCH QUAL FOR RT

1010: Inter System Hard Handover

SUCCESSFUL INTER SYSTEM succ_is_hho_ul_dch_q_rt HANDOVERS CAUSED BY UL DCH QUAL FOR RT

1010: Inter System Hard Handover

UNSUCCESSFUL INTER SYSTEM HANDOVERS CAUSED BY UL DCH QUAL FOR RT

unsucc_is_hho_ul_dch_q_rt

1010: Inter System Hard Handover

RRC CONNECTION DROPS DURING INTER SYST HO CAUSED BY UL DCH QUAL FOR RT

con_drps_is_hho_ul_dch_q_rt

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS is_hho_att_ue_trx_pwr_rt CAUSED BY UE TRX PWR FOR RT

1010: Inter System Hard Handover

SUCCESSFUL INTER SYSTEM succ_is_hho_ue_trx_pwr_rt HANDOVERS CAUSED BY UE TRX PWR FOR RT

1010: Inter System Hard Handover

UNSUCCESSFUL INTER unsucc_is_hho_ue_trx_pwr_rt SYSTEM HANDOVERS CAUSED BY UE TRX PWR FOR RT

1010: Inter System Hard Handover

RRC CONNECTION DROPS con_drps_is_hho_ue_pwr_rt DURING INTER SYST HO CAUSED BY UE TRX PWR FOR RT

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS is_hho_att_dpch_pwr_rt CAUSED BY DL DPCH PWR FOR RT

1010: Inter System Hard Handover

SUCCESSFUL INTER SYSTEM succ_is_hho_dl_dpch_pwr_rt HANDOVERS CAUSED BY DL DPCH PWR FOR RT

1010: Inter System Hard Handover

UNSUCCESSFUL INTER SYSTEM HANDOVERS CAUSED BY DL DPCH PWR FOR RT

unsucc_is_hho_dl_dpch_pwr_rt

1010: Inter System Hard Handover

RRC CONNECTION DROPS DURING INTER SYST HO CAUSED BY DL DPCH PWR FOR RT

con_drps_is_hho_dl_dpch_rt

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS is_hho_att_cpich_rscp_rt CAUSED BY CPICH RSCP FOR RT

1010: Inter System Hard Handover

SUCCESSFUL INTER SYSTEM succ_is_hho_cpich_rscp_rt HANDOVERS CAUSED BY CPICH RSCP FOR RT

1010: Inter System Hard Handover

UNSUCCESSFUL INTER unsucc_is_hho_cpich_rscp_rt SYSTEM HANDOVERS CAUSED BY CPICH RSCP FOR RT

1010: Inter System Hard Handover

RRC CONNECTION DROPS con_drps_is_hho_rscp_rt DURING INTER SYST HO CAUSED BY CPICH RSCP FOR RT

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS is_hho_att_cpich_ecno_rt CAUSED BY CPICH ECNO FOR RT

1010: Inter System Hard Handover

SUCCESSFUL INTER SYSTEM succ_is_hho_cpich_ecno_rt HANDOVERS CAUSED BY CPICH ECNO FOR RT

1010: Inter System Hard Handover

UNSUCCESSFUL INTER unsucc_is_hho_cpich_ecno_rt SYSTEM HANDOVERS CAUSED BY CPICH ECNO FOR RT

1010: Inter System Hard Handover

RRC CONNECTION DROPS con_drps_is_hho_ecno_rt DURING INTER SYST HO CAUSED BY CPICH ECNO FOR RT

1010: Inter System Hard Handover

UTRAN IS NOT ABLE TO EXECUTE INTER-SYSTEM HHO FOR NRT

1010: Inter System Hard Handover

UE IS NOT ABLE TO EXECUTE ue_not_able_exec_ishho_nrt INTER-SYSTEM HHO FOR NRT

1010: Inter System Hard Handover

INTER SYSTEM COMPR MODE is_com_mod_sta_not_pos_nrt START NOT POSSIBLE FOR NRT

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITH COM MOD DUE TO UL DCH QUAL FOR NRT

utran_not_able_exc_ishho_nrt

is_hho_w_cmod_ul_dch_q_nrt

1010: Inter System Hard Handover

NBR OF STARTED INTER is_hho_w_cmod_ue_tx_pwr_nrt SYST HHO MEAS WITH COM MOD DUE TO UE TX PWR FOR NRT

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITH COM MOD DUE TO DL DPCH FOR NRT

is_hho_w_cmod_dl_dpch_nrt

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITH COM MOD DUE TO CPICH RSCP FOR NRT

is_hho_w_cmod_cpich_rscp_nrt

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITH COM MOD DUE TO CPICH ECNO FOR NRT

is_hho_w_cmod_cpich_ecno_nr t

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITHOUT COM MOD DUE TO UL DCH QUAL FOR NRT

is_hho_wo_cmod_ul_dch_q_nrt

1010: Inter System Hard Handover

NBR OF STARTED INTER is_hho_wo_cmod_ue_tx_nrt SYST HHO MEAS WITHOUT COM MOD DUE TO UE TX PWR FOR NRT

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITHOUT COM MOD DUE TO DL DPCH FOR NRT

is_hho_wo_cmod_dl_dpch_nrt

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITHOUT COM MOD DUE TO CPICH RSCP FOR NRT

is_hho_wo_cmod_rscp_nrt

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITHOUT COM MOD DUE TO CPICH ECNO FOR NRT

is_hho_wocmod_cpich_ecno_nr t

1010: Inter System Hard Handover

NBR OF NOT STA INTER SYST is_hho_no_cell_ul_dch_q_nrt HHO BEC OF NO CELL GOOD ENOUGH DUE TO UL DCH QUAL FOR NRT

1010: Inter System Hard Handover

NBR OF NOT STA INTER SYST is_hho_no_cell_ue_tx_pwr_nrt HHO BEC OF NO CELL GOOD ENOUGH DUE TO UE TX PWR FOR NRT

1010: Inter System Hard Handover

NBR OF NOT STA INTER SYST is_hho_no_cell_dl_dpch_nrt HHO BEC OF NO CELL GOOD ENOUGH DUE TO DL DPCH FOR NRT

1010: Inter System Hard Handover

NBR OF NOT STA INTER SYST is_hho_nocell_cpich_rscp_nrt HHO BEC OF NO CELL GOOD ENOUGH DUE TO CPICH RSCP FOR NRT

1010: Inter System Hard Handover

NBR OF NOT STA INTERis_hho_nocell_cpich_ecno_nrt SYSTEM HHO BEC OF NO CELL GOOD ENOUGH DUE TO CPICH ECNO FOR NRT

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS is_hho_att_ul_dch_q_nrt CAUSED BY UL DCH QUAL FOR NRT

1010: Inter System Hard Handover

SUCCESSFUL INTER SYSTEM succ_is_hho_ul_dch_q_nrt HANDOVERS CAUSED BY UL DCH QUAL FOR NRT

1010: Inter System Hard Handover

UNSUCCESSFUL INTER SYSTEM HANDOVERS CAUSED BY UL DCH QUAL FOR NRT

unsucc_is_hho_ul_dch_q_nrt

1010: Inter System Hard Handover

RRC CONNECTION DROPS DURING INTER SYST HO CAUSED BY UL DCH QUAL FOR NRT

con_drps_is_hho_ul_dch_q_nrt

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS is_hho_att_ue_trx_pwr_nrt CAUSED BY UE TRX PWR FOR NRT

1010: Inter System Hard Handover

SUCCESSFUL INTER SYSTEM succ_is_hho_ue_trx_pwr_nrt HANDOVERS CAUSED BY UE TRX PWR FOR NRT

1010: Inter System Hard Handover

UNSUCCESSFUL INTER unsuc_is_hho_ue_trx_pwr_nrt SYSTEM HANDOVERS CAUSED BY UE TRX PWR FOR NRT

1010: Inter System Hard Handover

RRC CONNECTION DROPS con_drps_is_hho_trx_pwr_nrt DURING INTER SYST HO CAUSED BY UE TRX PWR FOR NRT

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS is_hho_att_dl_dpch_pwr_nrt CAUSED BY DL DPCH PWR FOR NRT

1010: Inter System Hard Handover

SUCCESSFUL INTER SYSTEM succ_is_hho_dl_dpch_pwr_nrt HANDOVERS CAUSED BY DL DPCH PWR FOR NRT

1010: Inter System Hard Handover

UNSUCCESSFUL INTER SYSTEM HANDOVERS CAUSED BY DL DPCH PWR FOR NRT

unsuc_is_hho_dl_dpch_pwr_nrt

1010: Inter System Hard Handover

RRC CONNECTION DROPS DURING INTER SYST HO CAUSED BY DL DPCH PWR FOR NRT

con_drps_is_hho_dl_dpch_nrt

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS is_hho_att_cpich_rscp_nrt CAUSED BY CPICH RSCP FOR NRT

1010: Inter System Hard Handover

SUCCESSFUL INTER SYSTEM succ_is_hho_cpich_rscp_nrt HANDOVERS CAUSED BY CPICH RSCP FOR NRT

1010: Inter System Hard Handover

UNSUCCESSFUL INTER unsucc_is_hho_cpich_rscp_nrt SYSTEM HANDOVERS CAUSED BY CPICH RSCP FOR NRT

1010: Inter System Hard Handover

RRC CONNECTION DROPS con_drps_is_hho_rscp_nrt DURING INTER SYST HO CAUSED BY CPICH RSCP FOR NRT

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS is_hho_att_cpich_ecno_nrt CAUSED BY CPICH ECNO FOR NRT

1010: Inter System Hard Handover

SUCCESSFUL INTER SYSTEM succ_is_hho_cpich_ecno_nrt HANDOVERS CAUSED BY CPICH ECNO FOR NRT

1010: Inter System Hard Handover

UNSUCCESSFUL INTER unsucc_is_hho_cpich_ecno_nrt SYSTEM HANDOVERS CAUSED BY CPICH ECNO FOR NRT

1010: Inter System Hard Handover

RRC CONNECTION DROPS con_drps_is_hho_ecno_nrt DURING INTER SYST HO CAUSED BY CPICH ECNO FOR NRT

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS IS_HHO_ATT_IM_IMS_RT CAUSED BY IMSI FOR RT

1010: Inter System Hard Handover

SUCCESSFUL INTER SYSTEM SUCC_IS_HHO_IM_IMS_RT HANDOVERS CAUSED BY IMSI FOR RT

1010: Inter System Hard Handover

UNSUCCESSFUL INTER SYSTEM HANDOVERS CAUSED BY IMSI FOR RT

UNSUCC_IS_HHO_IM_IMS_RT

1010: Inter System Hard Handover

RRC CONNECTION DROPS DURING INTER SYST HO CAUSED BY IMSI FOR RT

CON_DRPS_IS_HHO_IM_IMS_ RT

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITH COM MOD DUE TO IMSI FOR RT

IS_HHO_W_CMOD_IM_IMS_R T

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITHOUT COM MOD DUE TO IMSI FOR RT

IS_HHO_WO_CMOD_IM_IMS_ RT

1010: Inter System Hard Handover

NBR OF NOT STA INTER SYST IS_HHO_NO_CELL_IM_IMS_R HHO BEC OF NO CELL GOOD T ENOUGH DUE TO IMSI FOR RT

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS IS_HHO_ATT_IM_IMS_NRT CAUSED BY IMSI FOR NRT

1010: Inter System Hard Handover

SUCCESSFUL INTER SYSTEM SUCC_IS_HHO_IM_IMS_NRT HANDOVERS CAUSED BY IMSI FOR NRT

1010: Inter System Hard Handover

UNSUCCESSFUL INTER SYSTEM HANDOVERS CAUSED BY IMSI FOR NRT

UNSUCC_IS_HHO_IM_IMS_N RT

1010: Inter System Hard Handover

RRC CONNECTION DROPS DURING INTER SYST HO CAUSED BY IMSI FOR NRT

CON_DRPS_IS_HHO_IM_IMS_ NRT

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITH COM MOD DUE IMSI FOR NRT

IS_HHO_W_CMOD_IM_IMS_N RT

1010: Inter System Hard Handover

NBR OF STARTED INTER SYST HHO MEAS WITHOUT COM MOD DUE TO IMSI FOR NRT

IS_HHO_WO_CMOD_IM_IMS_ NRT

1010: Inter System Hard Handover

NBR OF NOT STA INTER SYST IS_HHO_NO_CELL_IM_IMS_N HHO BEC OF NO CELL GOOD RT ENOUGH DUE TO IMSI FOR NRT

1010: Inter System Hard Handover

INTER SYSTEM HHO CS RT ATTEMPTS

IS_HHO_CS_RT_ATTEMPTS

1010: Inter System Hard Handover

INTER SYSTEM HHO PS RT ATTEMPTS

IS_HHO_PS_RT_ATTEMPTS

1010: Inter System Hard Handover

INTER SYSTEM HHO CS RT SUCCESS

IS_HHO_CS_RT_SUCCESS

1010: Inter System Hard Handover

INTER SYSTEM HHO PS RT SUCCESS

IS_HHO_PS_RT_SUCCESS

1010: Inter System Hard Handover

ISHO DECISIONS AFTER COMP MODE MEAS DUE TO EMERGENCY CALL

IS_HHO_W_CMOD_EMERG_C ALL

1010: Inter System Hard Handover

ISHO DECISIONS AFTER IS_HHO_WO_CMOD_EMERG_ MEAS WITHOUT COMP MODE CALL DUE TO EMERGENCY CALL

1010: Inter System Hard Handover

NOT STARTED INTER SYST HHO BEC OF NO CELL GOOD ENOUGH DUE TO EMERGENCY CALL

IS_HHO_NO_CELL_EMERG_C ALL

1010: Inter System Hard Handover

INTER SYST HHO ATTEMPTS CAUSED BY DIRECTED EMERGENCY CALL

IS_HHO_ATT_EMERG_CALL

1010: Inter System Hard Handover

SUCCESSFUL INTER SYST HARD HANDOVERS CAUSED BY DIRECTED EMERGENCY CALL

SUCC_IS_HHO_EMERG_CALL

1010: Inter System Hard Handover

UNSUCCESSFUL INTER SYST UNSUCC_IS_HHO_EMERG_C HARD HANDOVERS CAUSED ALL BY DIRECTED EMERGENCY CALL

1010: Inter System Hard Handover

RRC CONNECTION DROPS DURING INTER SYST HHO CAUSED BY DIRECTED EMERGENCY CALL

CON_DRPS_IS_HHO_EMERG _CALL

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITH COM MOD DUE TO PRXTOTAL FOR RT

IS_HHO_W_CM_LB_PRX_TOT _RT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITH COM MOD DUE TO PTXTOTAL FOR RT

IS_HHO_W_CM_LB_PTX_TOT _RT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITH COM MOD DUE TO RESERVATION RATE SC FOR RT

IS_HHO_W_CM_LB_RSVR_SC _RT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITH COM MOD DUE TO HW OR LOGICAL RESOURCE LIMITATION FOR RT

IS_HHO_W_CM_LB_RES_LIM _RT

1010: Inter System Hard Handover

SERVICE BASED ISHO MEAS WITH COM MOD FOR RT

IS_HHO_W_CM_SB_RT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITH COM MOD DUE TO PRXTOTAL FOR NRT

IS_HHO_W_CM_LB_PRX_TOT _NRT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITH COM MOD DUE TO PTXTOTAL FOR NRT

IS_HHO_W_CM_LB_PTX_TOT _NRT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS IS_HHO_W_CM_LB_CAPA_UL WITH COM MOD DUE TO CAPA _NRT REJECTION UL FOR NRT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS IS_HHO_W_CM_LB_CAPA_DL WITH COM MOD DUE TO CAPA _NRT REJECTION DL FOR NRT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITH COM MOD DUE TO RESERVATION RATE SC FOR NRT

IS_HHO_W_CM_LB_RSVR_SC _NRT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITH COM MOD DUE TO HW OR LOGICAL RESOURCE LIMITATION FOR NRT

IS_HHO_W_CM_LB_RES_LIM _NRT

1010: Inter System Hard Handover

SERVICE BASED ISHO MEAS WITH COM MOD FOR NRT

IS_HHO_W_CM_SB_NRT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITHOUT COM MOD DUE TO PRXTOTAL FOR RT

IS_HHO_WO_CM_LB_PRX_TO T_RT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITHOUT COM MOD DUE TO PTXTOTAL FOR RT

IS_HHO_WO_CM_LB_PTX_TO T_RT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITHOUT COM MOD DUE TO RESERVATION RATE SC FOR RT

IS_HHO_WO_CM_LB_RSVR_S C_RT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITHOUT COM MOD DUE TO HW OR LOGICAL RESOURCE LIMITATION FOR RT

IS_HHO_WO_CM_LB_RES_LI M_RT

1010: Inter System Hard Handover

SERVICE BASED ISHO MEAS WITHOUT COM MOD FOR RT

IS_HHO_WO_CM_SB_RT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITHOUT COM MOD DUE TO PRXTOTAL FOR NRT

IS_HHO_WO_CM_LB_PRX_TO T_NRT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITHOUT COM MOD DUE TO PTXTOTAL FOR NRT

IS_HHO_WO_CM_LB_PTX_TO T_NRT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITHOUT COM MOD DUE TO CAPA REJECTION UL FOR NRT

IS_HHO_WO_CM_LB_CAPA_U L_NRT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITHOUT COM MOD DUE TO CAPA REJECTION DL FOR NRT

IS_HHO_WO_CM_LB_CAPA_D L_NRT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITHOUT COM MOD DUE TO RESERVATION RATE SC FOR NRT

IS_HHO_WO_CM_LB_RSVR_S C_NRT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITHOUT COM MOD DUE TO HW OR LOGICAL RESOURCE LIMITATION FOR NRT

IS_HHO_WO_CM_LB_RES_LI M_NRT

1010: Inter System Hard Handover

SERVICE BASED ISHO MEAS IS_HHO_WO_CM_SB_NRT WITHOUT COM MOD FOR NRT

1010: Inter System Hard Handover

NOT STARTED LOAD BASED ISHO BECAUSE NO CELL GOOD ENOUGH DUE TO PRXTOTAL FOR RT

IS_HHO_NOCELL_LB_PRX_T OT_RT

1010: Inter System Hard Handover

NOT STARTED LOAD BASED ISHO BECAUSE NO CELL GOOD ENOUGH DUE TO PTXTOTAL FOR RT

IS_HHO_NOCELL_LB_PTX_T OT_RT

1010: Inter System Hard Handover

NOT STARTED LOAD BASED ISHO BECAUSE NO CELL GOOD ENOUGH DUE TO TO RESERVATION RATE SC FOR RT NOT STARTED LOAD BASED ISHO BECAUSE NO CELL GOOD ENOUGH DUE TO HW OR LOGICAL RESOURCE LIMIT FOR RT NOT STARTED SERVICE BASED ISHO BECAUSE NO CELL GOOD ENOUGH FOR RT

IS_HHO_NOCELL_LB_RSVR_ SC_RT

1010: Inter System Hard Handover

NOT STARTED LOAD BASED ISHO BECAUSE NO CELL GOOD ENOUGH DUE TO PRXTOTAL FOR NRT

IS_HHO_NOCELL_LB_PRX_T OT_NRT

1010: Inter System Hard Handover

NOT STARTED LOAD BASED ISHO BECAUSE NO CELL GOOD ENOUGH DUE TO PTXTOTAL FOR NRT

IS_HHO_NOCELL_LB_PTX_T OT_NRT

1010: Inter System Hard Handover

NOT STARTED LOAD BASED IS_HHO_NOCELL_LB_CAPA_ ISHO BECAUSE NO CELL UL_NRT GOOD ENOUGH DUE TO CAPA REJECTION UL FOR NRT

1010: Inter System Hard Handover

NOT STARTED LOAD BASED IS_HHO_NOCELL_LB_CAPA_ ISHO BECAUSE NO CELL DL_NRT GOOD ENOUGH DUE TO CAPA REJECTION DL FOR NRT

1010: Inter System Hard Handover

NOT STARTED LOAD BASED ISHO BECAUSE NO CELL GOOD ENOUGH DUE TO TO RESERVATION RATE SC FOR NRT NOT STARTED LOAD BASED ISHO BECAUSE NO CELL GOOD ENOUGH DUE TO HW OR LOGICAL RESOURCE LIMIT FOR NRT NOT STARTED SERVICE BASED ISHO BECAUSE NO CELL GOOD ENOUGH FOR NRT

1010: Inter System Hard Handover

1010: Inter System Hard Handover

1010: Inter System Hard Handover

1010: Inter System Hard Handover

1010: Inter System Hard Handover

IS_HHO_NOCELL_LB_RES_LI M_RT

IS_HHO_NOCELL_SB_RT

IS_HHO_NOCELL_LB_RSVR_ SC_NRT

IS_HHO_NOCELL_LB_RES_LI M_NRT

IS_HHO_NOCELL_SB_NRT

LOAD BASED ISHO ATTEMPTS IS_HHO_ATT_LB_PRX_TOT_R CAUSED BY PRXTOTAL FOR T RT

1010: Inter System Hard Handover

LOAD BASED ISHO ATTEMPTS IS_HHO_ATT_LB_PTX_TOT_R CAUSED BY PTXTOTAL FOR T RT

1010: Inter System Hard Handover

LOAD BASED ISHO ATTEMPTS IS_HHO_ATT_LB_RSVR_SC_ CAUSED BY RESERVATION RT RATE SC FOR RT

1010: Inter System Hard Handover

LOAD BASED ISHO ATTEMPTS IS_HHO_ATT_LB_RES_LIM_R CAUSED BY HW OR LOGICAL T RESOURCE LIMITATION FOR RT

1010: Inter System Hard Handover

SERVICE BASED ISHO ATTEMPTS FOR RT

1010: Inter System Hard Handover

LOAD BASED ISHO ATTEMPTS IS_HHO_ATT_LB_PRX_TOT_N CAUSED BY PRXTOTAL FOR RT NRT

1010: Inter System Hard Handover

LOAD BASED ISHO ATTEMPTS IS_HHO_ATT_LB_PTX_TOT_N CAUSED BY PTXTOTAL FOR RT NRT

1010: Inter System Hard Handover

LOAD BASED ISHO ATTEMPTS IS_HHO_ATT_LB_CAPA_UL_N CAUSED BY CAPA REJECTION RT UL FOR NRT

1010: Inter System Hard Handover

LOAD BASED ISHO ATTEMPTS IS_HHO_ATT_LB_CAPA_DL_N CAUSED BY CAPA REJECTION RT DL FOR NRT

1010: Inter System Hard Handover

LOAD BASED ISHO ATTEMPTS IS_HHO_ATT_LB_RSVR_SC_ CAUSED BY RESERVATION NRT RATE SC FOR NRT

1010: Inter System Hard Handover

LOAD BASED ISHO ATTEMPTS IS_HHO_ATT_LB_RES_LIM_N CAUSED BY HW OR LOGICAL RT RESOURCE LIMITATION FOR NRT

1010: Inter System Hard Handover

SERVICE BASED ISHO ATTEMPTS FOR NRT

IS_HHO_ATT_SB_NRT

1010: Inter System Hard Handover

SUCCESSFUL LOAD BASED ISHO CAUSED BY PRXTOTAL FOR RT

SUCC_IS_HHO_LB_PRX_TOT _RT

IS_HHO_ATT_SB_RT

1010: Inter System Hard Handover

SUCCESSFUL LOAD BASED ISHO CAUSED BY PTXTOTAL FOR RT

SUCC_IS_HHO_LB_PTX_TOT _RT

1010: Inter System Hard Handover

SUCCESSFUL ISHO CAUSED BY RESERVATION RATE SC FOR RT

SUCC_IS_HHO_LB_RSVR_SC _RT

1010: Inter System Hard Handover

SUCCESSFUL ISHO CAUSED BY HW OR LOGICAL RESOURCE LIMITATION FOR RT

SUCC_IS_HHO_LB_RES_LIM_ RT

1010: Inter System Hard Handover

SUCCESSFUL SERVICE BASED ISHO FOR RT

SUCC_IS_HHO_SB_RT

1010: Inter System Hard Handover

SUCCESSFUL LOAD BASED ISHO CAUSED BY PRXTOTAL FOR NRT

SUCC_IS_HHO_LB_PRX_TOT _NRT

1010: Inter System Hard Handover

SUCCESSFUL LOAD BASED ISHO CAUSED BY PTXTOTAL FOR NRT

SUCC_IS_HHO_LB_PTX_TOT _NRT

1010: Inter System Hard Handover

SUCCESSFUL ISHO CAUSED BY CAPA REJECTION UL FOR NRT

SUCC_IS_HHO_LB_CAPA_UL _NRT

1010: Inter System Hard Handover

SUCCESSFUL ISHO CAUSED BY CAPA REJECTION DL FOR NRT

SUCC_IS_HHO_LB_CAPA_DL _NRT

1010: Inter System Hard Handover

SUCCESSFUL ISHO CAUSED BY RESERVATION RATE SC FOR NRT

SUCC_IS_HHO_LB_RSVR_SC _NRT

1010: Inter System Hard Handover

SUCCESSFUL ISHO CAUSED BY HW OR LOGICAL RESOURCE LIMITATION FOR NRT

SUCC_IS_HHO_LB_RES_LIM_ NRT

1010: Inter System Hard Handover

SUCCESSFUL SERVICE BASED ISHO FOR NRT

SUCC_IS_HHO_SB_NRT

1010: Inter System Hard Handover

UNSUCCESSFUL LOAD BASED UNSUCC_IS_HHO_LB_PRX_T ISHO CAUSED BY PRXTOTAL OT_RT FOR RT

1010: Inter System Hard Handover

UNSUCCESSFUL LOAD BASED UNSUCC_IS_HHO_LB_PTX_T ISHO CAUSED BY PTXTOTAL OT_RT FOR RT

1010: Inter System Hard Handover

UNSUCCESSFUL ISHO CAUSED BY RESERVATION RATE SC FOR RT

UNSUCC_IS_HHO_LB_RSVR_ SC_RT

1010: Inter System Hard Handover

UNSUCCESSFUL ISHO CAUSED BY HW OR LOGICAL RESOURCE LIMITATION FOR RT

UNSUCC_IS_HHO_LB_RES_LI M_RT

1010: Inter System Hard Handover

UNSUCCESSFUL SERVICE BASED ISHO FOR RT

UNSUCC_IS_HHO_SB_RT

1010: Inter System Hard Handover

UNSUCCESSFUL LOAD BASED UNSUCC_IS_HHO_LB_PRX_T ISHO CAUSED BY PRXTOTAL OT_NRT FOR NRT

1010: Inter System Hard Handover

UNSUCCESSFUL LOAD BASED UNSUCC_IS_HHO_LB_PTX_T ISHO CAUSED BY PTXTOTAL OT_NRT FOR NRT

1010: Inter System Hard Handover

UNSUCCESSFUL ISHO UNSUCC_IS_HHO_LB_CAPA_ CAUSED BY CAPA REJECTION UL_NRT UL FOR NRT

1010: Inter System Hard Handover

UNSUCCESSFUL ISHO UNSUCC_IS_HHO_LB_CAPA_ CAUSED BY CAPA REJECTION DL_NRT DL FOR NRT

1010: Inter System Hard Handover

UNSUCCESSFUL ISHO CAUSED BY RESERVATION RATE SC FOR NRT

UNSUCC_IS_HHO_LB_RSVR_ SC_NRT

1010: Inter System Hard Handover

UNSUCCESSFUL ISHO CAUSED BY HW OR LOGICAL RESOURCE LIMITATION FOR NRT

UNSUCC_IS_HHO_LB_RES_LI M_NRT

1010: Inter System Hard Handover

UNSUCCESSFUL SERVICE BASED ISHO FOR NRT

UNSUCC_IS_HHO_SB_NRT

1010: Inter System Hard Handover

RRC CONNECTION DROPS DURING LOAD BASED ISHO CAUSED BY PRXTOTAL FOR RT

CONDR_IS_HHO_LB_PRX_TO T_RT

1010: Inter System Hard Handover

RRC CONNECTION DROPS DURING LOAD BASED ISHO CAUSED BY PTXTOTAL FOR RT

CONDR_IS_HHO_LB_PTX_TO T_RT

1010: Inter System Hard Handover

RRC CONNECTION DROPS DURING ISHO CAUSED BY RESERVATION RATE SC FOR RT

CONDR_IS_HHO_LB_RSVR_S C_RT

1010: Inter System Hard Handover

RRC CONNECTION DROPS CONDR_IS_HHO_LB_RES_LI DURING ISHO CAUSED BY HW M_RT OR LOGICAL RESOURCE LIMITATION FOR RT

1010: Inter System Hard Handover

RRC CONNECTION DROPS DURING SERVICE BASED ISHO FOR RT

CONDR_IS_HHO_SB_RT

1010: Inter System Hard Handover

RRC CONNECTION DROPS DURING LOAD BASED ISHO CAUSED BY PRXTOTAL FOR NRT

CONDR_IS_HHO_LB_PRX_TO T_NRT

1010: Inter System Hard Handover

RRC CONNECTION DROPS DURING LOAD BASED ISHO CAUSED BY PTXTOTAL FOR NRT

CONDR_IS_HHO_LB_PTX_TO T_NRT

1010: Inter System Hard Handover

RRC CONNECTION DROPS ISHO CAUSED BY CAPA REJECTION UL FOR NRT

CONDR_IS_HHO_LB_CAPA_U L_NRT

1010: Inter System Hard Handover

RRC CONNECTION DROPS ISHO CAUSED BY CAPA REJECTION DL FOR NRT

CONDR_IS_HHO_LB_CAPA_D L_NRT

1010: Inter System Hard Handover

RRC CONNECTION DROPS DURING ISHO CAUSED BY RESERVATION RATE SC FOR NRT

CONDR_IS_HHO_LB_RSVR_S C_NRT

1010: Inter System Hard Handover

RRC CONNECTION DROPS CONDR_IS_HHO_LB_RES_LI DURING ISHO CAUSED BY HW M_NRT OR LOGICAL RESOURCE LIMITATION FOR NRT

1010: Inter System Hard Handover

RRC CONNECTION DROPS DURING SERVICE BASED ISHO FOR NRT

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS IS_HHO_ATT_UL_DCH_WPS_ CAUSED BY WPS FOR RT RT

CONDR_IS_HHO_SB_NRT

1010: Inter System Hard Handover

SUCCESSFUL INTER SYSTEM SUCC_IS_HHO_WPS_RT HANDOVERS CAUSED BY WPS FOR RT

1010: Inter System Hard Handover

UNSUCCESSFUL INTER SYSTEM HANDOVERS CAUSED BY WPS FOR RT

UNSUCC_IS_HHO_WPS_RT

1010: Inter System Hard Handover

RRC CONNECTION DROPS DURING INTER SYST HO CAUSED BY WPS FOR RT

CON_DRPS_IS_HHO_WPS_R T

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS IS_HHO_W_CM_LB_CAPA_UL WITH COM MOD DUE TO CAPA _RT REJECTION UL FOR RT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS IS_HHO_W_CM_LB_CAPA_DL WITH COM MOD DUE TO CAPA _RT REJECTION DL FOR RT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITHOUT COM MOD DUE TO CAPA REJECTION UL FOR RT

IS_HHO_WO_CM_LB_CAPA_U L_RT

1010: Inter System Hard Handover

LOAD BASED ISHO MEAS WITHOUT COM MOD DUE TO CAPA REJECTION DL FOR RT

IS_HHO_WO_CM_LB_CAPA_D L_RT

1010: Inter System Hard Handover

NOT STARTED LOAD BASED IS_HHO_NOCELL_LB_CAPA_ ISHO BECAUSE NO CELL UL_RT GOOD ENOUGH DUE TO CAPA REJECTION UL FOR RT

1010: Inter System Hard Handover

NOT STARTED LOAD BASED IS_HHO_NOCELL_LB_CAPA_ ISHO BECAUSE NO CELL DL_RT GOOD ENOUGH DUE TO CAPA REJECTION DL FOR RT

1010: Inter System Hard Handover

LOAD BASED ISHO ATTEMPTS IS_HHO_ATT_LB_CAPA_UL_R CAUSED BY CAPA REJECTION T UL FOR RT

1010: Inter System Hard Handover

LOAD BASED ISHO ATTEMPTS IS_HHO_ATT_LB_CAPA_DL_R CAUSED BY CAPA REJECTION T DL FOR RT

1010: Inter System Hard Handover

SUCCESSFUL ISHO CAUSED BY CAPA REJECTION UL FOR RT

SUCC_IS_HHO_LB_CAPA_UL _RT

1010: Inter System Hard Handover

SUCCESSFUL ISHO CAUSED BY CAPA REJECTION DL FOR RT

SUCC_IS_HHO_LB_CAPA_DL _RT

1010: Inter System Hard Handover

UNSUCCESSFUL ISHO UNSUCC_IS_HHO_LB_CAPA_ CAUSED BY CAPA REJECTION UL_RT UL FOR RT

1010: Inter System Hard Handover

UNSUCCESSFUL ISHO UNSUCC_IS_HHO_LB_CAPA_ CAUSED BY CAPA REJECTION DL_RT DL FOR RT

1010: Inter System Hard Handover

RRC CONNECTION DROPS ISHO CAUSED BY CAPA REJECTION UL FOR RT

CONDR_IS_HHO_LB_CAPA_U L_RT

1010: Inter System Hard Handover

RRC CONNECTION DROPS ISHO CAUSED BY CAPA REJECTION DL FOR RT

CONDR_IS_HHO_LB_CAPA_D L_RT

1010: Inter System Hard Handover

ISHO CANCEL DUE TO CPICH ECNO FOR RT

CANC_ISHO_CPICH_ECNO_R T

1010: Inter System Hard Handover

ISHO CANCEL DUE TO CPICH RSCP FOR RT

CANC_ISHO_CPICH_RSCP_R T

1010: Inter System Hard Handover

ISHO CANCEL DUE TO UE TX POWER FOR RT

CANC_ISHO_TX_PWR_RT

1010: Inter System Hard Handover

ISHO CANCEL DUE TO DL DPCH POWER FOR RT

CANC_ISHO_DL_DPCH_RT

1010: Inter System Hard Handover

ISHO CANCEL DUE TO CELL ADDITION FOR RT

CANC_ISHO_ADD_RT

1010: Inter System Hard Handover

ISHO CANCEL DUE TO CELL REPLACEMENT FOR RT

CANC_ISHO_REPL_RT

1010: Inter System Hard Handover

ISHO CANCEL DUE TO CPICH ECNO FOR NRT

CANC_ISHO_CPICH_ECNO_N RT

1010: Inter System Hard Handover

ISHO CANCEL DUE TO CPICH RSCP FOR NRT

CANC_ISHO_CPICH_RSCP_N RT

1010: Inter System Hard Handover

ISHO CANCEL DUE TO UE TX POWER FOR NRT

CANC_ISHO_TX_PWR_NRT

1010: Inter System Hard Handover

ISHO CANCEL DUE TO DL DPCH POWERFOR NRT

CANC_ISHO_DL_DPCH_NRT

1010: Inter System Hard Handover

ISHO CANCEL DUE TO CELL ADDITION FOR NRT

CANC_ISHO_ADD_NRT

1010: Inter System Hard Handover

ISHO CANCEL DUE TO CELL REPLACEMENT FOR NRT

CANC_ISHO_REPL_NRT

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS IS_HHO_ATT_DR_AMR_RT CAUSED BY DIRECTED RETRY FOR AMR RT

1010: Inter System Hard Handover

SUCCESSFUL INTER SYSTEM SUCC_IS_HHO_DR_AMR_RT HANDOVERS CAUSED BY DIRECTED RETRY FOR AMR RT

1010: Inter System Hard Handover

UNSUCCESSFUL INTER UNSUCC_IS_HHO_DR_AMR_ SYSTEM HANDOVERS RT CAUSED BY DIRECTED RETRY FOR AMR RT

1010: Inter System Hard Handover

RRC CONNECTION DROPS CON_DRPS_IS_HHO_DR_AM DURING INTER SYST HO R_RT CAUSED BY DIRECTED RETRY FOR AMR RT

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS ATT_ISHO_CELL_SHUTDOWN FORCED BY CELL SHUTDOWN _NRT FOR NRT

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS ATT_ISHO_CELL_SHUTDOWN FORCED BY CELL SHUTDOWN _RT FOR RT

1010: Inter System Hard Handover

SUCCESSFUL INTER SYSTEM SUCC_ISHO_CELL_SHUTDO HO FORCED BY CELL WN_NRT SHUTDOWN FOR NRT

1010: Inter System Hard Handover

SUCCESSFUL INTER SYSTEM SUCC_ISHO_CELL_SHUTDO HO FORCED BY CELL WN_RT SHUTDOWN FOR RT

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS IS_HHO_ATT_2ND_BEST_CEL FOR 2ND BEST CELL FOR RT L_RT

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS IS_HHO_ATT_3RD_BEST_CEL FOR 3RD BEST CELL FOR RT L_RT

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS IS_HHO_ATT_2ND_BEST_CEL FOR 2ND BEST CELL FOR NRT L_NRT

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS IS_HHO_ATT_3RD_BEST_CEL FOR 3RD BEST CELL FOR NRT L_NRT

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS ATT_ISHO_CELL_BLOCK_NR FORCED BY BLOCK T RESOURCE FOR NRT

1010: Inter System Hard Handover

INTER SYSTEM HO ATTEMPTS ATT_ISHO_CELL_BLOCK_RT FORCED BY BLOCK RESOURCE FOR RT

1010: Inter System Hard Handover

SUCCESSFUL INTER SYSTEM SUCC_ISHO_CELL_BLOCK_N HO FORCED BY BLOCK RT RESOURCE FOR NRT

1010: Inter System Hard Handover

SUCCESSFUL INTER SYSTEM SUCC_ISHO_CELL_BLOCK_R HO FORCED BY BLOCK T RESOURCE FOR RT

1010: Inter System Hard Handover

LTE CARRIER NOT FOUND FOR REDIRECTION

LTE_NOT_FOUND_REDIR

1010: Inter System Hard Handover

LTE REDIRECTION STARTED AFTER MEASUREMENT

LTE_REDIR_START_AFTER_ MEAS

1010: Inter System Hard Handover

DURATION OF LTE CARRIER MEASUREMENT

DURATION_LTE_MEASUREM ENT

1010: Inter System Hard Handover

LTE NRT ISHO MEAS WITH CM LTE_N_ISHO_CM_DCH_CCH DUE TO DCH TO CCH

1010: Inter System Hard Handover

LTE NRT ISHO MEAS WITH CM LTE_N_ISHO_CM_HSPA_DCH DUE TO HSPA TO DCH

1010: Inter System Hard Handover

LTE NRT ISHO MEAS WITH CM LTE_N_ISHO_CM_CS_REL DUE TO CS RAB RELEASE

1010: Inter System Hard Handover

LTE NRT ISHO MEAS WITH CM LTE_N_ISHO_CM_PERIODIC DUE TO PERIODIC TRIGGER

1010: Inter System Hard Handover

LTE NRT ISHO MEAS LTE_N_ISHO_WO_CM_DCH_ WITHOUT CM DUE TO DCH TO CCH CCH

1010: Inter System Hard Handover

LTE NRT ISHO MEAS WITHOUT CM DUE TO HSPA TO DCH

1010: Inter System Hard Handover

LTE NRT ISHO MEAS LTE_N_ISHO_WO_CM_CS_RE WITHOUT CM DUE TO CS RAB L RELEASE

1010: Inter System Hard Handover

LTE NRT ISHO MEAS WITHOUT CM DUE TO PERIODIC TRIGGER

LTE_N_ISHO_WO_CM_PERIO DIC

1010: Inter System Hard Handover

LTE NRT ISHO NO CELL FOUND DUE TO DCH TO CCH

LTE_N_ISHO_NO_CELL_DCH _CCH

1010: Inter System Hard Handover

LTE NRT ISHO NO CELL LTE_N_ISHO_NO_CELL_HSP FOUND DUE TO HSPA TO DCH A_DCH

1010: Inter System Hard Handover

LTE NRT ISHO NO CELL FOUND DUE TO CS RAB RELEASE

LTE_N_ISHO_NO_CELL_CS_R EL

1010: Inter System Hard Handover

LTE NRT ISHO NO CELL FOUND DUE TO PERIODIC TRIGGER

LTE_N_ISHO_NO_CELL_PERI ODIC

LTE_N_ISHO_WO_CM_HSPA_ DCH

1010: Inter System Hard Handover

LTE NRT ISHO ATTEMPTS DUE TO DCH TO CCH

LTE_N_ISHO_ATT_DCH_CCH

1010: Inter System Hard Handover

LTE NRT ISHO ATTEMPTS DUE TO HSPA TO DCH

LTE_N_ISHO_ATT_HSPA_DC H

1010: Inter System Hard Handover

LTE NRT ISHO ATTEMPTS DUE TO CS RAB RELEASE

LTE_N_ISHO_ATT_CS_REL

1010: Inter System Hard Handover

LTE NRT ISHO ATTEMPTS DUE TO PERIODIC TRIGGER

LTE_N_ISHO_ATT_PERIODIC

1010: Inter System Hard Handover

LTE NRT ISHO SUCCESS DUE LTE_N_ISHO_SUCC_DCH_CC TO DCH TO CCH H

1010: Inter System Hard Handover

LTE NRT ISHO SUCCESS DUE LTE_N_ISHO_SUCC_HSPA_D TO HSPA TO DCH CH

1010: Inter System Hard Handover

LTE NRT ISHO SUCCESS DUE LTE_N_ISHO_SUCC_CS_REL TO CS RAB RELEASE

1010: Inter System Hard Handover

LTE NRT ISHO SUCCESS DUE LTE_N_ISHO_SUCC_PERIODI TO PERIODIC TRIGGER C

1010: Inter System Hard Handover

LTE NRT ISHO UE NACK DUE TO DCH TO CCH

LTE_N_ISHO_UE_NACK_DCH _CCH

1010: Inter System Hard Handover

LTE NRT ISHO UE NACK DUE TO HSPA TO DCH

LTE_N_ISHO_UE_NACK_HSP A_DCH

1010: Inter System Hard Handover

LTE NRT ISHO UE NACK DUE TO CS RAB RELEASE

LTE_N_ISHO_UE_NACK_CS_ REL

1010: Inter System Hard Handover

LTE NRT ISHO UE NACK DUE TO PERIODIC TRIGGER

LTE_N_ISHO_UE_NACK_PERI ODIC

1010: Inter System Hard Handover

LTE NRT ISHO UE LOST DUE TO DCH TO CCH

LTE_N_ISHO_UE_LOST_DCH _CCH

1010: Inter System Hard Handover

LTE NRT ISHO UE LOST DUE TO HSPA TO DCH

LTE_N_ISHO_UE_LOST_HSP A_DCH

1010: Inter System Hard Handover

LTE NRT ISHO UE LOST DUE TO CS RAB RELEASE

LTE_N_ISHO_UE_LOST_CS_R EL

1010: Inter System Hard Handover

LTE NRT ISHO UE LOST DUE TO PERIODIC TRIGGER

LTE_N_ISHO_UE_LOST_PERI ODIC

1010: Inter System Hard Handover

LTE NRT ISHO PREPARATION LTE_N_ISHO_PREP_FAIL FAIL

1010: Inter System Hard Handover

LTE NRT ISHO CANCEL

LTE_N_ISHO_CANCEL

1010: Inter System Hard Handover

INCOMING HANDOVERS FROM LTE DUE TO LTE CELL LOAD

INC_LTE_ISHO_DUE_LTE_LO AD

1010: Inter System Hard Handover

LTE ISHO PREPARATION FAIL LTE_ISHO_PREP_FAIL_LOAD DUE TO LTE CELL LOAD

1010: Inter System Hard Handover

BLOCKED HANDOVERS TO LTE DUE TO LTE CELL LOAD

BLOCKED_HO_LTE_CELL_LO AD

1010: Inter System Hard Handover

BLOCKED REDIRECTIONS TO LTE DUE TO LTE CELL LOAD

BLOCKED_REDIR_LTE_CELL_ LOAD

1010: Inter System Hard Handover

ISHO ATTEMPTS TO 2G WITH HSPA COMPRESSED MODE

ATT_ISHO_2G_HSPA_CM

1010: Inter System Hard Handover

SUCCESSFUL ISHO TO 2G WITH COMPRESSED MODE

SUCC_ISHO_2G_HSPA_CM

1010: Inter System Hard Handover

ISHO SUCCESS FOR CS + PS ACTIVE MULTIRAB

ISHO_SUCC_CS_PS_ACT_MR AB

1010: Inter System Hard Handover

ISHO FAILURE FOR CS + PS ACTIVE MULTIRAB

ISHO_FAIL_CS_PS_ACT_MRA B

1010: Inter System Hard Handover

INCOMING HANDOVERS FROM LTE DUE TO LTE COVERAGE

INC_LTE_ISHO_DUE_LTE_CO VER

1010: Inter System Hard Handover

BLOCKED HANDOVERS TO LTE DUE TO MISSING LTE SUBSCRIPTION

BLOCKED_HO_LTE_SUBSC

1010: Inter System Hard Handover

BLOCKED REDIRECTIONS TO LTE DUE TO MISSING LTE SUBSCRIPTION

BLOCKED_REDIR_LTE_SUBS C

1010: Inter System Hard Handover

BLOCKED HANDOVERS TO LTE DUE TO LTE COVERAGE HANDOVER

BLOCKED_HO_LTE_COVER

1010: Inter System Hard Handover

BLOCKED REDIRECTIONS TO LTE DUE TO LTE COVERAGE HANDOVER

BLOCKED_REDIR_LTE_COVE R

1010: Inter System Hard Handover

CELL LEVEL LTE CS HHO IN PREP REQ

LTE_CS_IN_PREP_REQ_CELL

1010: Inter System Hard Handover

CELL LEVEL LTE CS HHO IN PREP SUCC

LTE_CS_IN_PREP_SUCC_CE LL

1010: Inter System Hard Handover

CELL LEVEL LTE CS HHO IN PREP FAIL DUE TO RNL

LTE_CS_IN_PREP_FAIL_RNL_ CELL

1010: Inter System Hard Handover

CELL LEVEL LTE CS HHO IN PREP FAIL DUE TO TRANS

LTE_CS_IN_PREP_FAIL_TRS_ CELL

1010: Inter System Hard Handover

CELL LEVEL LTE CS HHO IN PREP FAIL DUE TO PROT

LTE_CS_IN_PREP_FAIL_PRO _CELL

1010: Inter System Hard Handover

CELL LEVEL LTE CS HHO IN PREP FAIL DUE TO MISC

LTE_CS_IN_PRE_FAIL_MISC_ CELL

1010: Inter System Hard Handover

CELL LEVEL LTE CS HHO IN DETECT

LTE_CS_IN_DETECT_CELL

1010: Inter System Hard Handover

CELL LEVEL LTE CS HHO IN COMPLETE

LTE_CS_IN_COMPLETE_CELL

1010: Inter System Hard Handover

CELL LEVEL LTE CS FALLBACK IN PREP REQ

LTE_CSFB_IN_PREP_REQ_C ELL

1010: Inter System Hard Handover

CELL LEVEL LTE CS FALLBACK IN PREP SUCC

LTE_CSFB_IN_PREP_SUCC_ CELL

1010: Inter System Hard Handover

CELL LEVEL LTE CS FALLBACK IN PREP FAIL DUE TO RNL

LTE_CSFB_IN_PREP_F_RNL_ CELL

1010: Inter System Hard Handover

CELL LEVEL LTE CS FALLBACK IN PREP FAIL DUE TO TRANS

LTE_CSFB_IN_PREP_F_TRS_ CELL

1010: Inter System Hard Handover

CELL LEVEL LTE CS FALLBACK IN PREP FAIL DUE TO PROT

LTE_CSFB_IN_PREP_F_PRO_ CELL

1010: Inter System Hard Handover

CELL LEVEL LTE CS FALLBACK IN PREP FAIL DUE TO MISC

LTE_CSFB_IN_PREP_F_MISC _CELL

1010: Inter System Hard Handover

CELL LEVEL LTE CS FALLBACK IN DETECT

LTE_CSFB_IN_DETECT_CELL

1010: Inter System Hard Handover

CELL LEVEL LTE CS FALLBACK IN COMPLETE

LTE_CSFB_IN_COMPLETE_C ELL

1010: Inter System Hard Handover

CELL LEVEL LTE CS FALLBACK HIGH PRIO IN PREP REQ

LTE_CSFB_HPRIO_PREP_RE Q_CELL

1010: Inter System Hard Handover

CELL LEVEL LTE CS FALLBACK HIGH PRIO IN PREP FAIL

LTE_CSFB_HPRIO_PRE_FAIL _CELL

1010: Inter System Hard Handover

CELL LEVEL LTE PS HHO IN PREP REQ

LTE_PS_IN_PREP_REQ_CELL

1010: Inter System Hard Handover

CELL LEVEL LTE PS HHO IN PREP SUCC

LTE_PS_IN_PREP_SUCC_CEL L

1010: Inter System Hard Handover

CELL LEVEL LTE PS HHO IN PREP FAIL DUE TO RNL

LTE_PS_IN_PREP_FAIL_RNL_ CELL

1010: Inter System Hard Handover

CELL LEVEL LTE PS HHO IN PREP FAIL DUE TO TRANS

LTE_PS_IN_PREP_FAIL_TRS_ CELL

1010: Inter System Hard Handover

CELL LEVEL LTE PS HHO IN PREP FAIL DUE TO PROT

LTE_PS_IN_PREP_FAIL_PRO _CELL

1010: Inter System Hard Handover

CELL LEVEL LTE PS HHO IN LTE_PS_IN_PRE_FAIL_MISC_ PREP FAIL DUE TO NON STAN CELL

1010: Inter System Hard Handover

CELL LEVEL LTE PS HHO IN DETECT

LTE_PS_IN_DETECT_CELL

1010: Inter System Hard Handover

CELL LEVEL LTE PS HHO IN COMPLETE

LTE_PS_IN_COMPLETE_CELL

1010: Inter System Hard Handover

DECISION FOR ISHO FROM ISHO_GSM_DECI_BAD_CI WCDMA LTE BORDER TO GSM DUE TO BAD CI RATIO

1010: Inter System Hard Handover

TIMES OF ISHO MEAS FROM ISHO_GSM_MEAS_BAD_CI_N WCDMA LTE BORDER TO GSM O_ATMP DUE TO BAD CI RATIO END WITHOUT ISHO ATTEMPT

1010: Inter System Hard Handover

ATTEMPTS FOR ISHO FROM ISHO_GSM_ATMP_BAD_CI WCDMA LTE BORDER TO GSM DUE TO BAD CI RATIO

1010: Inter System Hard Handover

SUCCESS ISHO FROM SUCC_ISHO_GSM_BAD_CI WCDMA LTE BORDER TO GSM DUE TO BAD CI RATIO

1010: Inter System Hard Handover

FAILED ISHO FROM WCDMA FAIL_ISHO_GSM_BAD_CI LTE BORDER TO GSM DUE TO BAD CI RATIO

1010: Inter System Hard Handover

CONNECTION DROPS DURING CONN_DROP_ISHO_GSM_BA ISHO FROM WCDMA LTE D_CI BORDER TO GSM DUE TO BAD CI RATIO

1010: Inter System Hard Handover

CPICH RSCP MEASUREMENT CPICH_RSCP_MEAS_ISHO_G RESULT OF ACTIVE SET CELL SM FOR ISHO FROM WCDMA LTE BORDER TO GSM

1010: Inter System Hard Handover

DECISION FOR ISHO FROM ISHO_GSM_DECI_CPICH_RS WCDMA LTE BORDER TO GSM CP DUE TO CPICH RSCP

1010: Inter System Hard Handover

TIMES OF ISHO MEAS FROM ISHO_MEAS_CPICH_RSCP_N WCDMA LTE BORDER TO GSM O_ATMP DUE TO CPICH RSCP END WITHOUT ISHO ATTEMPT

1010: Inter System Hard Handover

ATTEMPTS FOR ISHO FROM ISHO_GSM_ATMP_CPICH_RS WCDMA LTE BORDER TO GSM CP DUE TO CPICH RSCP

1010: Inter System Hard Handover

SUCCESS ISHO FROM SUCC_ISHO_GSM_CPICH_RS WCDMA LTE BORDER TO GSM CP DUE TO CPICH RSCP

1010: Inter System Hard Handover

FAILED ISHO FROM WCDMA FAIL_ISHO_GSM_CPICH_RSC LTE BORDER TO GSM DUE TO P CPICH RSCP

1010: Inter System Hard Handover

CONNECTION DROPS DURING CONN_DROP_ISHO_CPICH_R ISHO FROM WCDMA LTE SCP BORDER TO GSM DUE TO CPICH RSCP

1011: Location Services

LCS REQUESTS

NBR_OF_LCS_REQUESTS

1011: Location Services

LCS REQUESTS FOR EMERGENCY CALL

NBR_OF_RECEIVED_EM_LOC REQ

1011: Location Services

FAILED LCS REQUESTS

NBR_OF_FAILED_LOCREQ

1011: Location Services

FAILED LCS REQUESTS FOR EMERGENCY CALL

NBR_OF_FAILED_EM_LOCRE Q

1011: Location Services

SUCCESSFUL HIGH PRIORITY H_PRI_REQ_FF_CID LCS REQ: ACCURACY CODES FULLFILLED BY CELL ID/RTT

1011: Location Services

SUCCESSFUL NORMAL PRIORITY LCS REQ: ACCURACY CODES FULLFILLED BY CELL ID/RTT

1011: Location Services

SUCCESSFUL HIGH PRIORITY H_PRI_REQ_NOT_FF_CID LCS REQ: ACCURACY NOT FULLFILLED BY CELL ID/RTT

1011: Location Services

SUCCESSFUL NORMAL PRIORITY LCS REQ: ACCURACY NOT FULLFILLED BY CELL ID/RTT

1011: Location Services

SUCCESSFUL HIGH PRIORITY H_PRI_REQ_HOR_NOT_FF_CI LCS REQ: HORIZONTAL D ACCURACY NOT FULLFILLED BY CELL ID/RTT

1011: Location Services

SUCCESSFUL NORMAL OTHER_PRI_REQ_HOR_NOT_ PRIORITY LCS REQ: FF_CID HORIZONTAL ACCURACY NOT FULLFILLED BY CELL ID/RTT

1011: Location Services

FAILED HIGH PRIORITY LCS REQ - CELL ID/RTT

H_PRI_REQ_FAIL_CID

1011: Location Services

FAILED NORMAL PRIORITY LCS REQ - CELL ID METHOD

OTHER_PRI_REQ_FAIL_CID

1011: Location Services

FAILED LCS REQUESTS DUE TO ANCHORING

NBR_OF_FAILED_LOCREQ_D UE_ANC

1011: Location Services

REJECTED LCS REQUESTS NBR_OF_REJ_LOCREQ_DUE DUE TO DUPLICATE REQUEST _DUP

OTHER_REQ_FF_CID

OTHER_PRI_REQ_NOT_FF_CI D

1011: Location Services

SAI CHANGE REPORTING STOP REQUESTS FROM CN

NBR_OF_CORE_REJ_SAI_RE QUEST

1011: Location Services

SUCCESSFUL HIGH PRIORITY H_PRI_REQ_FF_AGPS LCS REQ: ACCURACY CODES FULFILLED BY AGPS

1011: Location Services

SUCCESSFUL NORMAL PRIORITY LCS REQ: ACCURACY CODES FULFILLED BY AGPS

1011: Location Services

SUCCESSFUL HIGH PRIORITY H_PRI_REQ_NOT_FF_AGPS LCS REQ: ACCURACY NOT FULFILLED BY AGPS

1011: Location Services

SUCCESSFUL NORMAL PRIORITY LCS REQ: ACCURACY NOT FULFILLED BY AGPS

1011: Location Services

SUCCESSFUL HIGH PRIORITY H_PRI_REQ_HOR_NOT_FF_A LCS REQ: HORIZONTAL GPS ACCURACY NOT FULFILLED BY AGPS

1011: Location Services

SUCCESSFUL NORMAL OTHER_PRI_REQ_HO_NOT_F PRIORITY LCS REQ: F_AGPS HORIZONTAL ACCURACY NOT FULFILLED BY AGPS

1011: Location Services

FAILED HIGH PRIORITY LCS REQ AGPS

H_PRI_REQ_FAIL_AGPS

1011: Location Services

FAILED NORMAL PRIORITY LCS REQ AGPS

OTHER_PRI_REQ_FAIL_AGPS

1011: Location Services

RRC MEASUREMENT REPORT RRC_MEA_REP_W_AGPS_DA WITH AGPS DATA REQUEST TA_REQ

1011: Location Services

LOCATION RELATED DATA REQUESTS

1011: Location Services

ASSISTANCE DATA DELIVERY ASSISTANCE_DATA_DELIV_A FOR AGPS GPS

OTHER_REQ_FF_AGPS

OTHER_PRI_REQ_NOT_FF_A GPS

LOC_RELATED_DATA_REQ

1011: Location Services

RRC STATUS MESSAGES WITH IE ASSISTANCE DATA DELIVERY

RRC_STATUS_ASS_DATA_DE LIV

1011: Location Services

LOCATION RELATED DATA LOC_REL_DATA_FAIL_NO_DA FAIL DUE TO DEDIC ASS DATA TA NOT AVAILABLE

1011: Location Services

AGPS ASSISTANCE DATA VOLUME TO UE

1011: Location Services

SUCCESSFUL HIGH PRIORITY H_PRI_REQ_FF_NW_AGPS LCS REQ: ACCURACY CODES FULFILLED BY NW AGPS

1011: Location Services

SUCCESSFUL NORMAL PRIORITY LCS REQ: ACCURACY CODES FULFILLED BY NW AGPS

1011: Location Services

SUCCESSFUL HIGH PRIORITY H_PRI_REQ_NOT_FF_NW_AG LCS REQ: ACCURACY NOT PS FULFILLED BY NW AGPS

1011: Location Services

SUCCESSFUL NORMAL PRIORITY LCS REQ: ACCURACY NOT FULFILLED BY NW AGPS

1011: Location Services

SUCCESSFUL HIGH PRIORITY H_PRI_REQ_HO_NOT_FF_NW LCS REQ: HORIZONTAL _AGPS ACCURACY NOT FULFILLED BY NW AGPS

1011: Location Services

SUCCESSFUL NORMAL OT_PRI_REQ_HO_NOT_FF_N PRIORITY LCS REQ: W_AGPS HORIZONTAL ACCURACY NOT FULFILLED BY NW AGPS

1011: Location Services

FAILED HIGH PRIORITY LCS REQ NW AGPS

H_PRI_REQ_FAIL_NW_AGPS

1011: Location Services

FAILED NORMAL PRIORITY LCS REQ NW AGPS

OTHER_PRI_REQ_FAIL_NW_ AGPS

1011: Location Services

SUM OF CIRTT LATENCY

SUM_CIRTT_LATENCY

AGPS_DATA_VOLUME_TO_U E

OTHER_PRI_REQ_FF_NW_AG PS

OT_PRI_REQ_FF_NW_AGPS

1011: Location Services

DENOM CIRTT METHOD

DENOM_CIRTT_METHOD

1011: Location Services

CIRTT LATENCY LESS THAN 2 CIRTT_LATENCY_LESS_THA SECONDS N_2_S

1011: Location Services

CIRTT LATENCY BETWEEN 2 TO 5 SECONDS

CIRTT_LATENCY_BETW_2_T O_5_S

1011: Location Services

CIRTT LATENCY OVER 5 SECONDS

CIRTT_LATENCY_OVER_5_S EC

1011: Location Services

SUM OF GPS LATENCY

SUM_GPS_LATENCY

1011: Location Services

DENOM GPS METHOD

DENOM_GPS_METHOD

1011: Location Services

GPS LATENCY LESS THAN 5 SECONDS

GPS_LATENCY_LESS_THAN_ 5_S

1011: Location Services

GPS LATENCY BETWEEN 5 TO GPS_LATENCY_BETW_5_TO_ 15 SECONDS 15_S

1011: Location Services

GPS LATENCY OVER 15 SECONDS

1011: Location Services

SUM OF LCS TOTAL LATENCY SUM_LCS_TOTAL_LATENCY

1011: Location Services

SQUARED SUM OF LCS TOTAL SUM_SQR_LCS_TOTAL_LATE LATENCY NCY

1011: Location Services

DENOM LCS TOTAL LATENCY DENOM_LCS_TOTAL_LATEN CY

GPS_LATENCY_OVER_15_SE C

1011: Location Services

SUM OF EMISHO LATENCY

SUM_EMISHO_LATENCY

1011: Location Services

DENOM EMISHO LATENCY

DENOM_EMISHO_LATENCY

1011: Location Services

EMISHO LATENCY LESS THAN EMISHO_LATENCY_LESS_TH 2 SECONDS AN_2_S

1011: Location Services

EMISHO LATENCY BETWEEN 2 TO 5 SECONDS

EMISHO_LATENCY_BETW_2_ TO_5_S

1011: Location Services

EMISHO LATENCY OVER 5 SECONDS

EMISHO_LATENCY_OVER_5_ SEC

1011: Location Services

SUM OF EMERGENCY CIRTT LATENCY

SUM_EMG_CIRTT_LATENCY

1011: Location Services

DENOM EMERGENCY CIRTT METHOD

DENOM_EMG_CIRTT_METHO D

1011: Location Services

EMERGENCY CIRTT LATENCY EMG_CIRTT_LAT_LESS_THA LESS THAN 2 SEC N_2_S

1011: Location Services

EMERGENCY CIRTT LATENCY EMG_CIRTT_LAT_BETW_2_T BETWEEN 2 to 5 SEC O_5_S

1011: Location Services

EMERGENCY CIRTT LATENCY EMG_CIRTT_LAT_OVER_5_S OVER 5 SEC

1011: Location Services

SUM OF EMERGENCY GPS LATENCY

SUM_EMG_GPS_LATENCY

1011: Location Services

DENOM EMERGENCY GPS METHOD

DENOM_EMG_GPS_METHOD

1011: Location Services

EMERGENCY GPS LATENCY LESS THAN 5 SECONDS

EMG_GPS_LAT_LESS_THAN_ 5_S

1011: Location Services

EMERGENCY GPS LATENCY BETWEEN 5 to 15 SECONDS

EMG_GPS_LAT_BETW_5_TO_ 15_S

1011: Location Services

EMERGENCY GPS LATENCY OVER 15 SECONDS

EMG_GPS_LAT_OVER_15_SE C

1011: Location Services

SUM OF EMERGENCY LCS TOTAL LATENCY

SUM_EMG_LCS_TOTAL_LATE NCY

1011: Location Services

SQUARED SUM OF EMERGENCY LCS TOTAL LATENCY

SUM_SQR_EMG_LCS_TOT_L ATENCY

1011: Location Services

DENOM EMERGENCY LCS TOTAL LATENCY

DENOM_EMG_LCS_TOTAL_L ATENCY

1011: Location Services

REJECTED DIRECT LOCATION REJECT_DIR_LOC_REQ_DUE REQUESTS DUE TO LCS _CAPA CAPACITY

1011: Location Services

REJECTED PERIODIC LOCATION REQUESTS DUE TO LCS CAPACITY

REJECT_PER_LOC_REQ_DU E_CAPA

1011: Location Services

LOCATION REPORT WITH CELL GAI

LOC_REP_WITH_CELL_GAI

1011: Location Services

LOCATION REPORT WITHOUT LOC_REP_WITHOUT_CELL_G CELL GAI AI

1011: Location Services

LCS REQUESTS FOR SUBSCRIBER TRACE

LCS_REQUESTS_FOR_TRAC E

1011: Location Services

FAILED LCS REQUESTS FOR SUBSCRIBER TRACE

FAIL_LCS_REQUESTS_FOR_ TRACE

1011: Location Services

RRC MEASUREMENT CONTROL WITH GNSS ASSISTANCE DATA

RRC_MEAS_CONTROL_GNSS

1012: Service Area Broadcast

WRITE-REPLACE MSG FROM CBC

NBR_WR_MSG_REC_CBC

1012: Service Area Broadcast

WRITE-REPLACE COMPLETE MSG TO CBC

NBR_WR_COMPL_SENT_CBC

1012: Service Area Broadcast

KILL MSG FROM CBC

NBR_KILL_MSG_REC_CBC

1012: Service Area Broadcast

KILL COMPLETE MSG TO CBC NBR_KILL_COMP_MSG_SENT _CBC

1012: Service Area Broadcast

MESSAGE STATUS QUERY MSG FROM CBC

NBR_STATQ_MSG_REC_CBC

1012: Service Area Broadcast

MESSAGE STATUS QUERY COMPLETE MSG TO CBC

NBR_STATQ_MSG_COMP_SE NT_CBC

1012: Service Area Broadcast

LOAD QUERY MSG FROM CBC NBR_LOADQ_MSG_REC_CBC

1012: Service Area Broadcast

LOAD QUERY COMPLETE MSG TO CBC

NBR_LOADQ_COMP_MSG_SE NT_CBC

1012: Service Area Broadcast

RESET MSG FROM CBC

NBR_RESET_MSG_REC_CBC

1012: Service Area Broadcast

RESET COMPLETE MSG TO CBC

NBR_RESET_COMP_MSG_SE NT_CBC

1012: Service Area Broadcast

RESTART MSG TO CBC

NBR_RESTART_MSG_SENT_ CBC

1012: Service Area Broadcast

FAILURE MSG TO CBC

NBR_FAIL_MSG_SENT_CBC

1012: Service Area Broadcast

ERROR INDICATION MSG TO CBC

NBR_ERROR_IND_MSG_SEN T_CBC

1012: Service Area Broadcast

WRITE-REPLACE ETWS MSG FROM CBC

WRITE_REPLACE_ETWS_RE C

1012: Service Area Broadcast

WRITE-REPLACE COMPLETE ETWS MSG TO CBC

WRITE_REPLACE_COMP_ET WS_SENT

1013: Autodef SHO

NUMBER OF INTRA SHO_ADJ_INTRA_FREQ_SHO FREQUENCY SHO ATTEMPTS _ATT

1013: Autodef SHO

NUMBER OF COMPLETED INTRA FREQUENCY SHO

SHO_ADJ_INTRA_FREQ_SHO _COMPL

1013: Autodef SHO

CPICH ECNO SHO DIFFERENCE SUMMATION

CPICH_ECNO_SHO_DIFF_SU M

1013: Autodef SHO

CPICH ECNO SHO DIFFERENCE DENOMINATOR

CPICH_ECNO_SHO_DIFF_DE NOM

1013: Autodef SHO

CPICH ECNO SHO SUM

CPICH_ECNO_SHO_SUM

1013: Autodef SHO

CPICH ECNO SHO DENOM

CPICH_ECNO_SHO_DENOM

1013: Autodef SHO

CPICH RSCP SHO SUM

CPICH_RSCP_SHO_SUM

1013: Autodef SHO

CPICH RSCP SHO DENOM

CPICH_RSCP_SHO_DENOM

1013: Autodef SHO

ICIC WEIGHT OF SHO CELL

ICIC_WEIGHT_OF_SHO_CELL

1014: AutoDef IFHO

NUMBER OF INTER HHO_ADJ_INTER_FREQ_HHO FREQUENCY HHO ATTEMPTS _ATT

1014: AutoDef IFHO

NUMBER OF COMPLETED INTER FREQUENCY HHO

HHO_ADJ_INTER_FREQ_HHO _COMPL

1014: AutoDef IFHO

CPICH ECNO IFHO SUM

CPICH_ECNO_IFHO_SUM

1014: AutoDef IFHO

CPICH ECNO IFHO DENOMINATOR

CPICH_ECNO_IFHO_DENOM

1014: AutoDef IFHO

CPICH RSCP IFHO SUM

CPICH_RSCP_IFHO_SUM

1014: AutoDef IFHO

CPICH RSCP IFHO DENOMINATOR

CPICH_RSCP_IFHO_DENOM

1015: AutoDef ISHO

NUMBER OF INTER SYSTEM HHO ATTEMPTS

HO_ADJ_INTER_SYS_HHO_A TT

1015: AutoDef ISHO

NUMBER OF COMPLETED INTER SYSTEM HHO

HO_ADJ_INTER_SYS_HHO_C OMPL

1015: AutoDef ISHO

RSSI SUM

RSSI_SUM

1015: AutoDef ISHO

RSSI DENOMINATOR

RSSI_DENOM

1015: AutoDef ISHO

BSIC VERIFICATION TIME

BSIC_VERIF_TIME

1015: AutoDef ISHO

BSIC DENOMINATOR

BSIC_DENOM

1016: RCPM OLPC

AVERAGE UL EB/NO

UL_AVERAGE_EBNO

1016: RCPM OLPC

UL AVERAGE EB/NO DENOMINATOR

UL_AVERAGE_EBNO_DENOM

1016: RCPM OLPC

UL NUMBER OF RECEIVED EB/NO REPORTS

UL_NUM_EBNO_REPORTS

1016: RCPM OLPC

UPLINK CRC OK BLOCKS

UL_CRC_OKS

1016: RCPM OLPC

UPLINK CRC NOK BLOCKS

UL_CRC_NOKS

1016: RCPM OLPC

UL NUMBER OF RECEIVED BLER REPORTS

UL_NUM_BLER_REPORTS

1016: RCPM OLPC

UL AVERAGE BER

UL_AVERAGE_BER

1016: RCPM OLPC

UL AVERAGE BER DENOMINATOR

UL_AVERAGE_BER_DENOM

1016: RCPM OLPC

UL NUMBER OF RECEIVED UL UL_NUM_OF_BER_REPORTS BER REPORTS

1016: RCPM OLPC

BAD UPLINK CONNECTIONS

1016: RCPM OLPC

IDEAL UPLINK CONNECTIONS UL_IDEAL_CONNECTIONS

UL_BAD_CONNECTIONS

1016: RCPM OLPC

TOO GOOD UPLINK CONNECTIONS

UL_TOO_GOOD_CONNECTIO NS

1016: RCPM OLPC

AVERAGE RADIO LINK POWER RL_POWER_SUM_DL IN DL

1016: RCPM OLPC

DL RADIO LINK POWER SAMPLES

1016: RCPM OLPC

RL REPORTS WITH MAXIMUM RL_POWER_NO_OF_OUTAGE POWER VALUE _DL

1016: RCPM OLPC

UL E-DCH HARQ RETRANSMISSIONS

UL_EDCH_HARQ_RETRANS

1017: RCPM RLC

AVERAGE AM RLC TRANSMISSION BUFFER OCCUPANCY

RLC_AM_PDU_DL_AVG_BUF_ OCC

1017: RCPM RLC

AVERAGE PDCP BUFFER OCCUPANCY

RLC_AM_PDCP_DL_AVG_BUF _OCC

1017: RCPM RLC

REPORTS FOR AVERAGE DL BUFFER OCCUPANCY

RLC_AM_DL_BUFFER_REPO RTS

1017: RCPM RLC

DL PDU ERROR RATIO IN AM RLC

RLC_AM_PDU_DL_ERR_RATI O

1017: RCPM RLC

AM RLC PDUS TRANSMITTED IN DOWNLINK

RLC_AM_PDU_DL_TOTAL_TR ANS

1017: RCPM RLC

RECEIVED DL PDU REPORTS

RLC_AM_PDU_DL_ERR_REP ORTS

1017: RCPM RLC

BAD RLC AM DL CONNECTIONS

RLC_AM_PDU_DL_BAD_CON N

RL_POWER_NO_OF_SAMPLE S_DL

1017: RCPM RLC

TOO GOOD RLC AM DL CONNECTIONS

RLC_AM_PDU_DL_TOO_GOO D_CONN

1017: RCPM RLC

IDEAL RLC AM DL CONNECTIONS

RLC_AM_PDU_DL_IDEAL_CO NN

1017: RCPM RLC

DL GROSS THROUGHPUT OF AM RLC PDU

RLC_AM_PDU_DL_GR_TP

1017: RCPM RLC

REPORTS FOR DL AM RLC THROUGHPUT

RLC_AM_PDU_DL_TP_REPO RTS

1017: RCPM RLC

DL NET THROUGHPUT OF AM RLC_AM_PDU_DL_NET_TP RLC PDU

1017: RCPM RLC

AVERAGE NUMBER OF TRANSMISSIONS PER PDU IN AM RLC DL

RLC_AM_PDU_DL_AVG_TRA NS

1017: RCPM RLC

PDU DISCARD RATIO IN AM RLC DL

RLC_AM_PDU_DL_DISCARD_ RATIO

1017: RCPM RLC

AM RLC DL PDUS FOR TRANSMISSION

RLC_AM_PDU_DL_FOR_TRA NS

1017: RCPM RLC

RLC AM SDU DL ERROR RATIO

RLC_AM_SDU_DL_ERROR_R ATIO

1017: RCPM RLC

RLC AM DL AVERAGE TRANSFER DELAY OF SDU

RLC_AM_SDU_DL_AVG_TR_D ELAY

1017: RCPM RLC

RLC AM DL SUM OF AVE TRANSFER DELAY OF SDU

RLC_AM_SDU_DL_SUM_TR_ DELAY

1017: RCPM RLC

RLC AM DL SUM OF STANDARD DEVIATIONS OF TRANSFER DELAY OF SDU

RLC_AM_SDU_SUM_TR_DEL_ STADEV

1017: RCPM RLC

SDUS FOR TRANSMISSION IN RLC_AM_SDU_DL_SDUS_FO RLC AM DL R_TRANS

1017: RCPM RLC

MEASUREMENT TIME PERIOD RLC_AM_DL_MEAS_TIME FOR DL RLC AM

1017: RCPM RLC

UL RLC AM SDU PAYLOAD OF RLC_AM_SDU_UL_PS_VOL PS TRAFFIC

1017: RCPM RLC

DL RLC AM SDU PAYLOAD OF RLC_AM_SDU_DL_PS_VOL PS TRAFFIC

1017: RCPM RLC

TRANSMITTED AM RLC PDUS IN UPLINK

1017: RCPM RLC

MEASUREMENT TIME PERIOD RLC_AM_UL_MEAS_TIME FOR UL RLC AM

1017: RCPM RLC

USER DL THROUGHPUT DISTRIBUTION - CLASS 1

USER_DL_THRP_DIST_CLAS S_1

1017: RCPM RLC

USER DL THROUGHPUT DISTRIBUTION - CLASS 2

USER_DL_THRP_DIST_CLAS S_2

1017: RCPM RLC

USER DL THROUGHPUT DISTRIBUTION - CLASS 3

USER_DL_THRP_DIST_CLAS S_3

1017: RCPM RLC

USER DL THROUGHPUT DISTRIBUTION - CLASS 4

USER_DL_THRP_DIST_CLAS S_4

1017: RCPM RLC

USER DL THROUGHPUT DISTRIBUTION - CLASS 5

USER_DL_THRP_DIST_CLAS S_5

1017: RCPM RLC

USER DL THROUGHPUT DISTRIBUTION - CLASS 6

USER_DL_THRP_DIST_CLAS S_6

RLC_AM_PDU_UL_FOR_TRA NS

1017: RCPM RLC

USER DL THROUGHPUT DISTRIBUTION - CLASS 7

USER_DL_THRP_DIST_CLAS S_7

1017: RCPM RLC

USER DL THROUGHPUT DISTRIBUTION - CLASS 8

USER_DL_THRP_DIST_CLAS S_8

1017: RCPM RLC

USER DL THROUGHPUT DISTRIBUTION - CLASS 9

USER_DL_THRP_DIST_CLAS S_9

1017: RCPM RLC

USER DL THROUGHPUT DISTRIBUTION - CLASS 10

USER_DL_THRP_DIST_CLAS S_10

1017: RCPM RLC

RLC RETRANSMISSION DISTRIBUTION - CLASS 0

RLC_RETRANS_DISTR_CLAS S_0

1017: RCPM RLC

RLC RETRANSMISSION DISTRIBUTION - CLASS 1

RLC_RETRANS_DISTR_CLAS S_1

1017: RCPM RLC

RLC RETRANSMISSION DISTRIBUTION - CLASS 2

RLC_RETRANS_DISTR_CLAS S_2

1017: RCPM RLC

RLC RETRANSMISSION DISTRIBUTION - CLASS 3

RLC_RETRANS_DISTR_CLAS S_3

1017: RCPM RLC

RLC RETRANSMISSION DISTRIBUTION - CLASS 4

RLC_RETRANS_DISTR_CLAS S_4

1017: RCPM RLC

RLC RETRANSMISSION DISTRIBUTION - CLASS 5

RLC_RETRANS_DISTR_CLAS S_5

1017: RCPM RLC

USER DL THROUGHPUT DISTRIBUTION - CLASS 11

USER_DL_THRP_DIST_CLAS S_11

1017: RCPM RLC

USER DL THROUGHPUT DISTRIBUTION - CLASS 12

USER_DL_THRP_DIST_CLAS S_12

1017: RCPM RLC

USER DL THROUGHPUT DISTRIBUTION - CLASS 13

USER_DL_THRP_DIST_CLAS S_13

1017: RCPM RLC

USER UL THROUGHPUT DISTRIBUTION - CLASS 1

USER_UL_THRP_DIST_CLAS S_1

1017: RCPM RLC

USER UL THROUGHPUT DISTRIBUTION - CLASS 2

USER_UL_THRP_DIST_CLAS S_2

1017: RCPM RLC

USER UL THROUGHPUT DISTRIBUTION - CLASS 3

USER_UL_THRP_DIST_CLAS S_3

1017: RCPM RLC

USER UL THROUGHPUT DISTRIBUTION - CLASS 4

USER_UL_THRP_DIST_CLAS S_4

1017: RCPM RLC

USER UL THROUGHPUT DISTRIBUTION - CLASS 5

USER_UL_THRP_DIST_CLAS S_5

1018: RCPM UEQ

AVERAGE BLER FROM QUALITY MEASUREMENTS

UEQ_AVE_BLER

1018: RCPM UEQ

RECEIVED QUALITY REPORTS UEQ_NUMBER_OF_REPORTS FROM UES

1019: AutoDef LTE

LTE ISHO ATTEMPTS

LTE_ISHO_ATTEMPTS

1019: AutoDef LTE

LTE ISHO SUCCESSFUL

LTE_ISHO_SUCCESSFUL

1021: Iu-PC Interface

ASSISTANCE DATA REQUESTS TO SAS

ASS_DATA_REQ_TO_SAS

1021: Iu-PC Interface

UNSUCCESSFUL ASSISTANCE UNSUCC_ASS_DATA_REQ_S DATA REQUESTS USING SAS AS

1021: Iu-PC Interface

SUCCESSFUL ASSISTANCE DATA DELIVERY FROM SAS

SUCC_ASS_DATA_DELI_FRO M_SAS

1021: Iu-PC Interface

ASSISTANCE DATA DELIVERY ASS_DATA_DELI_FAIL_FROM FAILURE FROM SAS _SAS

1021: Iu-PC Interface

POSITION CALCULATION REQUESTS TO SAS

POS_CALC_REQ_TO_SAS

1021: Iu-PC Interface

UNSUCCESSFUL POSITION CALCULATIONS USING SAS

UNSUCC_POS_CALC_USING_ SAS

1021: Iu-PC Interface

SUCCESSFUL POSITION CALCULATION RESULTS FROM SAS

SUCC_POS_CALC_RES_FRO M_SAS

1021: Iu-PC Interface

POSITION CALCULATION DELIVERY FAILURE FROM SAS

POS_CALC_DELI_FAIL_FROM _SAS

1021: Iu-PC Interface

ERROR INDICATIONS FROM SAS

ERR_IND_FROM_SAS

1021: Iu-PC Interface

DIRECT POSITION INITIATION REQUESTS TO SAS

DIR_POS_INIT_REQ_TO_SAS

1021: Iu-PC Interface

DIRECT POSITION INITIATION RESPONSES FROM SAS

DIR_POS_INIT_RESP_FROM_ SAS

1021: Iu-PC Interface

DIRECT POSITION INITIATION FAILURES FROM SAS

DIR_POS_INIT_FAIL_FROM_S AS

1021: Iu-PC Interface

SUCCESSFUL CIRTT POSITION ACTIVATION

SUCC_CIRTT_POS_ACT_TO_ SAS

1021: Iu-PC Interface

UNSUCCESSFUL CIRTT POSITION ACTIVATION

UNSUCC_CIRTT_POS_ACT_T O_SAS

1021: Iu-PC Interface

SUCCESSFUL AGPS POSITION SUCC_AGPS_POS_ACT_TO_ ACTIVATION SAS

1021: Iu-PC Interface

UNSUCCESSFUL AGPS POSITION ACTIVATION

UNSUCC_AGPS_POS_ACT_T O_SAS

1021: Iu-PC Interface

PERIODIC POSITION INITIATION REQUESTS TO SAS

PER_POS_INIT_REQ_TO_SAS

1021: Iu-PC Interface

PERIODIC POSITION INITIATION RESPONSES FROM SAS

PER_POS_INIT_RESP_FROM _SAS

1021: Iu-PC Interface

PERIODIC POSITION INITIATION FAILURES FROM SAS

PER_POS_INIT_FAIL_FROM_ SAS

1021: Iu-PC Interface

PERIODIC POSITION ACTIVATION REQUESTS FROM SAS

PER_POS_ACT_REQ_FROM_ SAS

1021: Iu-PC Interface

PERIODIC POSITION ACTIVATION RESPONSES TO SAS

PER_POS_ACT_RESP_TO_SA S

1021: Iu-PC Interface

PERIODIC POSITION ACTIVATION FAILURES TO SAS

PER_POS_ACT_FAIL_TO_SAS

1021: Iu-PC Interface

PERIODIC POSITION REPORTS TO SAS

PER_POS_REPO_TO_SAS

1021: Iu-PC Interface

REJECTED DIRECT LOCATION REJ_DIR_LOC_DUE_FAIL_CO REQUESTS DUE TO FAILED N_SAS CONNECTION TO SAS

1021: Iu-PC Interface

REJECTED PERIODIC LOCATION REQUESTS DUE TO FAILED CONNECTION TO SAS

1021: Iu-PC Interface

ASSISTANCE DATA REQUEST ASS_DATA_REQ_FOR_BRC_T FOR BROADCAST TO SAS O_SAS

REJ_PER_LOC_DUE_FAIL_C ON_SAS

1021: Iu-PC Interface

UNSUCCESSFUL ASSISTANCE UNS_ASS_DATA_REQ_FOR_ DATA REQUESTS FOR BRC_SAS BROADCAST USING SAS

1021: Iu-PC Interface

SUCCESSFUL ASSISTANCE DATA DELIVERY FOR BROADCAST FROM SAS

SUC_ASS_DATA_REQ_FOR_ BRC_SAS

1021: Iu-PC Interface

SUCCESSFUL ASSISTANCE DATA REPORT FOR BROADCAST FROM SAS

SUC_ASS_DATA_REP_FOR_B RC_SAS

1021: Iu-PC Interface

POSITION ACTIVATION RESPONSES WITH MONITORED OR DETECTED SET CELLS

POS_ACT_RESP_MON_DET_ CELLS

1022: Packet Call

UL PACKET SESSION REQ

PS_SESSION_REQ_UL

1022: Packet Call

DL PACKET SESSION REQ

PS_SESSION_REQ_DL

1022: Packet Call

OTHER PACKET SESSION REQ

PS_SESSION_REQ_OTHER

1022: Packet Call

HS-DSCH/E-DCH PACKET CALL ATT FOR INTERACTIVE

PS_ATT_HSDSCH_EDCH_INT

1022: Packet Call

HS-DSCH/E-DCH PACKET PS_ATT_HSDSCH_EDCH_BG CALL ATT FOR BACKGROUND R

1022: Packet Call

HS-DSCH/DCH PACKET CALL ATT FOR INTERACTIVE

PS_ATT_HSDSCH_DCH_INT

1022: Packet Call

HS-DSCH/DCH PACKET CALL ATT FOR BACKGROUND

PS_ATT_HSDSCH_DCH_BGR

1022: Packet Call

DCH/DCH PACKET CALL ATT FOR INTERACTIVE

PS_ATT_DCH_DCH_INT

1022: Packet Call

DCH/DCH PACKET CALL ATT FOR BACKGROUND

PS_ATT_DCH_DCH_BGR

1022: Packet Call

PACKET CALL SETUP FAIL PS_SETUP_FAIL_AC_INT DUE TO AC FOR INTERACTIVE

1022: Packet Call

PACKET CALL SETUP FAIL DUE TO AC FOR BACKGROUND

PS_SETUP_FAIL_AC_BGR

1022: Packet Call

PACKET CALL SETUP FAIL DUE TO BTS FOR INTERACTIVE

PS_SETUP_FAIL_BTS_INT

1022: Packet Call

PACKET CALL SETUP FAIL DUE TO BTS FOR BACKGROUND

PS_SETUP_FAIL_BTS_BGR

1022: Packet Call

PACKET CALL SETUP FAIL DUE TO DMCU RES FOR INTERACTIVE

PS_SETUP_FAIL_DMCU_INT

1022: Packet Call

PACKET CALL SETUP FAIL DUE TO DMCU RES FOR BACKGROUND

PS_SETUP_FAIL_DMCU_BGR

1022: Packet Call

PACKET CALL SETUP FAIL DUE TO TRANSM FOR INTERACTIVE

PS_SETUP_FAIL_TRANS_INT

1022: Packet Call

PACKET CALL SETUP FAIL DUE TO TRANSM FOR BACKGROUND

PS_SETUP_FAIL_TRANS_BG R

1022: Packet Call

PACKET CALL SETUP FAIL PS_SETUP_FAIL_UE_INT DUE TO UE FOR INTERACTIVE

1022: Packet Call

PACKET CALL SETUP FAIL DUE TO UE FOR BACKGROUND

PS_SETUP_FAIL_UE_BGR

1022: Packet Call

PACKET CALL SETUP FAIL DUE TO OTHER REASONS FOR INTERACTIVE

PS_SETUP_FAIL_OTHER_INT

1022: Packet Call

PACKET CALL SETUP FAIL DUE TO OTHER REASONS FOR BACKGROUND

PS_SETUP_FAIL_OTHER_BG R

1022: Packet Call

HS-DSCH/E-DCH ALLO AFTER HS_E_REQ_HS_E_ALLO_INT HS-DSCH/E-DCH REQ FOR INTERACTIVE

1022: Packet Call

HS-DSCH/E-DCH ALLO AFTER HS_E_REQ_HS_E_ALLO_BGR HS-DSCH/E-DCH REQ FOR BACKGROUND

1022: Packet Call

HS-DSCH/DCH ALLO AFTER HS-DSCH/E-DCH REQ FOR INTERACTIVE

HS_E_REQ_HS_D_ALLO_INT

1022: Packet Call

HS-DSCH/DCH ALLO AFTER HS-DSCH/E-DCH REQ FOR BACKGROUND

HS_E_REQ_HS_D_ALLO_BGR

1022: Packet Call

HS-DSCH/DCH ALLO AFTER HS-DSCH/DCH REQ FOR INTERACTIVE

HS_D_REQ_HS_D_ALLO_INT

1022: Packet Call

HS-DSCH/DCH ALLO AFTER HS-DSCH/DCH REQ FOR BACKGROUND

HS_D_REQ_HS_D_ALLO_BGR

1022: Packet Call

DCH/DCH ALLO AFTER HSDSCH/E-DCH REQ FOR INTERACTIVE

HS_E_REQ_D_D_ALLO_INT

1022: Packet Call

DCH/DCH ALLO AFTER HSDSCH/E-DCH REQ FOR BACKGROUND

HS_E_REQ_D_D_ALLO_BGR

1022: Packet Call

DCH/DCH ALLO AFTER HSDSCH/DCH REQ FOR INTERACTIVE

HS_D_REQ_D_D_ALLO_INT

1022: Packet Call

DCH/DCH ALLO AFTER HSDSCH/DCH REQ FOR BACKGROUND

HS_D_REQ_D_D_ALLO_BGR

1022: Packet Call

DCH/DCH ALLO AFTER DCH/DCH REQ FOR INTERACTIVE

D_D_REQ_D_D_ALLO_INT

1022: Packet Call

DCH/DCH ALLO AFTER DCH/DCH REQ FOR BACKGROUND

D_D_REQ_D_D_ALLO_BGR

1022: Packet Call

SWI HS-DSCH/E-DCH TO HS- PS_SWI_HS_E_TO_HS_D_INT DSCH/DCH FOR INTERACTIVE

1022: Packet Call

SWI HS-DSCH/E-DCH TO HSDSCH/DCH FOR BACKGROUND

PS_SWI_HS_E_TO_HS_D_BG R

1022: Packet Call

SWI HS-DSCH/E-DCH TO DCH/DCH FOR INTERACTIVE

PS_SWI_HS_E_TO_D_D_INT

1022: Packet Call

SWI HS-DSCH/E-DCH TO PS_SWI_HS_E_TO_D_D_BGR DCH/DCH FOR BACKGROUND

1022: Packet Call

SWI HS-DSCH/DCH TO DCH/DCH FOR INTERACTIVE

1022: Packet Call

SWI HS-DSCH/DCH TO PS_SWI_HS_D_TO_D_D_BGR DCH/DCH FOR BACKGROUND

1022: Packet Call

SWI HS-DSCH/DCH TO HSDSCH/E-DCH FOR INTERACTIVE

PS_SWI_HS_D_TO_HS_E_INT

1022: Packet Call

SWI HS-DCSH/DCH TO HSDSCH/E-DCH FOR BACKGROUND

PS_SWI_HS_D_TO_HS_E_BG R

1022: Packet Call

SWI DCH/DCH TO HSPS_SWI_D_D_TO_HS_D_INT DSCH/DCH FOR INTERACTIVE

1022: Packet Call

SWI DCH/DCH TO HSDSCH/DCH FOR BACKGROUND

1022: Packet Call

SWI DCH/DCH TO HS-DSCH/E- PS_SWI_D_D_TO_HS_E_INT DCH FOR INTERACTIVE

PS_SWI_HS_D_TO_D_D_INT

PS_SWI_D_D_TO_HS_D_BGR

1022: Packet Call

SWI DCH/DCH TO HS-DSCH/E- PS_SWI_D_D_TO_HS_E_BGR DCH FOR BACKGROUND

1022: Packet Call

HS-DSCH/E-DCH PACKET CALL NORM REL FOR INTERACTIVE

PS_REL_NORM_HS_E_INT

1022: Packet Call

HS-DSCH/E-DCH PACKET CALL NORM REL FOR BACKGROUND

PS_REL_NORM_HS_E_BGR

1022: Packet Call

HS-DSCH/DCH PACKET CALL PS_REL_NORM_HS_D_INT NORM REL FOR INTERACTIVE

1022: Packet Call

HS-DSCH/DCH PACKET CALL NORM REL FOR BACKGROUND

1022: Packet Call

DCH/DCH PACKET CALL PS_REL_NORM_D_D_INT NORM REL FOR INTERACTIVE

1022: Packet Call

DCH/DCH PACKET CALL NORM REL FOR BACKGROUND

PS_REL_NORM_D_D_BGR

1022: Packet Call

HS-DSCH/E-DCH PACKET CALL REL DUE TO PRE-EMP FOR INTERACTIVE

PS_REL_PRE_EMP_HS_E_IN T

1022: Packet Call

HS-DSCH/E-DCH PACKET CALL REL DUE TO PRE-EMP FOR BACKGROUND

PS_REL_PRE_EMP_HS_E_BG R

1022: Packet Call

HS-DSCH/DCH PACKET CALL REL DUE TO PRE-EMP FOR INTERACTIVE

PS_REL_PRE_EMP_HS_D_IN T

1022: Packet Call

HS-DSCH/DCH PACKET CALL REL DUE TO PRE-EMP FOR BACKGROUND

PS_REL_PRE_EMP_HS_D_BG R

1022: Packet Call

DCH/DCH PACKET CALL REL DUE TO PRE-EMP FOR INTERACTIVE

PS_REL_PRE_EMP_D_D_INT

PS_REL_NORM_HS_D_BGR

1022: Packet Call

DCH/DCH PACKET CALL REL DUE TO PRE-EMP FOR BACKGROUND

PS_REL_PRE_EMP_D_D_BGR

1022: Packet Call

HS-DSCH/E-DCH PACKET CALL REL DUE TO RL FAIL FOR INTERACTIVE

PS_REL_RL_FAIL_HS_E_INT

1022: Packet Call

HS-DSCH/E-DCH PACKET CALL REL DUE TO RL FAIL FOR BACKGROUND

PS_REL_RL_FAIL_HS_E_BGR

1022: Packet Call

HS-DSCH/DCH PACKET CALL REL DUE TO RL FAIL FOR INTERACTIVE

PS_REL_RL_FAIL_HS_D_INT

1022: Packet Call

HS-DSCH/DCH PACKET CALL REL DUE TO RL FAIL FOR BACKGROUND

PS_REL_RL_FAIL_HS_D_BGR

1022: Packet Call

DCH/DCH PACKET CALL REL DUE TO RL FAIL FOR INTERACTIVE

PS_REL_RL_FAIL_D_D_INT

1022: Packet Call

DCH/DCH PACKET CALL REL DUE TO RL FAIL FOR BACKGROUND

PS_REL_RL_FAIL_D_D_BGR

1022: Packet Call

HS-DSCH/E-DCH PACKET CALL REL DUE TO OTHER FAIL FOR INTERACTIVE

PS_REL_OTH_FAIL_HS_E_IN T

1022: Packet Call

HS-DSCH/E-DCH PACKET CALL REL DUE TO OTHER FAIL FOR BACKGROUND

PS_REL_OTH_FAIL_HS_E_BG R

1022: Packet Call

HS-DSCH/DCH PACKET CALL PS_REL_OTH_FAIL_HS_D_IN REL DUE TO OTHER FAIL FOR T INTERACTIVE

1022: Packet Call

HS-DSCH/DCH PACKET CALL PS_REL_OTH_FAIL_HS_D_BG REL DUE TO OTHER FAIL FOR R BACKGROUND

1022: Packet Call

DCH/DCH PACKET CALL REL DUE TO OTHER FAIL FOR INTERACTIVE

PS_REL_OTH_FAIL_D_D_INT

1022: Packet Call

DCH/DCH PACKET CALL REL DUE TO OTHER FAIL FOR BACKGROUND

PS_REL_OTH_FAIL_D_D_BGR

1022: Packet Call

DELAY BUILDUP INDICATIONS IUB_DELAY_CC_DELAY_IND SENT DUE TO IUB DELAY

1022: Packet Call

DELAY BUILDUP INDICATIONS HW_OVERL_CC_DELAY_IND SENT DUE TO HW OVERLOAD

1022: Packet Call

FRAME LOSS INDICATIONS SENT DUE TO TRAFFIC LOSS

IUB_LOSS_CC_FRAME_LOSS _IND

1022: Packet Call

FRAME LOSS INDICATIONS SENT DUE TO IUB DELAY

IUB_DELAY_CC_FRAME_LOS S_IND

1022: Packet Call

FRAME LOSS INDICATIONS SENT DUE TO RNC UP INTERNAL BUFFER OVERFLOW

HW_OVERL_CC_FRAME_LOS S_IND

1022: Packet Call

SUCCESSFUL E-DCH FP BRANCH SETUP

SUCC_EDCH_FP_BRANCH_S ETUP

1022: Packet Call

MISSED E-DCH FP FRAMES

MISSED_EDCH_FRAMES

1022: Packet Call

DELAYED E-DCH FP FRAMES

DELAYED_EDCH_FRAMES

1022: Packet Call

SUCCESSFULLY RECEIVED E- SUCC_REC_EDCH_FRAMES DCH FP FRAMES

1022: Packet Call

HS-DSCH/E-DCH ALLO AFTER HS_E_REQ_HS_E_ALLO_HHO HS-DSCH/E-DCH HHO REQ

1022: Packet Call

HS-DSCH/DCH ALLO AFTER HS-DSCH/E-DCH HHO REQ

HS_E_REQ_HS_D_ALLO_HHO

1022: Packet Call

HS-DSCH/DCH ALLO AFTER HS-DSCH/DCH HHO REQ

HS_D_REQ_HS_D_ALLO_HH O

1022: Packet Call

DCH/DCH ALLO AFTER HSDSCH/E-DCH HHO REQ

HS_E_REQ_D_D_ALLO_HHO

1022: Packet Call

DCH/DCH ALLO AFTER HSDSCH/DCH HHO REQ

HS_D_REQ_D_D_ALLO_HHO

1022: Packet Call

INITIAL DCH REQUESTS FOR BITRATE 64 KBPS AND LOWER UL

INIT_DCH_REQ_64_UL

1022: Packet Call

INITIAL DCH REQUESTS FOR BITRATE 64 KBPS AND LOWER DL

INIT_DCH_REQ_64_DL

1022: Packet Call

INITIAL DCH REQUESTS FOR BITRATE 128 KBPS UL

INIT_DCH_REQ_128_UL

1022: Packet Call

INITIAL DCH REQUESTS FOR BITRATE 128 KBPS DL

INIT_DCH_REQ_128_DL

1022: Packet Call

INITIAL DCH REQUESTS FOR BITRATE 256 KBPS UL

INIT_DCH_REQ_256_UL

1022: Packet Call

INITIAL DCH REQUESTS FOR BITRATE 256 KBPS DL

INIT_DCH_REQ_256_DL

1022: Packet Call

INITIAL DCH REQUESTS FOR BITRATE 384 KBPS UL

INIT_DCH_REQ_384_UL

1022: Packet Call

INITIAL DCH REQUESTS FOR BITRATE 384 KBPS DL

INIT_DCH_REQ_384_DL

1022: Packet Call

DCH UPGRADE REQUESTS FOR BITRATE 64 KBPS AND LOWER UL

DCH_UPGR_REQ_64_UL

1022: Packet Call

DCH UPGRADE REQUESTS FOR BITRATE 64 KBPS AND LOWER DL

DCH_UPGR_REQ_64_DL

1022: Packet Call

DCH UPGRADE REQUESTS FOR BITRATE 128 KBPS UL

DCH_UPGR_REQ_128_UL

1022: Packet Call

DCH UPGRADE REQUESTS FOR BITRATE 128 KBPS DL

DCH_UPGR_REQ_128_DL

1022: Packet Call

DCH UPGRADE REQUESTS FOR BITRATE 256 KBPS UL

DCH_UPGR_REQ_256_UL

1022: Packet Call

DCH UPGRADE REQUESTS FOR BITRATE 256 KBPS DL

DCH_UPGR_REQ_256_DL

1022: Packet Call

DCH UPGRADE REQUESTS FOR BITRATE 384 KBPS UL

DCH_UPGR_REQ_384_UL

1022: Packet Call

DCH UPGRADE REQUESTS FOR BITRATE 384 KBPS DL

DCH_UPGR_REQ_384_DL

1022: Packet Call

INITIAL DCH ALLOCATION SUCCESS FOR NRT BITRATE 64 KBPS AND LOWER UL

SUCC_INIT_ALLO_64_UL

1022: Packet Call

INITIAL DCH ALLOCATION SUCCESS FOR NRT BITRATE 64 KBPS AND LOWER DL

SUCC_INIT_ALLO_64_DL

1022: Packet Call

INITIAL DCH ALLOCATION SUCCESS FOR NRT BITRATE 128 KBPS UL

SUCC_INIT_ALLO_128_UL

1022: Packet Call

INITIAL DCH ALLOCATION SUCCESS FOR NRT BITRATE 128 KBPS DL

SUCC_INIT_ALLO_128_DL

1022: Packet Call

INITIAL DCH ALLOCATION SUCCESS FOR NRT BITRATE 256 KBPS UL

SUCC_INIT_ALLO_256_UL

1022: Packet Call

INITIAL DCH ALLOCATION SUCCESS FOR NRT BITRATE 256 KBPS DL

SUCC_INIT_ALLO_256_DL

1022: Packet Call

INITIAL DCH ALLOCATION SUCCESS FOR NRT BITRATE 384 KBPS UL

SUCC_INIT_ALLO_384_UL

1022: Packet Call

INITIAL DCH ALLOCATION SUCCESS FOR NRT BITRATE 384 KBPS DL

SUCC_INIT_ALLO_384_DL

1022: Packet Call

INITIAL DCH ALLOCATION SUCCESS WITH REQUESTED BITRATE 64 KBPS AND LOWER UL

SUCC_INIT_ALLO_REQ_64_U L

1022: Packet Call

INITIAL DCH ALLOCATION SUCCESS WITH REQUESTED BITRATE 64 KBPS AND LOWER DL

SUCC_INIT_ALLO_REQ_64_D L

1022: Packet Call

INITIAL DCH ALLOCATION SUCCESS WITH REQUESTED BITRATE 128 KBPS UL

SUCC_INIT_ALLO_REQ_128_ UL

1022: Packet Call

INITIAL DCH ALLOCATION SUCCESS WITH REQUESTED BITRATE 128 KBPS DL

SUCC_INIT_ALLO_REQ_128_ DL

1022: Packet Call

INITIAL DCH ALLOCATION SUCCESS WITH REQUESTED BITRATE 256 KBPS UL

SUCC_INIT_ALLO_REQ_256_ UL

1022: Packet Call

INITIAL DCH ALLOCATION SUCCESS WITH REQUESTED BITRATE 256 KBPS DL

SUCC_INIT_ALLO_REQ_256_ DL

1022: Packet Call

INITIAL DCH ALLOCATION SUCCESS WITH REQUESTED BITRATE 384 KBPS UL

SUCC_INIT_ALLO_REQ_384_ UL

1022: Packet Call

INITIAL DCH ALLOCATION SUCCESS WITH REQUESTED BITRATE 384 KBPS DL

SUCC_INIT_ALLO_REQ_384_ DL

1022: Packet Call

DCH UPGRADE SUCCESS FOR BITRATE 64 KBPS AND LOWER UL

SUCC_UPG_NRT_DCH_64_UL

1022: Packet Call

DCH UPGRADE SUCCESS FOR BITRATE 64 KBPS AND LOWER DL

SUCC_UPG_NRT_DCH_64_DL

1022: Packet Call

DCH UPGRADE SUCCESS FOR BITRATE 128 KBPS UL

SUCC_UPG_NRT_DCH_128_U L

1022: Packet Call

DCH UPGRADE SUCCESS FOR BITRATE 128 KBPS DL

SUCC_UPG_NRT_DCH_128_D L

1022: Packet Call

DCH UPGRADE SUCCESS FOR BITRATE 256 KBPS UL

SUCC_UPG_NRT_DCH_256_U L

1022: Packet Call

DCH UPGRADE SUCCESS FOR BITRATE 256 KBPS DL

SUCC_UPG_NRT_DCH_256_D L

1022: Packet Call

DCH UPGRADE SUCCESS FOR BITRATE 384 KBPS UL

SUCC_UPG_NRT_DCH_384_U L

1022: Packet Call

DCH UPGRADE SUCCESS FOR BITRATE 384 KBPS DL

SUCC_UPG_NRT_DCH_384_D L

1022: Packet Call

DCH UPGRADE SUCCESS TO REQUESTED BITRATE 64 KBPS AND LOWER UL

SUCC_UPG_NRT_DCH_REQ_ 64_UL

1022: Packet Call

DCH UPGRADE SUCCESS TO REQUESTED BITRATE 64 KBPS AND LOWER DL

SUCC_UPG_NRT_DCH_REQ_ 64_DL

1022: Packet Call

DCH UPGRADE SUCCESS TO REQUESTED BITRATE 128 KBPS UL

SUCC_UPG_NRT_DCH_REQ_ 128_UL

1022: Packet Call

DCH UPGRADE SUCCESS TO REQUESTED BITRATE 128 KBPS DL

SUCC_UPG_NRT_DCH_REQ_ 128_DL

1022: Packet Call

DCH UPGRADE SUCCESS TO REQUESTED BITRATE 256 KBPS UL

SUCC_UPG_NRT_DCH_REQ_ 256_UL

1022: Packet Call

DCH UPGRADE SUCCESS TO REQUESTED BITRATE 256 KBPS DL

SUCC_UPG_NRT_DCH_REQ_ 256_DL

1022: Packet Call

DCH UPGRADE SUCCESS TO REQUESTED BITRATE 384 KBPS UL

SUCC_UPG_NRT_DCH_REQ_ 384_UL

1022: Packet Call

DCH UPGRADE SUCCESS TO REQUESTED BITRATE 384 KBPS DL

SUCC_UPG_NRT_DCH_REQ_ 384_DL

1022: Packet Call

DCH UPLINK RECONFIG FAIL DUE TO TRANSPORT FOR INTERACTIVE

FAIL_REC_INTERA_DCH_UL_ TRANS

1022: Packet Call

DCH UPLINK RECONFIG FAIL DUE TO TRANSPORT FOR BACKGROUND

FAIL_REC_BGR_DCH_UL_TR ANS

1022: Packet Call

DCH DOWNLINK RECONFIG FAIL DUE TO TRANSPORT FOR INTERACTIVE

FAIL_REC_INTERA_DCH_DL_ TRANS

1022: Packet Call

DCH DOWNLINK RECONFIG FAIL DUE TO TRANSPORT FOR BACKGROUND

FAIL_REC_BGR_DCH_DL_TR ANS

1022: Packet Call

DCH UPLINK RECONFIG FAIL DUE TO BTS FOR INTERACTIVE

FAIL_REC_INTERA_DCH_UL_ BTS

1022: Packet Call

DCH UPLINK RECONFIG FAIL DUE TO BTS FOR BACKGROUND

FAIL_REC_BGR_DCH_UL_BT S

1022: Packet Call

DCH DOWNLINK RECONFIG FAIL DUE TO BTS FOR INTERACTIVE

FAIL_REC_INTERA_DCH_DL_ BTS

1022: Packet Call

DCH DOWNLINK RECONFIG FAIL DUE TO BTS FOR BACKGROUND

FAIL_REC_BGR_DCH_DL_BT S

1022: Packet Call

DCH UPLINK RECONFIG FAIL FAIL_REC_INTERA_DCH_UL_ DUE TO AC FOR INTERACTIVE AC

1022: Packet Call

DCH UPLINK RECONFIG FAIL DUE TO AC FOR BACKGROUND

FAIL_REC_BGR_DCH_UL_AC

1022: Packet Call

DCH DOWNLINK RECONFIG FAIL DUE TO AC FOR INTERACTIVE

FAIL_REC_INTERA_DCH_DL_ AC

1022: Packet Call

DCH DOWNLINK RECONFIG FAIL DUE TO AC FOR BACKGROUND

FAIL_REC_BGR_DCH_DL_AC

1022: Packet Call

DCH UPLINK RECONFIG FAIL DUE TO OTHER REASONS FOR INTERACTIVE

FAIL_REC_INTERA_DCH_UL_ OTH

1022: Packet Call

DCH UPLINK RECONFIG FAIL DUE TO OTHER REASONS FOR BACKGROUND

FAIL_REC_BGR_DCH_UL_OT H

1022: Packet Call

DCH DOWNLINK RECONFIG FAIL DUE TO OTHER REASONS FOR INTERACTIVE

FAIL_REC_INTERA_DCH_DL_ OTH

1022: Packet Call

DCH DOWNLINK RECONFIG FAIL_REC_BGR_DCH_DL_OT FAIL DUE TO OTHER H REASONS FOR BACKGROUND

1022: Packet Call

CHANNEL SWITCH ATTEMPT FROM DCH TO HS-DSCH

1022: Packet Call

CHANNEL SWITCH FROM DCH SUCC_CHAN_SWI_DCH_TO_ TO HS-DSCH SUCCESSFUL HS_DSCH

1022: Packet Call

CHANNEL SWITCH ATTEMPT FROM HS-DSCH TO DCH

ATT_CHAN_SWI_HS_DSCH_T O_DCH

1022: Packet Call

CHANNEL SWITCH FROM HSDSCH TO DCH SUCCESSFUL

SUCC_CHAN_SWI_HS_DSCH _TO_DCH

1022: Packet Call

MAXIMUM DURATION OF HSDPA USER CONNECTIONS

MAX_DUR_HSDPA_USER_CO NN

ATT_CHAN_SWI_DCH_TO_HS _DSCH

1022: Packet Call

MAXIMUM DURATION OF HSUPA USER CONNECTIONS

MAX_DUR_HSUPA_USER_CO NN

1022: Packet Call

SUM OF HSDPA USER CONNECTION DURATION

SUM_DUR_HSDPA_USER_CO NN

1022: Packet Call

HSDPA USER CONNECTION DURATION DENOMINATOR

DENOM_DUR_HSDPA_USER_ CONN

1022: Packet Call

SUM OF HSUPA USER CONNECTION DURATION

SUM_DUR_HSUPA_USER_CO NN

1022: Packet Call

HSUPA USER CONNECTION DURATION DENOMINATOR

DENOM_DUR_HSUPA_USER_ CONN

1022: Packet Call

MAXIMUM DURATION OF STREAMING HS-DSCH RADIO BEARER

MAX_DUR_HSDSCH_RB_STR EA

1022: Packet Call

MINIMUM DURATION OF STREAMING HS-DSCH RADIO BEARER

MIN_DUR_HSDSCH_RB_STR EA

1022: Packet Call

SUM OF STREAMING HSDSCH RADIO BEARER DURATIONS

SUM_DUR_HSDSCH_RB_STR EA

1022: Packet Call

STREAMING HS-DSCH RB DURATION DENOMINATOR

DENOM_DUR_HSDSCH_RB_S TREA

1022: Packet Call

MAXIMUM DURATION OF INTERACTIVE HS-DSCH RADIO BEARER

MAX_DUR_HSDSCH_RB_INTE RA

1022: Packet Call

MINIMUM DURATION OF INTERACTIVE HS-DSCH RADIO BEARER

MIN_DUR_HSDSCH_RB_INTE RA

1022: Packet Call

SUM OF INTERACTIVE HSDSCH RADIO BEARER DURATIONS

SUM_DUR_HSDSCH_RB_INT ERA

1022: Packet Call

INTERACTIVE HS-DSCH RB DURATION DENOMINATOR

DENOM_DUR_HSDSCH_RB_I NTERA

1022: Packet Call

MAXIMUM DURATION OF BACKGROUND HS-DSCH RADIO BEARER

MAX_DUR_HSDSCH_RB_BGR

1022: Packet Call

MINIMUM DURATION OF BACKGROUND HS-DSCH RADIO BEARER

MIN_DUR_HSDSCH_RB_BGR

1022: Packet Call

SUM OF BACKGROUND HSDSCH RADIO BEARER DURATIONS

SUM_DUR_HSDSCH_RB_BGR

1022: Packet Call

BACKGROUND HS-DSCH RB DURATION DENOMINATOR

DENOM_DUR_HSDSCH_RB_B GR

1022: Packet Call

MAXIMUM DURATION OF STREAMING E-DCH RADIO BEARER

MAX_DUR_EDCH_RB_STREA

1022: Packet Call

MINIMUM DURATION OF STREAMING E-DCH RADIO BEARER

MIN_DUR_EDCH_RB_STREA

1022: Packet Call

SUM OF STREAMING E-DCH RADIO BEARER DURATIONS

SUM_DUR_EDCH_RB_STREA

1022: Packet Call

STREAMING E-DCH RB DURATION DENOMINATOR

DENOM_DUR_EDCH_RB_STR EA

1022: Packet Call

MAXIMUM DURATION OF INTERACTIVE E-DCH RADIO BEARER

MAX_DUR_EDCH_RB_INTERA

1022: Packet Call

MINIMUM DURATION OF INTERACTIVE E-DCH RADIO BEARER

MIN_DUR_EDCH_RB_INTERA

1022: Packet Call

SUM OF INTERACTIVE E-DCH RADIO BEARER DURATIONS

SUM_DUR_EDCH_RB_INTER A

1022: Packet Call

INTERACTIVE E-DCH RB DURATION DENOMINATOR

DENOM_DUR_EDCH_RB_INT ERA

1022: Packet Call

MAXIMUM DURATION OF BACKGROUND E-DCH RADIO BEARER

MAX_DUR_EDCH_RB_BGR

1022: Packet Call

MINIMUM DURATION OF BACKGROUND E-DCH RADIO BEARER

MIN_DUR_EDCH_RB_BGR

1022: Packet Call

SUM OF BACKGROUND E-DCH SUM_DUR_EDCH_RB_BGR RADIO BEARER DURATIONS

1022: Packet Call

BACKGROUND E-DCH RB DURATION DENOMINATOR

DENOM_DUR_EDCH_RB_BG R

1022: Packet Call

HS-DSCH/E-DCH PACKET CALL ATT FOR STREAMING

PS_ATT_HSDSCH_EDCH_ST RE

1022: Packet Call

HS-DSCH/DCH PACKET CALL ATT FOR STREAMING

PS_ATT_HSDSCH_DCH_STR E

1022: Packet Call

DCH/DCH PACKET CALL ATT FOR STREAMING

PS_ATT_DCH_DCH_STRE

1022: Packet Call

PACKET CALL SETUP FAIL DUE TO AC FOR STREAMING

PS_SETUP_FAIL_AC_STRE

1022: Packet Call

PACKET CALL SETUP FAIL PS_SETUP_FAIL_BTS_STRE DUE TO BTS FOR STREAMING

1022: Packet Call

PACKET CALL SETUP FAIL DUE TO DMCU RES FOR STREAMING

PS_SETUP_FAIL_DMCU_STR E

1022: Packet Call

PACKET CALL SETUP FAIL DUE TO TRANSM FOR STREAMING

PS_SETUP_FAIL_TRANS_STR E

1022: Packet Call

PACKET CALL SETUP FAIL DUE TO UE FOR STREAMING

PS_SETUP_FAIL_UE_STRE

1022: Packet Call

PACKET CALL SETUP FAIL DUE TO OTHER REASONS FOR STREAMING

PS_SETUP_FAIL_OTHER_ST RE

1022: Packet Call

HS-DSCH/E-DCH ALLO AFTER HS_E_REQ_HS_E_ALLO_STR HS-DSCH/E-DCH REQ FOR E STREAMING

1022: Packet Call

HS-DSCH/DCH ALLO AFTER HS-DSCH/E-DCH REQ FOR STREAMING

HS_E_REQ_HS_D_ALLO_STR E

1022: Packet Call

HS-DSCH/DCH ALLO AFTER HS-DSCH/DCH REQ FOR STREAMING

HS_D_REQ_HS_D_ALLO_STR E

1022: Packet Call

DCH/DCH ALLO AFTER HSDSCH/E-DCH REQ FOR STREAMING

HS_E_REQ_D_D_ALLO_STRE

1022: Packet Call

DCH/DCH ALLO AFTER HSDSCH/DCH REQ FOR STREAMING

HS_D_REQ_D_D_ALLO_STRE

1022: Packet Call

DCH/DCH ALLO AFTER DCH/DCH REQ FOR STREAMING

D_D_REQ_D_D_ALLO_STRE

1022: Packet Call

SWI HS-DSCH/E-DCH TO HSDSCH/DCH FOR STREAMING

PS_SWI_HS_E_TO_HS_D_ST RE

1022: Packet Call

SWI HS-DSCH/E-DCH TO DCH/DCH FOR STREAMING

PS_SWI_HS_E_TO_D_D_STR E

1022: Packet Call

SWI HS-DSCH/DCH TO DCH/DCH FOR STREAMING

PS_SWI_HS_D_TO_D_D_STR E

1022: Packet Call

SWI HS-DSCH/DCH TO HSPS_SWI_HS_D_TO_HS_E_ST DSCH/E-DCH FOR STREAMING RE

1022: Packet Call

SWI DCH/DCH TO HSDSCH/DCH FOR STREAMING

PS_SWI_D_D_TO_HS_D_STR E

1022: Packet Call

SWI DCH/DCH TO HS-DSCH/E- PS_SWI_D_D_TO_HS_E_STR DCH FOR STREAMING E

1022: Packet Call

HS-DSCH/E-DCH PACKET CALL NORM REL FOR STREAMING

PS_REL_NORM_HS_E_STRE

1022: Packet Call

HS-DSCH/DCH PACKET CALL NORM REL FOR STREAMING

PS_REL_NORM_HS_D_STRE

1022: Packet Call

DCH/DCH PACKET CALL NORM REL FOR STREAMING

PS_REL_NORM_D_D_STRE

1022: Packet Call

HS-DSCH/E-DCH PACKET CALL REL DUE TO PRE-EMP FOR STREAMING

PS_REL_PRE_EMP_HS_E_ST RE

1022: Packet Call

HS-DSCH/DCH PACKET CALL REL DUE TO PRE-EMP FOR STREAMING

PS_REL_PRE_EMP_HS_D_ST RE

1022: Packet Call

DCH/DCH PACKET CALL REL DUE TO PRE-EMP FOR STREAMING

PS_REL_PRE_EMP_D_D_STR E

1022: Packet Call

HS-DSCH/E-DCH PACKET CALL REL DUE TO RL FAIL FOR STREAMING

PS_REL_RL_FAIL_HS_E_STR E

1022: Packet Call

HS-DSCH/DCH PACKET CALL REL DUE TO RL FAIL FOR STREAMING

PS_REL_RL_FAIL_HS_D_STR E

1022: Packet Call

DCH/DCH PACKET CALL REL DUE TO RL FAIL FOR STREAMING

PS_REL_RL_FAIL_D_D_STRE

1022: Packet Call

HS-DSCH/E-DCH PACKET CALL REL DUE TO OTHER FAIL FOR STREAMING

PS_REL_OTH_FAIL_HS_E_ST RE

1022: Packet Call

HS-DSCH/DCH PACKET CALL PS_REL_OTH_FAIL_HS_D_ST REL DUE TO OTHER FAIL FOR RE STREAMING

1022: Packet Call

DCH/DCH PACKET CALL REL DUE TO OTHER FAIL FOR STREAMING

1022: Packet Call

HS-DSCH/DCH ALLO AFTER HS_E_REQ_HS_D_ALLO_INT_ HS-DSCH/E-DCH REQ INTERA CELL DUE CELL CAPABILITY

1022: Packet Call

HS-DSCH/DCH ALLO AFTER HS-DSCH/E-DCH REQ BACKG DUE CELL CAPABILITY

1022: Packet Call

HS-DSCH/DCH ALLO AFTER HS_E_REQ_HS_D_ALLO_STR HS-DSCH/E-DCH REQ STREAM _CELL DUE CELL CAPABILITY

1022: Packet Call

DCH/DCH ALLO AFTER HSDSCH/E-DCH REQ INTERA DUE CELL CAPABILITY

HS_E_REQ_D_D_ALLO_INT_C ELL

1022: Packet Call

DCH/DCH ALLO AFTER HSDSCH/E-DCH REQ BACKG DUE CELL CAPABILITY

HS_E_REQ_D_D_ALLO_BGR_ CELL

1022: Packet Call

DCH/DCH ALLO AFTER HSDSCH/E-DCH REQ STREAM DUE CELL CAPABILITY

HS_E_REQ_D_D_ALLO_STR_ CELL

1022: Packet Call

DCH/DCH ALLO AFTER HSDSCH/DCH REQ INTERA DUE CELL CAPABILITY

HS_D_REQ_D_D_ALLO_INT_ CELL

1022: Packet Call

DCH/DCH ALLO AFTER HSDSCH/DCH REQ BACKG DUE CELL CAPABILITY

HS_D_REQ_D_D_ALLO_BGR_ CELL

1022: Packet Call

DCH/DCH ALLO AFTER HSHS_D_REQ_D_D_ALLO_STR_ DSCH/DCH REQ STREAM DUE CELL CELL CAPABILITY

1022: Packet Call

CHANNEL SWITCH FROM DCHSDPA TO SC-HSDPA SUCCESSFUL

PS_REL_OTH_FAIL_D_D_STR E

HS_E_REQ_HS_D_ALLO_BGR _CELL

SUCC_SWI_DCHSDPA_TO_S CHSDPA

1022: Packet Call

CHANNEL SWITCH FROM SCHSDPA TO DC-HSDPA SUCCESSFUL

SUCC_SWI_SCHSDPA_TO_D CHSDPA

1022: Packet Call

PACKETS FROM CN WITH DSCP FOR DL TCP ACK

RX_PACKETS_DSCP_DL_TCP _ACK

1022: Packet Call

PACKETS FROM CN WITH DSCP FOR INITIAL SPI

RX_PACKETS_DSCP_INIT_SP I

1022: Packet Call

PACKETS FROM CN WITH DSCP A MARKING

RX_PACKETS_DSCP_A

1022: Packet Call

PACKETS FROM CN WITH DSCP B MARKING

RX_PACKETS_DSCP_B

1022: Packet Call

PACKETS FROM CN WITH DSCP C MARKING

RX_PACKETS_DSCP_C

1022: Packet Call

PS USER PLANE RELEASE TO PS_UP_REL_DUE_CH_SWITC DCH 0/0 DUE TO CHANNEL H_FAIL TYPE SWITCH FAILURE

1022: Packet Call

PS USER PLANE RELEASE TO PS_UP_REL_DUE_INACTIVIT DCH 0/0 DUE TO INACTIVITY Y

1022: Packet Call

ATTEMPTED HSPA TO DCH RECONFIGURATION

ATT_HSPA_TO_DCH

1022: Packet Call

SUCCESSFUL HSPA TO DCH RECONFIGURATION

SUCC_HSPA_TO_DCH

1022: Packet Call

PACKET CALL SETUP FAIL DUE TO AC UL FOR NRT

PS_SETUP_FAIL_AC_UL_NRT

1022: Packet Call

PACKET CALL SETUP FAIL DUE TO AC DL FOR NRT

PS_SETUP_FAIL_AC_DL_NRT

1022: Packet Call

PACKET CALL SETUP FAIL DUE TO AC CODE FOR NRT

PS_SETUP_FAIL_AC_COD_N RT

1022: Packet Call

RLC RESET TRIGGERED BY RNC

RLC_RESET_BY_RNC

1022: Packet Call

RLC RESET TRIGGERED BY UE

RLC_RESET_BY_UE

1022: Packet Call

RLC DL SDU BYTES RECEIVED

RLC_DL_SDU_BYTES_RECEI VED

1022: Packet Call

RLC UL SDU BYTES RECEIVED

RLC_UL_SDU_BYTES_RECEI VED

1022: Packet Call

RLC DL SDU BYTES DROPPED RLC_DL_SDU_BYTES_DROPP ED

1022: Packet Call

RLC UL PDU DROPPED

RLC_UL_PDU_DROPPED

1022: Packet Call

RLC DL PDU SENT

RLC_DL_PDU_SENT

1022: Packet Call

RLC DL PDU ACKED

RLC_DL_PDU_ACKED

1022: Packet Call

RLC DL PDU RETRANSMITTED RLC_DL_PDU_RETRANSMITT ED

1022: Packet Call

RLC DL PDU DISCARDED

1022: Packet Call

RLC TRANSMISSION WINDOW RLC_TRANSM_WINDOW_STA STALL LL

RLC_DL_PDU_DISCARDED

1022: Packet Call

CHANNEL SWITCH FROM SCHSUPA TO DC-HSUPA SUCCESSFUL

SUCC_SWI_SCHSUPA_TO_D CHSUPA

1022: Packet Call

CHANNEL SWITCH FROM DCHSUPA TO SC-HSUPA SUCCESSFUL

SUCC_SWI_DCHSUPA_TO_S CHSUPA

1022: Packet Call

CHANNEL SWITCH FROM SCHSDPA TO MC-HSDPA SUCCESSFUL

SUCC_SWI_SCHSDPA_TO_M CHSDPA

1022: Packet Call

CHANNEL SWITCH FROM MC- SUCC_SWI_MCHSDPA_TO_S HSDPA TO SC-HSDPA CHSDPA SUCCESSFUL

1022: Packet Call

CHANNEL SWITCH FROM DCHSDPA TO MC-HSDPA SUCCESSFUL

1022: Packet Call

CHANNEL SWITCH FROM MC- SUCC_SWI_MCHSDPA_TO_D HSDPA TO DC-HSDPA CHSDPA SUCCESSFUL

1022: Packet Call

SUCCESSFUL HSUPA DATA SUCC_HSUPA_DOWNGR_INT RATE DOWNGRADES DUE TO ERF_RED INTERFERENCE REDUCTION

1022: Packet Call

SUCCESSFUL UL DCH DATA SUCC_DCH_DOWNGR_INTER RATE DOWNGRADES DUE TO F_RED INTERFERENCE REDUCTION

1022: Packet Call

UDC ACTIVATION ATTEMPTS

UDC_ACT_ATTEMPT

1022: Packet Call

SUCCESSFUL UDC ACTIVATION

UDC_ACT_SUCC

1022: Packet Call

IMPLICIT UDC DEACTIVATION UDC_DEACT_IMPLICIT

1022: Packet Call

UE NUMBER SUPPORTING UDC

SUCC_SWI_DCHSDPA_TO_M CHSDPA

UE_NUM_SUPPORT_UDC

1022: Packet Call

RECEIVED UDC SDU BYTES COMPRESSED

REC_UDC_SDU_BYTES_COM P

1022: Packet Call

RECEIVED UDC SDU BYTES DECOMPRESSED

REC_UDC_SDU_BYTES_DEC OMP

1022: Packet Call

RADIO BEARER RECONFIG PREVENTED DUE TO BAD CPICH RSCP

RB_RECONF_PREVENTED_R SCP

1022: Packet Call

RADIO BEARER RECONFIG PREVENTED DUE TO BAD CPICH ECNO

RB_RECONF_PREVENTED_E CNO

1022: Packet Call

FDPCH OR EDCH TTI 2MS PREVENTED

FDPCH_EDCH_TTI_2MS_PRE VENTED

1022: Packet Call

PS NRT USER PLANE ALLO FOR LTE CAPABLE UES

PSNRT_USER_PLANE_ALLO_ LTE

1023: Cell Throughput

TRANSFERRED DATA FOR SIGNALLING RB DCH UL

SIGN_RB_DCH_UL_DATA_VO L

1023: Cell Throughput

TRANSFERRED DATA FOR SIGNALLING RB DCH DL

SIGN_RB_DCH_DL_DATA_VO L

1023: Cell Throughput

TRANSFERRED DATA FOR CS CS_DCH_UL_DATA_VOL CALL DCH UL

1023: Cell Throughput

TRANSFERRED DATA FOR CS CS_DCH_DL_DATA_VOL CALL DCH DL

1023: Cell Throughput

TRANSFERRED DATA FOR PS RT_PS_DCH_UL_DATA_VOL RT DCH UL

1023: Cell Throughput

TRANSFERRED DATA FOR PS RT_PS_DCH_DL_DATA_VOL RT DCH DL

1023: Cell Throughput

TRANSFERRED DATA FOR NRT DCH UL

NRT_DCH_UL_DATA_VOL

1023: Cell Throughput

TRANSFERRED DATA FOR NRT DCH DL

NRT_DCH_DL_DATA_VOL

1023: Cell Throughput

TRANSFERRED DATA FOR HS- HS_DSCH_DATA_VOL DSCH

1023: Cell Throughput

TRANSFERRED DATA FOR NRT DCH FOR HSDPA RETURN CHANNEL UL

NRT_DCH_HSDPA_UL_DATA_ VOL

1023: Cell Throughput

TRANSFERRED DATA FOR NRT E-DCH

NRT_EDCH_UL_DATA_VOL

1023: Cell Throughput

TRANSFERRED DATA FOR AMR IN UL

AMR_UL_DATA

1023: Cell Throughput

TRANSFERRED DATA FOR AMR IN DL

AMR_DL_DATA

1023: Cell Throughput

TRANSFERRED DATA FOR CS CS_CONV_UL_DATA CONVERSATIONAL IN UL

1023: Cell Throughput

TRANSFERRED DATA FOR CS CS_CONV_DL_DATA CONVERSATIONAL IN DL

1023: Cell Throughput

TRANSFERRED DATA FOR CS CS_STREA_UL_DATA STREAMING IN UL

1023: Cell Throughput

TRANSFERRED DATA FOR CS CS_STREA_DL_DATA STREAMING IN DL

1023: Cell Throughput

TRANSFERRED DATA FOR PS PS_STREA_UL_DATA STREAMING IN UL

1023: Cell Throughput

TRANSFERRED DATA FOR PS PS_STREA_DL_DATA STREAMING IN DL

1023: Cell Throughput

TRANSFERRED DATA FOR INTERACTIVE IN UL

INTERA_UL_DATA

1023: Cell Throughput

TRANSFERRED DATA FOR INTERACTIVE IN DL

INTERA_DL_DATA

1023: Cell Throughput

TRANSFERRED DATA FOR BACKGROUND IN UL

BGR_UL_DATA

1023: Cell Throughput

TRANSFERRED DATA FOR BACKGROUND IN DL

BGR_DL_DATA

1023: Cell Throughput

TRANSFERRED DATA FOR RT RT_E_DCH_UL_STREA_DATA E-DCH STREAMING UL

1023: Cell Throughput

TRANSFERRED DATA FOR RT RT_DCH_HSDPA_UL_STREA_ DCH STREAMING FOR HSDPA DATA RETURN CHANNEL UL

1023: Cell Throughput

TRANSFERRED DATA FOR RT RT_HS_DSCH_DL_STREA_DA HS-DSCH STREAMING DL TA

1023: Cell Throughput

TRANSFERRED HS-DSCH DATA FOR CS VOICE

AMR_HS_DSCH_DATA_VOL

1023: Cell Throughput

TRANSFERRED E-DCH DATA FOR CS VOICE

AMR_EDCH_DATA_VOL

1023: Cell Throughput

TRANSFERRED DATA FOR NRT E-DCH IN ENCHANCED CELL_FACH STATE

NRT_EDCH_EFACH_UL_DATA

1023: Cell Throughput

TRANSFERRED DATA FOR SIGNALLING RB DCH UL IN ENCHANCED CELL_FACH STATE

SIGN_RB_EDCH_EFACH_UL_ DATA

1023: Cell Throughput

TRANSFERRED DATA FOR NRT E-DCH FOR LTE CAPABLE UES

NRT_EDCH_UL_DATA_VOL_L TE

1023: Cell Throughput

TRANSFERRED DATA FOR HS- HS_DSCH_DATA_VOL_LTE DSCH FOR LTE CAPABLE UES

1024: RCPM OLPC WCEL

AVERAGE UL EB/NO FOR WCEL

UL_AVERAGE_EBNO_W

1024: RCPM OLPC WCEL

UL AVERAGE EB/NO DENOMINATOR FOR WCEL

UL_AVERAGE_EBNO_DENOM _W

1024: RCPM OLPC WCEL

UL NUMBER OF RECEIVED EB/NO REPORTS FOR WCEL

UL_NUM_EBNO_REPORTS_W

1024: RCPM OLPC WCEL

UPLINK CRC OK BLOCKS FOR UL_CRC_OKS_W WCEL

1024: RCPM OLPC WCEL

UPLINK CRC NOK BLOCKS FOR WCEL

UL_CRC_NOKS_W

1024: RCPM OLPC WCEL

UL NUMBER OF RECEIVED BLER REPORTS FOR WCEL

UL_NUM_BLER_REPORTS_W

1024: RCPM OLPC WCEL

UL AVERAGE BER FOR WCEL

UL_AVERAGE_BER_W

1024: RCPM OLPC WCEL

UL AVERAGE BER DENOMINATOR FOR WCEL

UL_AVERAGE_BER_DENOM_ W

1024: RCPM OLPC WCEL

UL NUMBER OF RECEIVED UL UL_NUM_OF_BER_REPORTS BER REPORTS FOR WCEL _W

1024: RCPM OLPC WCEL

BAD UPLINK CONNECTIONS FOR WCEL

UL_BAD_CONNECTIONS_W

1024: RCPM OLPC WCEL

IDEAL UPLINK CONNECTIONS UL_IDEAL_CONNECTIONS_W FOR WCEL

1024: RCPM OLPC WCEL

TOO GOOD UPLINK CONNECTIONS FOR WCEL

1024: RCPM OLPC WCEL

AVERAGE RADIO LINK POWER RL_POWER_SUM_DL_W IN DL FOR WCEL

1024: RCPM OLPC WCEL

DL RADIO LINK POWER SAMPLES FOR WCEL

1024: RCPM OLPC WCEL

RL REPORTS WITH MAXIMUM RL_POWER_NO_OF_OUTAGE POWER VALUE FOR WCEL _DL_W

1024: RCPM OLPC WCEL

UL E-DCH HARQ RETRANSMISSIONS FOR WCEL

1025: RCPM OLPC RNC

AVERAGE UL EB/NO FOR RNC UL_AVERAGE_EBNO_R

1025: RCPM OLPC RNC

UL AVERAGE EB/NO DENOMINATOR FOR RNC

UL_AVERAGE_EBNO_DENOM _R

1025: RCPM OLPC RNC

UL NUMBER OF RECEIVED EB/NO REPORTS FOR RNC

UL_NUM_EBNO_REPORTS_R

1025: RCPM OLPC RNC

UPLINK CRC OK BLOCKS FOR UL_CRC_OKS_R RNC

1025: RCPM OLPC RNC

UPLINK CRC NOK BLOCKS FOR RNC

UL_CRC_NOKS_R

1025: RCPM OLPC RNC

UL NUMBER OF RECEIVED BLER REPORTS FOR RNC

UL_NUM_BLER_REPORTS_R

UL_TOO_GOOD_CONNECTIO NS_W

RL_POWER_NO_OF_SAMPLE S_DL_W

UL_EDCH_HARQ_RETRANS_ W

1025: RCPM OLPC RNC

UL AVERAGE BER FOR RNC

UL_AVERAGE_BER_R

1025: RCPM OLPC RNC

UL AVERAGE BER DENOMINATOR FOR RNC

UL_AVERAGE_BER_DENOM_ R

1025: RCPM OLPC RNC

UL NUMBER OF RECEIVED UL UL_NUM_OF_BER_REPORTS BER REPORTS FOR RNC _R

1025: RCPM OLPC RNC

BAD UPLINK CONNECTIONS FOR RNC

1025: RCPM OLPC RNC

IDEAL UPLINK CONNECTIONS UL_IDEAL_CONNECTIONS_R FOR RNC

1025: RCPM OLPC RNC

TOO GOOD UPLINK CONNECTIONS FOR RNC

1025: RCPM OLPC RNC

AVERAGE RADIO LINK POWER RL_POWER_SUM_DL_R IN DL FOR RNC

1025: RCPM OLPC RNC

DL RADIO LINK POWER SAMPLES FOR RNC

1025: RCPM OLPC RNC

RL REPORTS WITH MAXIMUM RL_POWER_NO_OF_OUTAGE POWER VALUE FOR RNC _DL_R

1025: RCPM OLPC RNC

UL E-DCH HARQ UL_EDCH_HARQ_RETRANS_ RETRANSMISSIONS FOR RNC R

1026: RCPM RLC WCEL

AVERAGE AM RLC TRANSMISSION BUFFER OCCUPANCY FOR WCEL

RLC_AM_PDU_DL_AVG_BUF_ OCC_W

1026: RCPM RLC WCEL

AVERAGE PDCP BUFFER OCCUPANCY FOR WCEL

RLC_AM_PDCP_DL_AVG_BUF _OCC_W

UL_BAD_CONNECTIONS_R

UL_TOO_GOOD_CONNECTIO NS_R

RL_POWER_NO_OF_SAMPLE S_DL_R

1026: RCPM RLC WCEL

REPORTS FOR AVERAGE DL BUFFER OCCUPANCY FOR WCEL

RLC_AM_DL_BUFFER_REPO RTS_W

1026: RCPM RLC WCEL

DL PDU ERROR RATIO IN AM RLC FOR WCEL

RLC_AM_PDU_DL_ERR_RATI O_W

1026: RCPM RLC WCEL

AM RLC PDUS TRANSMITTED IN DOWNLINK FOR WCEL

RLC_AM_PDU_DL_TOTAL_TR ANS_W

1026: RCPM RLC WCEL

RECEIVED DL PDU REPORTS FOR WCEL

RLC_AM_PDU_DL_ERR_REP ORTS_W

1026: RCPM RLC WCEL

BAD RLC AM DL CONNECTIONS FOR WCEL

RLC_AM_PDU_DL_BAD_CON N_W

1026: RCPM RLC WCEL

TOO GOOD RLC AM DL CONNECTIONS FOR WCEL

RLC_AM_PDU_DL_TOO_GOO D_CON_W

1026: RCPM RLC WCEL

IDEAL RLC AM DL CONNECTIONS FOR WCEL

RLC_AM_PDU_DL_IDEAL_CO NN_W

1026: RCPM RLC WCEL

DL GROSS THROUGHPUT OF AM RLC PDU FOR WCEL

RLC_AM_PDU_DL_GR_TP_W

1026: RCPM RLC WCEL

REPORTS FOR DL AM RLC THROUGHPUT FOR WCEL

RLC_AM_PDU_DL_TP_REPO RTS_W

1026: RCPM RLC WCEL

DL NET THROUGHPUT OF AM RLC_AM_PDU_DL_NET_TP_W RLC PDU FOR WCEL

1026: RCPM RLC WCEL

AVERAGE NUMBER OF TRANSMISSIONS PER PDU IN AM RLC DL FOR WCEL

RLC_AM_PDU_DL_AVG_TRA NS_W

1026: RCPM RLC WCEL

PDU DISCARD RATIO IN AM RLC DL FOR WCEL

RLC_AM_PDU_DL_DISCARD_ RAT_W

1026: RCPM RLC WCEL

AM RLC DL PDUS FOR TRANSMISSION FOR WCEL

RLC_AM_PDU_DL_FOR_TRA NS_W

1026: RCPM RLC WCEL

RLC AM SDU DL ERROR RATIO FOR WCEL

RLC_AM_SDU_DL_ERROR_R ATIO_W

1026: RCPM RLC WCEL

RLC AM DL AVERAGE TRANSFER DELAY OF SDU FOR WCEL

RLC_AM_SDU_DL_AVG_TR_D ELAY_W

1026: RCPM RLC WCEL

RLC AM DL SUM OF AVE TRANSFER DELAY OF SDU FOR WCEL

RLC_AM_SDU_DL_SUM_TR_ DELAY_W

1026: RCPM RLC WCEL

RLC AM DL SUM OF STANDARD DEVIATIONS OF TRANSFER DELAY OF SDU FOR WCEL

RLC_AM_SDU_SUM_TR_DEL_ STAD_W

1026: RCPM RLC WCEL

SDUS FOR TRANSMISSION IN RLC_AM_SDU_DL_SDUS_FO RLC AM DL FOR WCEL R_TRA_W

1026: RCPM RLC WCEL

MEASUREMENT TIME PERIOD RLC_AM_DL_MEAS_TIME_W FOR DL RLC AM FOR WCEL

1026: RCPM RLC WCEL

UL RLC AM SDU PAYLOAD OF RLC_AM_SDU_UL_PS_VOL_ PS TRAFFIC FOR WCEL W

1026: RCPM RLC WCEL

DL RLC AM SDU PAYLOAD OF RLC_AM_SDU_DL_PS_VOL_ PS TRAFFIC FOR WCEL W

1026: RCPM RLC WCEL

TRANSMITTED AM RLC PDUS IN UPLINK FOR WCEL

1026: RCPM RLC WCEL

MEASUREMENT TIME PERIOD RLC_AM_UL_MEAS_TIME_W FOR UL RLC AM FOR WCEL

1026: RCPM RLC WCEL

USER DL THROUGHPUT USER_DL_THRP_DIST_CLAS DISTRIBUTION - CLASS 1 FOR S_1_W WCEL

RLC_AM_PDU_UL_FOR_TRA NS_W

1026: RCPM RLC WCEL

USER DL THROUGHPUT USER_DL_THRP_DIST_CLAS DISTRIBUTION - CLASS 2 FOR S_2_W WCEL

1026: RCPM RLC WCEL

USER DL THROUGHPUT USER_DL_THRP_DIST_CLAS DISTRIBUTION - CLASS 3 FOR S_3_W WCEL

1026: RCPM RLC WCEL

USER DL THROUGHPUT USER_DL_THRP_DIST_CLAS DISTRIBUTION - CLASS 4 FOR S_4_W WCEL

1026: RCPM RLC WCEL

USER DL THROUGHPUT USER_DL_THRP_DIST_CLAS DISTRIBUTION - CLASS 5 FOR S_5_W WCEL

1026: RCPM RLC WCEL

USER DL THROUGHPUT USER_DL_THRP_DIST_CLAS DISTRIBUTION - CLASS 6 FOR S_6_W WCEL

1026: RCPM RLC WCEL

USER DL THROUGHPUT USER_DL_THRP_DIST_CLAS DISTRIBUTION - CLASS 7 FOR S_7_W WCEL

1026: RCPM RLC WCEL

USER DL THROUGHPUT USER_DL_THRP_DIST_CLAS DISTRIBUTION - CLASS 8 FOR S_8_W WCEL

1026: RCPM RLC WCEL

USER DL THROUGHPUT USER_DL_THRP_DIST_CLAS DISTRIBUTION - CLASS 9 FOR S_9_W WCEL

1026: RCPM RLC WCEL

USER DL THROUGHPUT DISTRIBUTION - CLASS 10 FOR WCEL

1026: RCPM RLC WCEL

RLC RETRANSMISSION RLC_RETRANS_DISTR_CLAS DISTRIBUTION - CLASS 0 FOR S_0_W WCEL

1026: RCPM RLC WCEL

RLC RETRANSMISSION RLC_RETRANS_DISTR_CLAS DISTRIBUTION - CLASS 1 FOR S_1_W WCEL

1026: RCPM RLC WCEL

RLC RETRANSMISSION RLC_RETRANS_DISTR_CLAS DISTRIBUTION - CLASS 2 FOR S_2_W WCEL

USER_DL_THRP_DIST_CLAS S_10_W

1026: RCPM RLC WCEL

RLC RETRANSMISSION RLC_RETRANS_DISTR_CLAS DISTRIBUTION - CLASS 3 FOR S_3_W WCEL

1026: RCPM RLC WCEL

RLC RETRANSMISSION RLC_RETRANS_DISTR_CLAS DISTRIBUTION - CLASS 4 FOR S_4_W WCEL

1026: RCPM RLC WCEL

RLC RETRANSMISSION RLC_RETRANS_DISTR_CLAS DISTRIBUTION - CLASS 5 FOR S_5_W WCEL

1026: RCPM RLC WCEL

USER DL THROUGHPUT DISTRIBUTION - CLASS 11 FOR WCEL

USER_DL_THRP_DIST_CLAS S_11_W

1026: RCPM RLC WCEL

USER DL THROUGHPUT DISTRIBUTION - CLASS 12 FOR WCEL

USER_DL_THRP_DIST_CLAS S_12_W

1026: RCPM RLC WCEL

USER DL THROUGHPUT DISTRIBUTION - CLASS 13 FOR WCEL

USER_DL_THRP_DIST_CLAS S_13_W

1026: RCPM RLC WCEL

USER UL THROUGHPUT USER_UL_THRP_DIST_CLAS DISTRIBUTION - CLASS 1 FOR S_1_W WCEL

1026: RCPM RLC WCEL

USER UL THROUGHPUT USER_UL_THRP_DIST_CLAS DISTRIBUTION - CLASS 2 FOR S_2_W WCEL

1026: RCPM RLC WCEL

USER UL THROUGHPUT USER_UL_THRP_DIST_CLAS DISTRIBUTION - CLASS 3 FOR S_3_W WCEL

1026: RCPM RLC WCEL

USER UL THROUGHPUT USER_UL_THRP_DIST_CLAS DISTRIBUTION - CLASS 4 FOR S_4_W WCEL

1026: RCPM RLC WCEL

USER UL THROUGHPUT USER_UL_THRP_DIST_CLAS DISTRIBUTION - CLASS 5 FOR S_5_W WCEL

1027: RCPM RLC RNC

AVERAGE AM RLC TRANSMISSION BUFFER OCCUPANCY FOR RNC

RLC_AM_PDU_DL_AVG_BUF_ OCC_R

1027: RCPM RLC RNC

AVERAGE PDCP BUFFER OCCUPANCY FOR RNC

RLC_AM_PDCP_DL_AVG_BUF _OCC_R

1027: RCPM RLC RNC

REPORTS FOR AVERAGE DL BUFFER OCCUPANCY FOR RNC

RLC_AM_DL_BUFFER_REPO RTS_R

1027: RCPM RLC RNC

DL PDU ERROR RATIO IN AM RLC FOR RNC

RLC_AM_PDU_DL_ERR_RATI O_R

1027: RCPM RLC RNC

AM RLC PDUS TRANSMITTED IN DOWNLINK FOR RNC

RLC_AM_PDU_DL_TOTAL_TR ANS_R

1027: RCPM RLC RNC

RECEIVED DL PDU REPORTS FOR RNC

RLC_AM_PDU_DL_ERR_REP ORTS_R

1027: RCPM RLC RNC

BAD RLC AM DL CONNECTIONS FOR RNC

RLC_AM_PDU_DL_BAD_CON N_R

1027: RCPM RLC RNC

TOO GOOD RLC AM DL CONNECTIONS FOR RNC

RLC_AM_PDU_DL_TOO_GOO D_CON_R

1027: RCPM RLC RNC

IDEAL RLC AM DL CONNECTIONS FOR RNC

RLC_AM_PDU_DL_IDEAL_CO NN_R

1027: RCPM RLC RNC

DL GROSS THROUGHPUT OF AM RLC PDU FOR RNC

RLC_AM_PDU_DL_GR_TP_R

1027: RCPM RLC RNC

REPORTS FOR DL AM RLC THROUGHPUT FOR RNC

RLC_AM_PDU_DL_TP_REPO RTS_R

1027: RCPM RLC RNC

DL NET THROUGHPUT OF AM RLC_AM_PDU_DL_NET_TP_R RLC PDU FOR RNC

1027: RCPM RLC RNC

AVERAGE NUMBER OF TRANSMISSIONS PER PDU IN AM RLC DL FOR RNC

RLC_AM_PDU_DL_AVG_TRA NS_R

1027: RCPM RLC RNC

PDU DISCARD RATIO IN AM RLC DL FOR RNC

RLC_AM_PDU_DL_DISCARD_ RAT_R

1027: RCPM RLC RNC

AM RLC DL PDUS FOR TRANSMISSION FOR RNC

RLC_AM_PDU_DL_FOR_TRA NS_R

1027: RCPM RLC RNC

RLC AM SDU DL ERROR RATIO FOR RNC

RLC_AM_SDU_DL_ERROR_R ATIO_R

1027: RCPM RLC RNC

RLC AM DL AVERAGE TRANSFER DELAY OF SDU FOR RNC

RLC_AM_SDU_DL_AVG_TR_D ELAY_R

1027: RCPM RLC RNC

RLC AM DL SUM OF AVE TRANSFER DELAY OF SDU FOR RNC

RLC_AM_SDU_DL_SUM_TR_ DELAY_R

1027: RCPM RLC RNC

RLC AM DL SUM OF STANDARD DEVIATIONS OF TRANSFER DELAY OF SDU FOR RNC

RLC_AM_SDU_SUM_TR_DEL_ STAD_R

1027: RCPM RLC RNC

SDUS FOR TRANSMISSION IN RLC_AM_SDU_DL_SDUS_FO RLC AM DL FOR RNC R_TRA_R

1027: RCPM RLC RNC

MEASUREMENT TIME PERIOD RLC_AM_DL_MEAS_TIME_R FOR DL RLC AM FOR RNC

1027: RCPM RLC RNC

UL RLC AM SDU PAYLOAD OF RLC_AM_SDU_UL_PS_VOL_R PS TRAFFIC FOR RNC

1027: RCPM RLC RNC

DL RLC AM SDU PAYLOAD OF RLC_AM_SDU_DL_PS_VOL_R PS TRAFFIC FOR RNC

1027: RCPM RLC RNC

TRANSMITTED AM RLC PDUS IN UPLINK FOR RNC

1027: RCPM RLC RNC

MEASUREMENT TIME PERIOD RLC_AM_UL_MEAS_TIME_R FOR UL RLC AM FOR RNC

RLC_AM_PDU_UL_FOR_TRA NS_R

1027: RCPM RLC RNC

USER DL THROUGHPUT USER_DL_THRP_DIST_CLAS DISTRIBUTION - CLASS 1 FOR S_1_R RNC

1027: RCPM RLC RNC

USER DL THROUGHPUT USER_DL_THRP_DIST_CLAS DISTRIBUTION - CLASS 2 FOR S_2_R RNC

1027: RCPM RLC RNC

USER DL THROUGHPUT USER_DL_THRP_DIST_CLAS DISTRIBUTION - CLASS 3 FOR S_3_R RNC

1027: RCPM RLC RNC

USER DL THROUGHPUT USER_DL_THRP_DIST_CLAS DISTRIBUTION - CLASS 4 FOR S_4_R RNC

1027: RCPM RLC RNC

USER DL THROUGHPUT USER_DL_THRP_DIST_CLAS DISTRIBUTION - CLASS 5 FOR S_5_R RNC

1027: RCPM RLC RNC

USER DL THROUGHPUT USER_DL_THRP_DIST_CLAS DISTRIBUTION - CLASS 6 FOR S_6_R RNC

1027: RCPM RLC RNC

USER DL THROUGHPUT USER_DL_THRP_DIST_CLAS DISTRIBUTION - CLASS 7 FOR S_7_R RNC

1027: RCPM RLC RNC

USER DL THROUGHPUT USER_DL_THRP_DIST_CLAS DISTRIBUTION - CLASS 8 FOR S_8_R RNC

1027: RCPM RLC RNC

USER DL THROUGHPUT USER_DL_THRP_DIST_CLAS DISTRIBUTION - CLASS 9 FOR S_9_R RNC

1027: RCPM RLC RNC

USER DL THROUGHPUT DISTRIBUTION - CLASS 10 FOR RNC

1027: RCPM RLC RNC

RLC RETRANSMISSION RLC_RETRANS_DISTR_CLAS DISTRIBUTION - CLASS 0 FOR S_0_R RNC

1027: RCPM RLC RNC

RLC RETRANSMISSION RLC_RETRANS_DISTR_CLAS DISTRIBUTION - CLASS 1 FOR S_1_R RNC

USER_DL_THRP_DIST_CLAS S_10_R

1027: RCPM RLC RNC

RLC RETRANSMISSION RLC_RETRANS_DISTR_CLAS DISTRIBUTION - CLASS 2 FOR S_2_R RNC

1027: RCPM RLC RNC

RLC RETRANSMISSION RLC_RETRANS_DISTR_CLAS DISTRIBUTION - CLASS 3 FOR S_3_R RNC

1027: RCPM RLC RNC

RLC RETRANSMISSION RLC_RETRANS_DISTR_CLAS DISTRIBUTION - CLASS 4 FOR S_4_R RNC

1027: RCPM RLC RNC

RLC RETRANSMISSION RLC_RETRANS_DISTR_CLAS DISTRIBUTION - CLASS 5 FOR S_5_R RNC

1027: RCPM RLC RNC

USER DL THROUGHPUT DISTRIBUTION - CLASS 11 FOR RNC

USER_DL_THRP_DIST_CLAS S_11_R

1027: RCPM RLC RNC

USER DL THROUGHPUT DISTRIBUTION - CLASS 12 FOR RNC

USER_DL_THRP_DIST_CLAS S_12_R

1027: RCPM RLC RNC

USER DL THROUGHPUT DISTRIBUTION - CLASS 13 FOR RNC

USER_DL_THRP_DIST_CLAS S_13_R

1027: RCPM RLC RNC

USER UL THROUGHPUT USER_UL_THRP_DIST_CLAS DISTRIBUTION - CLASS 1 FOR S_1_R RNC

1027: RCPM RLC RNC

USER UL THROUGHPUT USER_UL_THRP_DIST_CLAS DISTRIBUTION - CLASS 2 FOR S_2_R RNC

1027: RCPM RLC RNC

USER UL THROUGHPUT USER_UL_THRP_DIST_CLAS DISTRIBUTION - CLASS 3 FOR S_3_R RNC

1027: RCPM RLC RNC

USER UL THROUGHPUT USER_UL_THRP_DIST_CLAS DISTRIBUTION - CLASS 4 FOR S_4_R RNC

1027: RCPM RLC RNC

USER UL THROUGHPUT USER_UL_THRP_DIST_CLAS DISTRIBUTION - CLASS 5 FOR S_5_R RNC

1028: Autodef SHO DSR

CPICH ECNO DETECTED CELL CPICH_ECNO_DET_SUM SUM

1028: Autodef SHO DSR

CPICH ECNO DETECTED CELL CPICH_ECNO_DET_DENOM DENOM

1028: Autodef SHO DSR

CPICH RSCP DETECTED CELL CPICH_RSCP_DET_SUM SUM

1028: Autodef SHO DSR

CPICH RSCP DETECTED CELL CPICH_RSCP_DET_DENOM DENOM

1029: Device Detection

IMEI QUERY SENT BY RNC

SENT_IMEI_QUERY

1029: Device Detection

FEATURE WHITELIST OPERATIONS

FEATURE_WHITELIST_OPER

1029: Device Detection

FEATURE BLACKLIST OPERATIONS

FEATURE_BLACKLIST_OPER

1031: WBTS Resource

MAX NUMBER OF HSDPA USERS PER WBTS

MAX_HSDPA_USERS_PER_W BTS

1031: WBTS Resource

MAX NUMBER OF HSUPA USERS PER WBTS

MAX_HSUPA_USERS_PER_W BTS

1031: WBTS Resource

SUM OF HSDPA USERS PER WBTS

SUM_HSDPA_USERS_PER_W BTS

1031: WBTS Resource

SUM OF HSUPA USERS PER WBTS

SUM_HSUPA_USERS_PER_W BTS

1031: WBTS Resource

HSPA USERS PER WBTS DENOMINATOR

DENOM_HSPA_USERS_PER_ WBTS

1031: WBTS Resource

SUCCESSFUL HSPA05 RECONF DUE CELL SHUTDOWN

SUCC_HSPA05_RECONF_SH UTD

1031: WBTS Resource

UNSUCCESSFUL HSPA05 RECONF DUE CELL SHUTDOWN

UNSUCC_HSPA05_RECONF_ SHUTD

1031: WBTS Resource

SUCCESSFUL HSPA05 RECONF DUE CELL ACTIVATION

SUCC_HSPA05_RECONF_AC T

1031: WBTS Resource

UNSUCCESSFUL HSPA05 RECONF DUE CELL ACTIVATION

UNSUCC_HSPA05_RECONF_ ACT

1032: CS Voice HSPA User Plane

CS VOICE HSPA JITTER CLASS 0

CS_VOICE_HSPA_JITTER_CL ASS_0

1032: CS Voice HSPA User Plane

CS VOICE HSPA JITTER CLASS 1

CS_VOICE_HSPA_JITTER_CL ASS_1

1032: CS Voice HSPA User Plane

CS VOICE HSPA JITTER CLASS 2

CS_VOICE_HSPA_JITTER_CL ASS_2

1032: CS Voice HSPA User Plane

CS VOICE HSPA JITTER CLASS 3

CS_VOICE_HSPA_JITTER_CL ASS_3

1032: CS Voice HSPA User Plane

CS VOICE HSPA JITTER CLASS 4

CS_VOICE_HSPA_JITTER_CL ASS_4

1032: CS Voice HSPA User Plane

CS VOICE HSPA JITTER CLASS 5

CS_VOICE_HSPA_JITTER_CL ASS_5

1032: CS Voice HSPA User Plane

CS VOICE HSPA DELAY 10TTI CLASS 0

CS_VOICE_DELAY_10TTI_CL ASS_0

1032: CS Voice HSPA User Plane

CS VOICE HSPA DELAY 10TTI CLASS 1

CS_VOICE_DELAY_10TTI_CL ASS_1

1032: CS Voice HSPA User Plane

CS VOICE HSPA DELAY 10TTI CLASS 2

CS_VOICE_DELAY_10TTI_CL ASS_2

1032: CS Voice HSPA User Plane

CS VOICE HSPA DELAY 10TTI CLASS 3

CS_VOICE_DELAY_10TTI_CL ASS_3

1032: CS Voice HSPA User Plane

CS VOICE HSPA DELAY 10TTI CLASS 4

CS_VOICE_DELAY_10TTI_CL ASS_4

1032: CS Voice HSPA User Plane

CS VOICE HSPA DELAY 10TTI CLASS 5

CS_VOICE_DELAY_10TTI_CL ASS_5

1032: CS Voice HSPA User Plane

CS VOICE HSPA DELAY 10TTI CLASS 6

CS_VOICE_DELAY_10TTI_CL ASS_6

1032: CS Voice HSPA User Plane

CS VOICE HSPA DELAY 2TTI CLASS 0

CS_VOICE_DELAY_2TTI_CLA SS_0

1032: CS Voice HSPA User Plane

CS VOICE HSPA DELAY 2TTI CLASS 1

CS_VOICE_DELAY_2TTI_CLA SS_1

1032: CS Voice HSPA User Plane

CS VOICE HSPA DELAY 2TTI CLASS 2

CS_VOICE_DELAY_2TTI_CLA SS_2

1032: CS Voice HSPA User Plane

CS VOICE HSPA DELAY 2TTI CLASS 3

CS_VOICE_DELAY_2TTI_CLA SS_3

1032: CS Voice HSPA User Plane

CS VOICE HSPA DELAY 2TTI CLASS 4

CS_VOICE_DELAY_2TTI_CLA SS_4

1032: CS Voice HSPA User Plane

CS VOICE HSPA DELAY 2TTI CLASS 5

CS_VOICE_DELAY_2TTI_CLA SS_5

1032: CS Voice HSPA User Plane

CS VOICE HSPA DELAY 2TTI CLASS 6

CS_VOICE_DELAY_2TTI_CLA SS_6

1032: CS Voice HSPA User Plane

TOTAL UL FRAMES CS VOICE HSPA

TOTAL_UL_FRAMES_CS_V_H SPA

1032: CS Voice HSPA User Plane

LATE UL FRAMES CS VOICE HSPA

LATE_UL_FRAMES_CS_V_HS PA

1033: CPICH Quality

RRC CPICH ECNO CLASS 0

RRC_CPICH_ECNO_CLASS_0

1033: CPICH Quality

RRC CPICH ECNO CLASS 1

RRC_CPICH_ECNO_CLASS_1

1033: CPICH Quality

RRC CPICH ECNO CLASS 2

RRC_CPICH_ECNO_CLASS_2

1033: CPICH Quality

RRC CPICH ECNO CLASS 3

RRC_CPICH_ECNO_CLASS_3

1033: CPICH Quality

RRC CPICH ECNO CLASS 4

RRC_CPICH_ECNO_CLASS_4

1033: CPICH Quality

RRC CPICH ECNO CLASS 5

RRC_CPICH_ECNO_CLASS_5

1033: CPICH Quality

RRC CPICH ECNO CLASS 6

RRC_CPICH_ECNO_CLASS_6

1033: CPICH Quality

RRC CPICH ECNO CLASS 7

RRC_CPICH_ECNO_CLASS_7

1033: CPICH Quality

RRC CPICH ECNO CLASS 8

RRC_CPICH_ECNO_CLASS_8

1033: CPICH Quality

RRC CPICH ECNO CLASS 9

RRC_CPICH_ECNO_CLASS_9

1033: CPICH Quality

RRC CPICH RSCP CLASS 0

RRC_CPICH_RSCP_CLASS_0

1033: CPICH Quality

RRC CPICH RSCP CLASS 1

RRC_CPICH_RSCP_CLASS_1

1033: CPICH Quality

RRC CPICH RSCP CLASS 2

RRC_CPICH_RSCP_CLASS_2

1033: CPICH Quality

RRC CPICH RSCP CLASS 3

RRC_CPICH_RSCP_CLASS_3

1033: CPICH Quality

RRC CPICH RSCP CLASS 4

RRC_CPICH_RSCP_CLASS_4

1033: CPICH Quality

RRC CPICH RSCP CLASS 5

RRC_CPICH_RSCP_CLASS_5

1033: CPICH Quality

RRC CPICH RSCP CLASS 6

RRC_CPICH_RSCP_CLASS_6

1033: CPICH Quality

RRC CPICH RSCP CLASS 7

RRC_CPICH_RSCP_CLASS_7

1033: CPICH Quality

RRC CPICH RSCP CLASS 8

RRC_CPICH_RSCP_CLASS_8

1033: CPICH Quality

RRC CPICH RSCP CLASS 9

RRC_CPICH_RSCP_CLASS_9

1033: CPICH Quality

RRC CPICH RSCP CLASS 10

RRC_CPICH_RSCP_CLASS_1 0

1033: CPICH Quality

RRC CPICH RSCP CLASS 11

RRC_CPICH_RSCP_CLASS_1 1

1033: CPICH Quality

RRC CPICH RSCP CLASS 12

RRC_CPICH_RSCP_CLASS_1 2

1033: CPICH Quality

RRC CPICH RSCP CLASS 13

RRC_CPICH_RSCP_CLASS_1 3

1033: CPICH Quality

RRC CPICH RSCP CLASS 14

RRC_CPICH_RSCP_CLASS_1 4

1033: CPICH Quality

RRC CPICH RSCP CLASS 15

RRC_CPICH_RSCP_CLASS_1 5

1033: CPICH Quality

RRC CPICH RSCP CLASS 16

RRC_CPICH_RSCP_CLASS_1 6

1034: Operator Statistics in RNC

INTER SYSTEM HHO RT ATTEMPTS PER OPER

IS_HHO_ATT_RT_OP

1034: Operator Statistics in RNC

INTER SYSTEM HHO RT SUCCESS PER OPER

SUCC_IS_HHO_RT_OP

1034: Operator Statistics in RNC

INTER SYSTEM HHO NRT ATTEMPTS PER OPER

IS_HHO_ATT_NRT_OP

1034: Operator Statistics in RNC

INTER SYSTEM HHO NRT SUCCESS PER OPER

SUCC_IS_HHO_NRT_OP

1034: Operator Statistics in RNC

TRANSFERRED DATA FOR CS CS_DCH_DL_DATA_VOL_OP CALL DCH DL PER OPER

1034: Operator Statistics in RNC

TRANSFERRED DATA FOR CS CS_DCH_UL_DATA_VOL_OP CALL DCH UL PER OPER

1034: Operator Statistics in RNC

TRANSFERRED DATA FOR PS PS_R99_DCH_DL_DATA_VOL REL99 DCH DL PER OPER _OP

1034: Operator Statistics in RNC

TRANSFERRED DATA FOR PS PS_R99_DCH_UL_DATA_VOL REL99 DCH UL PER OPER _OP

1034: Operator Statistics in RNC

MAX SF256 CODE OCCUPANCY PER OPER

MAX_R99_DL_CODES_SF256 _OP

1034: Operator Statistics in RNC

SUM SF256 CODE OCCUPANCY PER OPER

SUM_R99_DL_CODES_SF256 _OP

1034: Operator Statistics in RNC

DENOM SF256 CODE OCCUPANCY PER OPER

DENOM_R99_DL_CODES_SF2 56_OP

1034: Operator Statistics in RNC

RAB SETUP ATTEMPTS FOR CS VOICE PER OPER

RAB_STP_ATT_CS_VOICE_O P

1034: Operator Statistics in RNC

RAB ACCESS COMPLETIONS FOR CS VOICE PER OPER

RAB_ACC_COMP_CS_VOICE_ OP

1034: Operator Statistics in RNC

RAB SETUP ATTEMPTS FOR CS DATA CONV PER OPER

RAB_STP_ATT_CS_CONV_OP

1034: Operator Statistics in RNC

RAB ACCESS COMPLETIONS FOR CS DATA CONV PER OPER

RAB_ACC_COMP_CS_CONV_ OP

1034: Operator Statistics in RNC

RAB SETUP ATTEMPTS FOR PS STREAM PER OPER

RAB_STP_ATT_PS_STREA_O P

1034: Operator Statistics in RNC

RAB ACCESS COMPLETIONS FOR PS STREAM PER OPER

RAB_ACC_COMP_PS_STREA _OP

1034: Operator Statistics in RNC

RAB SETUP ATTEMPTS FOR PS NRT PER OPER

RAB_STP_ATT_PS_NRT_OP

1034: Operator Statistics in RNC

RAB ACCESS COMPLETIONS FOR PS NRT PER OPER

RAB_ACC_COMP_PS_NRT_O P

1034: Operator Statistics in RNC

RAB ACTIVE COMPLETIONS FOR CS VOICE PER OPER

RAB_ACT_COMP_CS_VOICE_ OP

1034: Operator Statistics in RNC

RAB ACTIVE FAILURES FOR CS VOICE PER OPER

RAB_ACT_FAIL_CS_VOICE_O P

1034: Operator Statistics in RNC

RAB ACTIVE COMPLETIONS FOR CS DATA CONV PER OPER

RAB_ACT_COMP_CS_CONV_ OP

1034: Operator Statistics in RNC

RAB ACTIVE FAILURES FOR CS DATA CONV PER OPER

RAB_ACT_FAIL_CS_CONV_O P

1034: Operator Statistics in RNC

RAB ACTIVE COMPLETIONS FOR PS DATA STREAM PER OPER

RAB_ACT_COMP_PS_STREA _OP

1034: Operator Statistics in RNC

RAB ACTIVE FAILURES FOR PS STREAM PER OPER

RAB_ACT_FAIL_PS_STREA_O P

1034: Operator Statistics in RNC

RAB ACTIVE COMPLETIONS FOR PS NRT PER OPER

RAB_ACT_COMP_PS_NRT_O P

1034: Operator Statistics in RNC

RAB ACTIVE FAILURES FOR PS NRT PER OPER

RAB_ACT_FAIL_PS_NRT_OP

1034: Operator Statistics in RNC

SUM RAB HOLDING TIME FOR SUM_RAB_HLD_TM_CS_VOIC CS VOICE PER OPER E_OP

1034: Operator Statistics in RNC

SUM RAB HOLDING TIME FOR SUM_RAB_HLD_TM_CS_CON CS DATA CONV PER OPER V_OP

1034: Operator Statistics in RNC

SUM RAB HOLDING TIME FOR SUM_RAB_HLD_TM_PS_STR PS STREAM PER OPER EA_OP

1034: Operator Statistics in RNC

SUM RAB HOLDING TIME FOR SUM_RAB_HLD_TM_PS_NRT_ PS NRT PER OPER OP

1034: Operator Statistics in RNC

MAX NUMBER OF HSDPA USERS IN CELL PER OPER

MAX_HSDPA_USERS_IN_CEL L_OP

1034: Operator Statistics in RNC

MAX NUMBER OF HSUPA USERS IN CELL PER OPER

MAX_HSUPA_USERS_IN_CEL L_OP

1034: Operator Statistics in RNC

SUM OF HSDPA USERS IN CELL PER OPER

SUM_HSDPA_USERS_IN_CEL L_OP

1034: Operator Statistics in RNC

SUM OF HSUPA USERS IN CELL PER OPER

SUM_HSUPA_USERS_IN_CEL L_OP

1034: Operator Statistics in RNC

DENOM HSPA USERS IN CELL DENOM_HSPA_USERS_IN_C PER OPER ELL_OP

1034: Operator Statistics in RNC

HS-DSCH MAC-D FLOW ALLOCATIONS PER OPER

ALLO_SUCCESS_HS_DSCH_ OP

1034: Operator Statistics in RNC

E-DCH ALLOCATIONS PER OPER

ALLO_SUCCESS_EDCH_OP

1034: Operator Statistics in RNC

HS-DSCH ALLO REJECT MAX USERS PER OPER

DCH_SEL_MAX_HSDPA_USE RS_OP

1034: Operator Statistics in RNC

HS-DSCH ALLO REJECT UL POWER PER OPER

REJ_HS_DSCH_RET_OP

1034: Operator Statistics in RNC

HS-DSCH SETUP FAILURE PER OPER

SETUP_FAIL_HS_DSCH_OP

1034: Operator Statistics in RNC

E-DCH ALLO CANCEL DUE TO EDCH_ALLO_CANC_NA_AS_ NON ACCEPTABLE AS PER OP OPER

1034: Operator Statistics in RNC

E-DCH ALLO REJECT MAX USERS PER OPER

UL_DCH_SEL_MAX_HSUPA_U SR_OP

1034: Operator Statistics in RNC

E-DCH ALLO REJECT BTS HW UL_DCH_SEL_BTS_HW_OP PER OPER

1034: Operator Statistics in RNC

E-DCH SETUP FAILURE PER OPER

SETUP_FAIL_EDCH_OP

1034: Operator Statistics in RNC

E-DCH SETUP REJECT DUE TO AC PER OPER

SETUP_REJ_EDCH_AC_NRT_ OP

1034: Operator Statistics in RNC

OPERATOR SHARE FOR REL99

OPERATOR_SHARE_R99

1034: Operator Statistics in RNC

OPERATOR SHARE FOR HSDPA

OPERATOR_SHARE_HSDPA

1034: Operator Statistics in RNC

MAX NUMBER OF HSFACH/RACH USERS PER OPER

MAX_HSFACH_RACH_USR_O P

1034: Operator Statistics in RNC

MAX NUMBER OF HSFACH/HS-RACH USERS PER OPER

MAX_HSFACH_HSRACH_USR _OP

1034: Operator Statistics in RNC

INTER SYSTEM HHO ATTEMPTS DUE TO MOCN THR PER OPER

IS_HHO_ATT_DUE_MOCN_TH R_OP

1034: Operator Statistics in RNC

INTER SYSTEM HHO SUCC_IS_HHO_DUE_MOCN_ SUCCESS DUE TO MOCN THR THR_OP PER OPER

1034: Operator Statistics in RNC

HS-DSCH NORMAL RELEASE PER OPERATOR

REL_NORM_HS_DSCH_OP

1034: Operator Statistics in RNC

HS-DSCH ABNORMAL RELEASE PER OPERATOR

REL_FAIL_HS_DSCH_OP

1034: Operator Statistics in RNC

E-DCH NORMAL RELEASE PER OPERATOR

REL_NORM_EDCH_OP

1034: Operator Statistics in RNC

E-DCH ABNORMAL RELEASE PER OPERATOR

REL_FAIL_EDCH_OP

1035: DSCP Statistics

PACKETS FROM CN MAPPED TO HS-DSCH

RX_PACKETS_TOTAL_HSPA

1035: DSCP Statistics

PACKETS FROM CN WITH PROMOTED SPI ON IUB

RX_PACKETS_PROMOTED_S PI_IUB

1035: DSCP Statistics

PACKETS FROM CN WITH DEMOTED SPI ON IUB

RX_PACKETS_DEMOTED_SPI _IUB

1035: DSCP Statistics

PACKETS FROM CN MAPPED TO HS-DSCH OR R99

RX_PACKETS_HSPA_R99

1035: DSCP Statistics

PACKETS FROM CN MAPPED TO LOW PRIORITY QUEUE

RX_PACKETS_LOW_PRIO

1035: DSCP Statistics

PACKETS FROM CN MAPPED TO HIGH PRIORITY QUEUE

RX_PACKETS_HIGH_PRIO

1035: DSCP Statistics

LOW PRIORITY PACKETS DROPPED

LOW_PRIO_PACKETS_DROP

1035: DSCP Statistics

HIGH PRIORITY PACKETS DROPPED

HIGH_PRIO_PACKETS_DROP

1036: LTE Relocation

LTE PS ISHO OUT PREP REQ

LTE_PS_ISHO_OUT_PREP_R EQ

1036: LTE Relocation

LTE PS ISHO OUT PREP SUCC LTE_PS_ISHO_OUT_PREP_S UCC

1036: LTE Relocation

LTE PS ISHO OUT PREP FAIL DUE TO RN LAYER CAUSE

LTE_PS_ISHO_OUT_FAIL_RN L

1036: LTE Relocation

LTE PS ISHO OUT PREP FAIL DUE TO TR LAYER CAUSE

LTE_PS_ISHO_OUT_FAIL_TR L

1036: LTE Relocation

LTE PS ISHO OUT PREP FAIL DUE TO NAS CAUSE

LTE_PS_ISHO_OUT_FAIL_NA S

1036: LTE Relocation

LTE PS ISHO OUT PREP FAIL DUE TO PROT CAUSE

LTE_PS_ISHO_OUT_FAIL_PR OT

1036: LTE Relocation

LTE PS ISHO OUT PREP FAIL DUE TO MISC CAUSE

LTE_PS_ISHO_OUT_FAIL_MIS C

1036: LTE Relocation

LTE PS ISHO OUT PREP FAIL DUE TO NON STAN CAUSE

LTE_PS_ISHO_OUT_FAIL_NS T

1036: LTE Relocation

LTE PS ISHO CANCEL TOTAL

LTE_PS_ISHO_CANCEL_TOT AL

1036: LTE Relocation

LTE PS ISHO FAIL DUE TO RELOC OVERALL TIMER EXPIRY

LTE_PS_ISHO_FAIL_OVE_TIM E

1036: LTE Relocation

LTE PS ISHO CANCEL DUE TO LTE_PS_ISHO_CANCEL_PRE RELOC PREP TIMER EXPIRY P_TIME

1037: Service Level Iur

CELL UDPATE DURING CS RAB RECEIVED FROM IUR

CELL_UPDATE_IUR_CS_VOIC E

1037: Service Level Iur

RAB ACTIVE FAILURES DUE TO FAILED RRC REESTABLISHMENT FOR CS VOICE

RAB_ACT_FAIL_CS_RRC_RE_ EST

1037: Service Level Iur

RAB ACTIVE FAILURES DUE TO IUR RADIO LINK FAILURE FOR CS VOICE

RAB_ACT_FAIL_CS_VOICE_IU R_RL

1037: Service Level Iur

RAB ACTIVE FAILURES DUE RAB_ACT_FAIL_CS_IUR_OTH TO IUR OTHER REASONS FOR ER CS VOICE

1037: Service Level Iur

1037: Service Level Iur

RAB ACTIVE FAILURES DUE TO FAILED RRC REESTABLISHMENT WITH SRNS RELOCATION FOR CS VOICE RAB ACTIVE FAILURES DUE TO FAILED SRNS RELOCATION FOR CS VOICE

RAB_ACT_FAIL_CS_FACH_RE LOC

RAB_ACT_FAIL_CS_DCH_REL OC

1037: Service Level Iur

RAB SETUP FAILURES DUE RAB_STP_FAIL_CS_VOICE_IU TO FAILED DRIFT RNC R PROCEDURES FOR CS VOICE

1037: Service Level Iur

OPTIMIZED CS CALL SETUP OVER IUR ATTEMPTS

ATT_OPT_CS_CALL_OVER_IU R

1037: Service Level Iur

OPTIMIZED CS CALL SETUP OVER IUR SUCCESS

SUCC_OPT_CS_CALL_OVER_ IUR

1038: DoS Attack

UE DoS ATTACK BY DoS_ATT_CORRUPT_LI_RLC CONTINUOUS CORRUPTED LI RLC PDU

1038: DoS Attack

UE DoS ATTACK WITHOUT UE DoS_ATT_WITHOUT_UE_ACK ACK

1038: DoS Attack

UE DoS ATTACK BY OUT OF SEQUENCE NUM IN RLC PDU

DoS_ATT_OUT_OF_SEQ_NU M_RLC

1038: DoS Attack

UE DoS ATTACK BY DUPLICATE OR OUT OF WINDOW UL RLC PDU

DoS_ATT_DUP_OUT_WIN_UL _RLC

1038: DoS Attack

UE DoS ATTACK WITHOUT LI IN UL RLC PDU

DoS_ATT_WITHOUT_LI_UL_R LC

1038: DoS Attack

UE DoS ATTACK WITH CONTINUES UL RLC RESET

DoS_ATT_UL_RLC_RESET

1038: DoS Attack

UE DoS ATTACK BY CONTINUOUS FAULTY RLC STATUS PDU

DoS_ATT_FAULTY_RLC_STAT US

1039: Elasticity

NUMBER OF ELASTICITY TRIGGERED INTRA-RNC INTRA-FREQUENCY HHO ATTEMPTS FOR RT

ELAS_INTRA_FREQ_HHO_RT _ATT

1039: Elasticity

NUMBER OF SUCCESSFULL ELASTICITY TRIGGERED INTRA-RNC INTRAFREQUENCY HHOS FOR RT

ELAS_INTRA_FREQ_HHO_RT _SUCC

1039: Elasticity

NUMBER OF ELASTICITY ELAS_INTRA_FREQ_HHO_NR TRIGGERED INTA-RNC INTRA- T_ATT FREQUENCY HHO ATTEMPTS FOR NRT

1039: Elasticity

NUMBER OF SUCCESSFULL ELASTICITY TRIGGERED INTRA-RNC INTRAFREQUENCY HHOS FOR NRT

ELAS_INTRA_FREQ_HHO_NR T_SUCC

2002: CPU Usage Core Level

Minimum CPU Usage

MIN_CPU_USAGE_CORE

2002: CPU Usage Core Level

Maximum CPU Usage

MAX_CPU_USAGE_CORE

2002: CPU Usage Core Level

Average CPU Usage

AVG_CPU_USAGE_CORE

2007: CPU Usage Node Level

Minimum CPU Usage in Node

MIN_CPU_USAGE_NODE

2007: CPU Usage Node Level

Maximum CPU Usage in Node

MAX_CPU_USAGE_NODE

2007: CPU Usage Node Level

Average CPU Usage in Node

AVG_CPU_USAGE_Node

2013: M3UA Traffic Statistics

USER_DATA_MSG_SENT_NOD USER_DATA_MSG_SENT_NO E DE

2013: M3UA Traffic Statistics

USER_DATA_MSG_RECEIVED USER_DATA_MSG_RECEIVE _NODE D_NODE

2013: M3UA Traffic Statistics

CTRL_MSG_SENT_NODE

CTRL_MSG_SENT_NODE

2013: M3UA Traffic Statistics

CTRL_MSG_RCVD_NODE

CTRL_MSG_RCVD_NODE

2013: M3UA Traffic Statistics

USER_DATA_OCTET_SENT_N USER_DATA_OCTET_SENT_N ODE ODE

2013: M3UA Traffic Statistics

USER_DATA_OCTET_RECEIV ED_NODE

USER_DATA_OCTET_RECEIV ED_NODE

2014: M3UA Connection Statistics

USER_DATA_MSG_SENT

USER_DATA_MSG_SENT

2014: M3UA Connection Statistics

USER_DATA_MSG_RECEIVED USER_DATA_MSG_RECEIVE D

2014: M3UA Connection Statistics

USER_DATA_OCTET_SENT

USER_DATA_OCTET_SENT

2014: M3UA Connection Statistics

USER_DATA_OCTET_RECEIV ED

USER_DATA_OCTET_RECEIV ED

2014: M3UA Connection Statistics

MSG_SENT_ON_CONNECTION MSG_SENT_ON_CONNECTIO N

2014: M3UA Connection Statistics

MSG_RECEIVED_ON_CONNE CTION

MSG_RECEIVED_ON_CONNE CTION

2014: M3UA Connection Statistics

DATA_OCTET_SENT

DATA_OCTET_SENT

2014: M3UA Connection Statistics

DATA_OCTET_RECEIVED

DATA_OCTET_RECEIVED

2014: M3UA Connection Statistics

ASPUP_MSG_SENT

ASPUP_MSG_SENT

2014: M3UA Connection Statistics

ASPUP_ACK_MSG_SENT

ASPUP_ACK_MSG_SENT

2014: M3UA Connection Statistics

ASP_DOWN_MSG_SENT

ASP_DOWN_MSG_SENT

2014: M3UA Connection Statistics

ASP_DOWN_ACK_MSG_SENT ASP_DOWN_ACK_MSG_SENT

2014: M3UA Connection Statistics

ASPUP_MSG_RECEIVED

2014: M3UA Connection Statistics

ASPUP_ACK_MSG_RECEIVED ASPUP_ACK_MSG_RECEIVE D

2014: M3UA Connection Statistics

ASP_DOWN_MSG_RECEIVED

2014: M3UA Connection Statistics

ASP_DOWN_ACK_MSG_RECEI ASP_DOWN_ACK_MSG_REC VED EIVED

2014: M3UA Connection Statistics

HEART_BEAT_MSG_RECEIVE HEART_BEAT_MSG_RECEIVE D D

2014: M3UA Connection Statistics

HEART_BEAT_ACK_MSG_SEN HEART_BEAT_ACK_MSG_SE T NT

2014: M3UA Connection Statistics

ASP_ACTIVE_MSG_SENT

2014: M3UA Connection Statistics

ASP_ACTIVE_ACK_MSG_SENT ASP_ACTIVE_ACK_MSG_SEN T

ASPUP_MSG_RECEIVED

ASP_DOWN_MSG_RECEIVED

ASP_ACTIVE_MSG_SENT

2014: M3UA Connection Statistics

ASP_INACTIVE_MSG_SENT

ASP_INACTIVE_MSG_SENT

2014: M3UA Connection Statistics

ASP_INACTIVE_ACK_MSG_SE ASP_INACTIVE_ACK_MSG_S NT ENT

2014: M3UA Connection Statistics

ASP_ACTIVE_MSG_RECEIVED ASP_ACTIVE_MSG_RECEIVE D

2014: M3UA Connection Statistics

ASP_ACTIVE_ACK_MSG_REC ASP_ACTIVE_ACK_MSG_REC EIVED EIVED

2014: M3UA Connection Statistics

ASP_INACTIVE_MSG_RECEIV ASP_INACTIVE_MSG_RECEIV ED ED

2014: M3UA Connection Statistics

ASP_INACTIVE_ACK_MSG_RE ASP_INACTIVE_ACK_MSG_R CEIVED ECEIVED

2014: M3UA Connection Statistics

DUNA_MSG_SENT

DUNA_MSG_SENT

2014: M3UA Connection Statistics

DAVA_MSG_SENT

DAVA_MSG_SENT

2014: M3UA Connection Statistics

DUPU_MSG_SENT

DUPU_MSG_SENT

2014: M3UA Connection Statistics

SCON_MSG_SENT

SCON_MSG_SENT

2014: M3UA Connection Statistics

DAUD_MSG_SENT

DAUD_MSG_SENT

2014: M3UA Connection Statistics

DUNA_MSG_RECEIVED

DUNA_MSG_RECEIVED

2014: M3UA Connection Statistics

DAVA_MSG_RECEIVED

DAVA_MSG_RECEIVED

2014: M3UA Connection Statistics

DUPU_MSG_RECEIVED

DUPU_MSG_RECEIVED

2014: M3UA Connection Statistics

SCON_MSG_RECEIVED

SCON_MSG_RECEIVED

2014: M3UA Connection Statistics

DAUD_MSG_RECEIVED

DAUD_MSG_RECEIVED

2014: M3UA Connection Statistics

NOTIFY_MSG_SENT

NOTIFY_MSG_SENT

2014: M3UA Connection Statistics

ERROR_MSG_SENT

ERROR_MSG_SENT

2014: M3UA Connection Statistics

NOTIFY_MSG_RECEIVED

NOTIFY_MSG_RECEIVED

2014: M3UA Connection Statistics

ERROR_MSG_RECEIVED

ERROR_MSG_RECEIVED

2014: M3UA Connection Statistics

RETRANSMIT_TIMER_EXPIRE RETRANSMIT_TIMER_EXPIRE D D

2014: M3UA Connection Statistics

ASPM_FAILED

ASPM_FAILED

2014: M3UA Connection Statistics

CONNECTION_ACTIVE_TIME

CONNECTION_ACTIVE_TIME

2014: M3UA Connection Statistics

CONNECTION_ACTIVE_DURA TION

CONNECTION_ACTIVE_DURA TION

2026: SCCP Traffic Statistics

MSG_SENT

MSG_SENT

2026: SCCP Traffic Statistics

MSG_RECEIVED

MSG_RECEIVED

2026: SCCP Traffic Statistics

MSG_DROPPED

MSG_DROPPED

2026: SCCP Traffic Statistics

INCOMING_CONN_ATTEMPTS INCOMING_CONN_ATTEMPT S

2026: SCCP Traffic Statistics

INCOMING_CONN_SUCCESS

INCOMING_CONN_SUCCESS

2026: SCCP Traffic Statistics

INCOMING_CONN_START_ST ATE

INCOMING_CONN_START_ST ATE

2026: SCCP Traffic Statistics

OUTGOING_CONN_ATTEMPTS OUTGOING_CONN_ATTEMPT S

2026: SCCP Traffic Statistics

OUTGOING_CONN_SUCCESS OUTGOING_CONN_SUCCESS

2026: SCCP Traffic Statistics

OUTGOING_CONN_START_ST OUTGOING_CONN_START_S ATE TATE

2026: SCCP Traffic Statistics

TOTAL_CONN_FAILED

TOTAL_CONN_FAILED

2027: SCCP Q752 Non-SSN Statistics

MSG_FAILED_DUE_TO_DPC_ UNAVBLE

MSG_FAILED_DUE_TO_DPC_ UNAVBLE

2027: SCCP Q752 Non-SSN Statistics

MSG_FAILED_DPC_UNAVBLE_ MSG_FAILED_DPC_UNAVBLE TIME _TIME

2027: SCCP Q752 Non-SSN Statistics

MSG_FAILED_DUE_TO_CONG MSG_FAILED_DUE_TO_CON ESTION GESTION

2027: SCCP Q752 Non-SSN Statistics

MSG_FAILED_CONGESTION_T MSG_FAILED_CONGESTION_ IME TIME

2027: SCCP Q752 Non-SSN Statistics

MSG_FAILED_DUE_TO_UNEQ MSG_FAILED_DUE_TO_UNEQ P_SS P_SS

2027: SCCP Q752 Non-SSN Statistics

MSG_FAILED_UNEQP_SS_TIM MSG_FAILED_UNEQP_SS_TI E ME

2027: SCCP Q752 Non-SSN Statistics

MSG_FAILED_DUE_TO_GTTR SLTION

2027: SCCP Q752 Non-SSN Statistics

MSG_FAILED_TO_GTTRSLTIO MSG_FAILED_TO_GTTRSLTIO N_TIME N_TIME

2027: SCCP Q752 Non-SSN Statistics

MSG_REASSEMBLY_FAILED

2027: SCCP Q752 Non-SSN Statistics

LAST_REASSEMBLY_FAILED_ LAST_REASSEMBLY_FAILED TIME _TIME

2027: SCCP Q752 Non-SSN Statistics

SGMT_OUT_OF_SEQUENCE

2027: SCCP Q752 Non-SSN Statistics

LAST_SGMT_OUT_OF_SEQUE LAST_SGMT_OUT_OF_SEQU NCE_TIME ENCE_TIME

2027: SCCP Q752 Non-SSN Statistics

HOP_COUNT_VIOLATION

2027: SCCP Q752 Non-SSN Statistics

LAST_HOP_COUNT_VIOLATIO LAST_HOP_COUNT_VIOLATI N_TIME ON_TIME

MSG_FAILED_DUE_TO_GTTR SLTION

MSG_REASSEMBLY_FAILED

SGMT_OUT_OF_SEQUENCE

HOP_COUNT_VIOLATION

2027: SCCP Q752 Non-SSN Statistics

REL_TIMER_EXPIRED

REL_TIMER_EXPIRED

2027: SCCP Q752 Non-SSN Statistics

LAST_TIME_REL_TIMER_EXPI LAST_TIME_REL_TIMER_EXPI RED RED

2027: SCCP Q752 Non-SSN Statistics

INACT_TIMER_EXPIRED

2027: SCCP Q752 Non-SSN Statistics

LAST_TIME_INACT_TIMER_EX LAST_TIME_INACT_TIMER_E PIRED XPIRED

2027: SCCP Q752 Non-SSN Statistics

RESET_REQ_RECEIVED

2027: SCCP Q752 Non-SSN Statistics

LAST_RESET_REQ_RECEIVED LAST_RESET_REQ_RECEIVE _TIME D_TIME

2027: SCCP Q752 Non-SSN Statistics

RELEASE_REQ_RECEIVED

2027: SCCP Q752 Non-SSN Statistics

LAST_RELEASE_REQ_RECEIV LAST_RELEASE_REQ_RECEI ED_TIME VED_TIME

2027: SCCP Q752 Non-SSN Statistics

SSP_MSG_RECEIVED

2027: SCCP Q752 Non-SSN Statistics

LAST_SSP_MSG_RECEIVED_T LAST_SSP_MSG_RECEIVED_ IME TIME

2028: SCCP Q752 SSN Statistics

SSP_MSG_SENT

SSP_MSG_SENT

2028: SCCP Q752 SSN Statistics

LAST_SSP_SENT_TIME

LAST_SSP_SENT_TIME

INACT_TIMER_EXPIRED

RESET_REQ_RECEIVED

RELEASE_REQ_RECEIVED

SSP_MSG_RECEIVED

2028: SCCP Q752 SSN Statistics

SSA_MSG_SENT

SSA_MSG_SENT

2028: SCCP Q752 SSN Statistics

LAST_SSA_MSG_SENT_TIME

LAST_SSA_MSG_SENT_TIME

2028: SCCP Q752 SSN Statistics

SSA_MSG_RECEIVED

SSA_MSG_RECEIVED

2028: SCCP Q752 SSN Statistics

LAST_SSA_MSG_RECEIVED_T LAST_SSA_MSG_RECEIVED_ IME TIME

2028: SCCP Q752 SSN Statistics

UDT_LUDT_XUDT_MSG_SENT UDT_LUDT_XUDT_MSG_SEN T

2028: SCCP Q752 SSN Statistics

UDT_LUDT_XUDT_MSG_RECE UDT_LUDT_XUDT_MSG_REC IVED EIVED

2028: SCCP Q752 SSN Statistics

CLASS0_MSG_SENT

CLASS0_MSG_SENT

2028: SCCP Q752 SSN Statistics

CLASS1_MSG_SENT

CLASS1_MSG_SENT

2028: SCCP Q752 SSN Statistics

CLASS0_MSG_RECEIVED

CLASS0_MSG_RECEIVED

2028: SCCP Q752 SSN Statistics

CLASS1_MSG_RECEIVED

CLASS1_MSG_RECEIVED

2028: SCCP Q752 SSN Statistics

CLASS2_MSG_RECEIVED

CLASS2_MSG_RECEIVED

2028: SCCP Q752 SSN Statistics

CLASS2_MSG_SENT

CLASS2_MSG_SENT

2037: NIF Traffic Statistics

PACKET_DROP_AT_MTP3_DF PACKET_DROP_AT_MTP3_DF

2037: NIF Traffic Statistics

PACKET_DROP_AT_M3UA_DF PACKET_DROP_AT_M3UA_D F

2104: cNetwork Statistics

RECEIVED_PACKETS

RECEIVED_PACKETS

2104: cNetwork Statistics

RECEIVED_OCTETS

RECEIVED_OCTETS

2104: cNetwork Statistics

RECEIVED_DROPS

RECEIVED_DROPS

2104: cNetwork Statistics

RECEIVED_ERRORS

RECEIVED_ERRORS

2104: cNetwork Statistics

TRANSMIT_PACKETS

TRANSMIT_PACKETS

2104: cNetwork Statistics

TRANSMIT_OCTETS

TRANSMIT_OCTETS

2104: cNetwork Statistics

TRANSMIT_DROPS

TRANSMIT_DROPS

2104: cNetwork Statistics

TRANSMIT_ERRORS

TRANSMIT_ERRORS

2124: FP Cpu Usage Core Level

MIN_CPU_USAGE_CORE

MIN_CPU_USAGE_CORE

2124: FP Cpu Usage Core Level

MAX_CPU_USAGE_CORE

MAX_CPU_USAGE_CORE

2125: FP CPU Usage Node Level

MIN_CPU_LOAD_NODE

MIN_CPU_LOAD_NODE

2125: FP CPU Usage Node Level

MAX_CPU_LOAD_NODE

MAX_CPU_LOAD_NODE

2125: FP CPU Usage Node Level

AVG_CPU_LOAD_NODE

AVG_CPU_LOAD_NODE

2167: cSCTP Statistics

SCTP_CURRENT_ESTABLISHE SCTP_CURRENT_ESTABLISH D ED

2167: cSCTP Statistics

SCTP_ACTIVE_ESTABLISHED SCTP_ACTIVE_ESTABLISHED

2167: cSCTP Statistics

SCTP_PASSIVE_ESTABLISHE D

SCTP_PASSIVE_ESTABLISHE D

2167: cSCTP Statistics

SCTP_ABORTED

SCTP_ABORTED

2167: cSCTP Statistics

SCTP_SHUTDOWN

SCTP_SHUTDOWN

2167: cSCTP Statistics

SCTP_OUT_OF_BLUE

SCTP_OUT_OF_BLUE

2167: cSCTP Statistics

SCTP_CHECKSUM_ERRORS

SCTP_CHECKSUM_ERRORS

2167: cSCTP Statistics

SCTP_OUT_CONTROL_CHUN KS

SCTP_OUT_CONTROL_CHUN KS

2167: cSCTP Statistics

SCTP_OUT_ORDER_CHUNKS

SCTP_OUT_ORDER_CHUNKS

2167: cSCTP Statistics

SCTP_OUT_UNORDER_CHUN SCTP_OUT_UNORDER_CHUN KS KS

2167: cSCTP Statistics

SCTP_IN_CONTROL_CHUNKS SCTP_IN_CONTROL_CHUNKS

2167: cSCTP Statistics

SCTP_IN_ORDER_CHUNKS

2167: cSCTP Statistics

SCTP_IN_UNORDER_CHUNKS SCTP_IN_UNORDER_CHUNK S

2167: cSCTP Statistics

SCTP_FRAGMENT_USER_ME SSAGES

2167: cSCTP Statistics

SCTP_REASSEMBLED_USER_ SCTP_REASSEMBLED_USER MESSAGES _MESSAGES

2167: cSCTP Statistics

SCTP_OUT_SCTP_PACKETS

SCTP_OUT_SCTP_PACKETS

2167: cSCTP Statistics

SCTP_IN_SCTP_PACKETS

SCTP_IN_SCTP_PACKETS

2167: cSCTP Statistics

SCTP_IN_PACKET_DISCARDS SCTP_IN_PACKET_DISCARD S

2167: cSCTP Statistics

SCTP_IN_DATA_CHUNK_DISC SCTP_IN_DATA_CHUNK_DIS ARDS CARDS

2170: cIPv4 Statistics

IPV4_IN_RECEIVES

IPV4_IN_RECEIVES

2170: cIPv4 Statistics

IPV4_IN_HEADER_ERRORS

IPV4_IN_HEADER_ERRORS

SCTP_IN_ORDER_CHUNKS

SCTP_FRAGMENT_USER_ME SSAGES

2170: cIPv4 Statistics

IPV4_IN_ADDRESS_ERRORS

IPV4_IN_ADDRESS_ERRORS

2170: cIPv4 Statistics

IPV4_FORWARDED_DATAGRA IPV4_FORWARDED_DATAGR MS AMS

2170: cIPv4 Statistics

IPV4_IN_UNKNOWN_PROTOC IPV4_IN_UNKNOWN_PROTOC OLS OLS

2170: cIPv4 Statistics

IPV4_IN_DISCARDS

IPV4_IN_DISCARDS

2170: cIPv4 Statistics

IPV4_IN_DELIVERS

IPV4_IN_DELIVERS

2170: cIPv4 Statistics

IPV4_OUT_REQUESTS

IPV4_OUT_REQUESTS

2170: cIPv4 Statistics

IPV4_OUT_DISCARDS

IPV4_OUT_DISCARDS

2170: cIPv4 Statistics

IPV4_OUT_NOROUTES

IPV4_OUT_NOROUTES

2170: cIPv4 Statistics

IPV4_REASSEMBLY_REQUIRE IPV4_REASSEMBLY_REQUIR D ED

2170: cIPv4 Statistics

IPV4_REASSEMBLY_OK

IPV4_REASSEMBLY_OK

2170: cIPv4 Statistics

IPV4_REASSEMBLY_FAILS

IPV4_REASSEMBLY_FAILS

2170: cIPv4 Statistics

IPV4_FRAGMENT_OK

IPV4_FRAGMENT_OK

2170: cIPv4 Statistics

IPV4_FRAGMENT_FAILS

IPV4_FRAGMENT_FAILS

2170: cIPv4 Statistics

IPV4_FRAGMENT_CREATES

IPV4_FRAGMENT_CREATES

2171: ICMPv4 Statistics

ICMPV4_IN_MESSAGES

ICMPV4_IN_MESSAGES

2171: ICMPv4 Statistics

ICMPV4_IN_ERRORS

ICMPV4_IN_ERRORS

2171: ICMPv4 Statistics

ICMPV4_OUT_MESSAGES

ICMPV4_OUT_MESSAGES

2172: ICMPv6 Statistics

ICMPV6_IN_MESSAGES

ICMPV6_IN_MESSAGES

2172: ICMPv6 Statistics

ICMPV6_IN_ERRORS

ICMPV6_IN_ERRORS

2172: ICMPv6 Statistics

ICMPV6_OUT_MESSAGES

ICMPV6_OUT_MESSAGES

2173: IPV6 Statistics

IPV6_IN_RECEIVES

IPV6_IN_RECEIVES

2173: IPV6 Statistics

IPV6_REASSEMBLY_OK

IPV6_REASSEMBLY_OK

2173: IPV6 Statistics

IPV6_IN_DELIVERS

IPV6_IN_DELIVERS

2173: IPV6 Statistics

IPV6_OUT_FORWARDED_DAT IPV6_OUT_FORWARDED_DA AGRAMS TAGRAMS

2173: IPV6 Statistics

IPV6_IN_ADDRESS_ERRORS

IPV6_IN_ADDRESS_ERRORS

2173: IPV6 Statistics

IPV6_IN_NOROUTES

IPV6_IN_NOROUTES

2173: IPV6 Statistics

IPV6_OUT_REQUESTS

IPV6_OUT_REQUESTS

2173: IPV6 Statistics

IPV6_OUT_DISCARDS

IPV6_OUT_DISCARDS

2173: IPV6 Statistics

IPV6_OUT_NOROUTES

IPV6_OUT_NOROUTES

2173: IPV6 Statistics

IPV6_FRAGMENT_OK

IPV6_FRAGMENT_OK

2173: IPV6 Statistics

IPV6_FRAGMENT_CREATES

IPV6_FRAGMENT_CREATES

2173: IPV6 Statistics

IPV6_FRAGMENT_FAILS

IPV6_FRAGMENT_FAILS

2173: IPV6 Statistics

IPV6_IN_TOO_BIG_ERRORS

IPV6_IN_TOO_BIG_ERRORS

2173: IPV6 Statistics

IPV6_IN_TRUNCATED_PACKE IPV6_IN_TRUNCATED_PACKE TS TS

2173: IPV6 Statistics

IPV6_REASSEMBLY_REQUIRE IPV6_REASSEMBLY_REQUIR D ED

2173: IPV6 Statistics

IPV6_IN_MULTICAST_PACKET IPV6_IN_MULTICAST_PACKE S TS

2173: IPV6 Statistics

IPV6_OUT_MULTICAST_PACK IPV6_OUT_MULTICAST_PACK ETS ETS

2173: IPV6 Statistics

IPV6_REASSEMBLY_FAILS

IPV6_REASSEMBLY_FAILS

2301: IP TWAMP statistics

TWAMP_RTT_AVERAGE

TWAMP_RTT_AVERAGE

2301: IP TWAMP statistics

TWAMP_RTT_MIN

TWAMP_RTT_MIN

2301: IP TWAMP statistics

TWAMP_RTT_MAX

TWAMP_RTT_MAX

2301: IP TWAMP statistics

TWAMP_REQ_PACKETS_SEN TWAMP_REQ_PACKETS_SEN T T

2301: IP TWAMP statistics

TWAMP_PACKETS_LOST

TWAMP_PACKETS_LOST

2124: FP Cpu Usage Core Level

AVG_CPU_USAGE_CORE

AVG_CPU_USAGE_CORE

801: Iu-PS Performance

INPUT_BYTES_TOTAL_UDP

INPUT_BYTES_TOTAL_UDP

801: Iu-PS Performance

INPUT_IP_PACKETS_TOTAL

INPUT_IP_PACKETS_TOTAL

801: Iu-PS Performance

INPUT_TRAF_BYTES_TC_CON INPUT_TRAF_BYTES_TC_CO V NV

801: Iu-PS Performance

INPUT_TRAF_BYTES_TC_STR INPUT_TRAF_BYTES_TC_STR EAM EAM

801: Iu-PS Performance

INPUT_TRAF_BYTES_TC_INTE INPUT_TRAF_BYTES_TC_INT RAC ERAC

801: Iu-PS Performance

INPUT_TRAF_BYTES_TC_BAC INPUT_TRAF_BYTES_TC_BA KGR CKGR

801: Iu-PS Performance

OUTPUT_BYTES_TOTAL_UDP OUTPUT_BYTES_TOTAL_UDP

801: Iu-PS Performance

OUTPUT_IP_PACKETS_TOTAL OUTPUT_IP_PACKETS_TOTA L

801: Iu-PS Performance

OUTPUT_TRAF_BYTES_TC_C ONV

801: Iu-PS Performance

OUTPUT_TRAF_BYTES_TC_ST OUTPUT_TRAF_BYTES_TC_S REAM TREAM

801: Iu-PS Performance

OUTPUT_TRAF_BYTES_TC_IN OUTPUT_TRAF_BYTES_TC_I TERAC NTERAC

801: Iu-PS Performance

OUTPUT_TRAF_BYTES_TC_B ACKGR

OUTPUT_TRAF_BYTES_TC_B ACKGR

801: Iu-PS Performance

ECHO_REQUEST_RECEIVED

ECHO_REQUEST_RECEIVED

801: Iu-PS Performance

ECHO_RESPONSE_RECEIVED ECHO_RESPONSE_RECEIVE D

801: Iu-PS Performance

ECHO_RESPONSE_SENT

ECHO_RESPONSE_SENT

801: Iu-PS Performance

ERROR_INDICATIONS_RECEI VED

ERROR_INDICATIONS_RECEI VED

OUTPUT_TRAF_BYTES_TC_C ONV

801: Iu-PS Performance

ERROR_INDICATIONS_SENT

ERROR_INDICATIONS_SENT

801: Iu-PS Performance

EXTENS_HEAD_NOTIF_RECEI EXTENS_HEAD_NOTIF_RECE VED IVED

801: Iu-PS Performance

AVERAGE_NBR_OF_GTP_TUN AVERAGE_NBR_OF_GTP_TU NELS NNELS

801: Iu-PS Performance

MAX_NBR_OF_GTP_TUNNELS MAX_NBR_OF_GTP_TUNNEL S

Description

Updated

The IP datagram data volume sent out to IP route When an IP datagram is sent. (egress). Includes both the payload and IP datagram header bytes. The IP datagram data volume received from IP When an IP datagram is received. route (ingress). Includes both the payload and IP datagram header bytes. IP Based Route configured bandwidth available for user connections at the end of the measurement interval. This is calculated with "committed bit rate" - "signalling bandwidth" "DCN bandwidth". Sum of samples for reserved IP layer bit rate for IP based route. This counter, divided by the denominator M568C9, provides the average reserved bit rate. (For Classic RNC, If the IP based route is bound The minimum value of reserved IP layer bit rate with IP addresses on multiple NPGE units, the during the measurement interval. (For Classic counter provides the sum over all the units) RNC, If the IP based route is bound with IP addresses on multiple NPGE units, the counter shows the minimum reservation calculated over The maximum value of reserved IP layer bit rate all the units). during the measurement interval.(For Classic RNC, If the IP based route is bound with IP addresses on multiple NPGE units, the counter shows the maximum reservation calculated over The sum of UDP/IP connections for IP based all the units) route. This counter, divided by the denominator M568C9, provides the average number of connections.(For Classic RNC, If the IP based route is bound with IP addresses on multiple The minimum number of IP/UDP connections NPGE units, the counter provides the sum over during the measurement interval.(For Classic all the units) RNC, If the IP based route is bound with IP addresses on multiple NPGE units, the counter shows the minimum connection amount The maximum number of IP/UDP connections calculated over all the units) during the measurement interval.((For Classic RNC, If the IP based route is bound with IP addresses on multiple NPGE units, the counter shows the maximum connection amount The number of samples used for calculating the calculated over all the units) average number of IP/UDP connections and the average reserved bit rate.

The counter is updated by the currently configured bit rate at the end of the measurement interval.

The bit rate is sampled with 5 second interval.

The bit rate is sampled with 5 second interval.

The bit rate is sampled with 5 second interval.

The number of connections is sampled with 5 second interval.

The number of connections is sampled with 5 second interval.

The number of connections is sampled with 5 second interval.

Sampled with 5 second interval.

The number of samples where the IP based The throughput is sampled with 5 second interval. route egress throughput was within less than 26% of the configured bandwidth shown by counter M568C15. The counter is updated only if the IP-based route goes via one network interface unit (no load sharing), internal flow control is enabled and the route bandwidth is defined.

The number of samples where the IP based route egress throughput was (26RRIndPeriod. The estimated PrxTotal (HSUPA disabled) or PrxNonEDPCH (HSUPA enabled) is calculated periodically and updated to this counter if the value is inside Class 3 range. The sampling period is based on an RNC internal timer whose period is Incremented by value 1 when the periodically defined by parameter WBTS->RRIndPeriod. calculated Rel99 received power estimation is inside Class 3 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. The estimated PrxTotal (HSUPA disabled) or PrxNonEDPCH (HSUPA enabled) is calculated periodically and updated to this counter if the value is inside Class 4 range. The sampling period is based on an RNC internal timer whose period is Incremented by value 1 when the periodically defined by parameter WBTS->RRIndPeriod. calculated Rel99 received power estimation is inside Class 4 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod.

Denominator for PrxTotal Class 0 (=Unloaded Area).

The average Rel99 received power in relation to the feasible load area 1. NOTE: The RNW Measurement Presentation GUI shows the dBm values, not the RSSI_LEV values. Denominator for PrxTotal Class 1 (=Feasible Load Area 1).

The average Rel99 received power in relation to the feasible load area 2. NOTE: The RNW Measurement Presentation GUI shows the dBm values, not the RSSI_LEV values. Denominator for PrxTotal Class 2 (=Feasible Load Area 2).

The average Rel99 received power in relation to the marginal load area. NOTE: The RNW Measurement Presentation GUI shows the dBm values, not the RSSI_LEV values. Denominator for PrxTotal Class 3 (=Marginal Load Area).

The average Rel99 received power in relation to the overload area. NOTE: The RNW Measurement Presentation GUI shows the dBm values, not the RSSI_LEV values. Denominator for PrxTotal Class 4 (=Overload Area).

The average PrxNoise threshold used in admission control. The real dBm value is obtained when divided by -100.

This counter is updated periodically according to the RNC internal timer. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod.

The number of samples taken for counter M1000C10. Used as a weighing factor in aggregation.

Incremented by value 1 when the PrxNoise value is updated to M1000C10. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod.

Maximum PrxNoise threshold value. NOTE! Real dBm value is obtained when divided by -100!

This counter is updated if the value of the counter is smaller than the current value of PrxNoise threshold.

Minimum PrxNoise threshold value. NOTE: Real dBm value is obtained when divided by -100!

This counter is updated if the value of the counter is bigger than the current value of PrxNoise threshold.

HSDPA not in use or HSDPA in use and there is not any HS-DSCH users in cell: The average PtxTotal in relation to the [unloaded area]. HSDPA in use and there is at least one HSDSCH user in cell: The average PtxNonHSPA in Denominator for PtxTotal Class 0 (=Unloaded relation to the [unloaded area]. The real dBm Area). value is obtained when divided by 100.

The estimated PtxTotal or PtxNonHSPA is calculated periodically and updated to this counter if the value is inside Class 0 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTSIncremented by value 1 when the estimated >RRIndPeriod. transmission power is inside Class 0 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS>RRIndPeriod. The estimated PtxTotal or PtxNonHSPA is calculated periodically and updated to this counter if the value is inside Class 1 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTSIncremented by value 1 when the estimated >RRIndPeriod. transmission power is inside Class 1 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS>RRIndPeriod. The estimated PtxTotal or PtxNonHSPA is calculated periodically and updated to this counter if the value is inside Class 2 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTSIncremented by value 1 when the estimated >RRIndPeriod. transmission power is inside Class 2 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS>RRIndPeriod. The estimated PtxTotal or PtxNonHSPA is calculated periodically and updated to this counter if the value is inside Class 3 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTSIncremented by value 1 when the estimated >RRIndPeriod. transmission power is inside Class 3 range. This counter is not incremented if class 4 and class 3 ranges are the same. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod.

HSDPA not in use or HSDPA in use and there is not any HS-DSCH users in cell: The average PtxTotal in relation to the [feasible load area 1]. HSDPA in use and there is at least one HSDSCH user in cell: The average PtxNonHSPA in Denominator for PtxTotal Class 1 (=Feasible relation to the [feasible load area 1]. The real Load Area 1). dBm value is obtained when divided by 100. HSDPA not in use or HSDPA in use and there is not any HS-DSCH users in cell: The average PtxTotal in relation to the [feasible load area 2]. HSDPA in use and there is at least one HSDSCH user in cell: The average PtxNonHSPA in Denominator for PtxTotal Class 2 (=Feasible relation to the [feasible load area 2]. The real Load Area 2). dBm value is obtained when divided by 100. HSDPA not in use or HSDPA in use and there is not any HS-DSCH users in cell: The average PtxTotal in relation to the [marginal load area]. HSDPA in use and there is at least one HSDSCH user in cell: The average PtxNonHSPA in Denominator for PtxTotal Class 3 (=Marginal relation to the [marginal load area]. The real dBm Load Area). value is obtained when divided by 100.

HSDPA not in use or HSDPA in use and there is not any HS-DSCH users in cell: The average PtxTotal in relation to the [overload area]. HSDPA in use and there is at least one HSDSCH user in cell: The average PtxNonHSPA in Denominator for PtxTotal Class 4 (=Overload relation to the [overload area]. The real dBm Area). value is obtained when divided by 100. Average Uplink RT load factor for own cell users when the cell has been in 'PrxTotal Unloaded Area' (Class 0). The RT load factor is an estimate calculated by Admission Control. The number of samples taken for counter M1000C24. Used as a weighing factor in aggregation. Average Uplink RT load factor for own cell users when the cell has been in 'Feasible Load Area 1' (Class 1). The RT load factor is an estimate calculated by Admission Control. The number of samples taken for counter M1000C26. Used as a weighing factor in aggregation. Average Uplink RT load factor for own cell users when the cell has been in 'Feasible Load Area 2' (Class 2). The RT load factor is an estimate calculated by Admission Control. The number of samples taken for counter M1000C28. Used as a weighing factor in aggregation. Average Uplink RT load factor for own cell users when the cell has been in 'Marginal Load Area' (Class 3). The RT load factor is an estimate calculated by Admission Control. The number of samples taken for counter M1000C30. Used as a weighing factor in aggregation. Average Uplink RT load factor for own cell users when the cell has been in 'Overload Area' (Class 4). The RT load factor is an estimate calculated by Admission Control. The number of samples taken for counter M1000C32. Used as a weighing factor in aggregation.

The estimated PtxTotal or PtxNonHSPA is calculated periodically and updated to this counter if the value is inside Class 4 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTSIncremented by value 1 when the estimated >RRIndPeriod. transmission power is inside Class 4 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS>RRIndPeriod. The uplink RT load factor is calculated periodically and updated to this counter if the estimated received Rel99 power value is inside Class 0 range. The sampling period is based on an RNC internal timer whose period is defined by parameter Incremented by value 1 when the periodically WBTS->RRIndPeriod. calculated Rel99 received power estimation is inside Class 0 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. The uplink RT load factor is calculated periodically and updated to this counter if the estimated received Rel99 power value is inside Class 1 range. The sampling period is based on an RNC internal timer whose period is defined by parameter Incremented by value 1 when the periodically WBTS->RRIndPeriod. calculated Rel99 received power estimation is inside Class 1 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. The uplink RT load factor is calculated periodically and updated to this counter if the estimated received Rel99 power value is inside Class 2 range. The sampling period is based on an RNC internal timer whose period is defined by parameter Incremented by value 1 when the periodically WBTS->RRIndPeriod. calculated Rel99 received power estimation is inside Class 2 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. The uplink RT load factor is calculated periodically and updated to this counter if the estimated received Rel99 power value is inside Class 3 range. The sampling period is based on an RNC internal timer whose period is defined by parameter Incremented by value 1 when the periodically WBTS->RRIndPeriod. calculated Rel99 received power estimation is inside Class 3 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. The uplink RT load factor is calculated periodically and updated to this counter if the estimated received Rel99 power value is inside Class 4 range. The sampling period is based on an RNC internal timer whose period is defined by parameter Incremented by value 1 when the periodically WBTS->RRIndPeriod. calculated Rel99 received power estimation is inside Class 4 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod.

Average Uplink NRT load factor for own cell users when the cell has been in 'PrxTotal Unloaded Area' (Class 0). The NRT load factor is an estimate calculated by Packet Scheduler.

The uplink NRT load factor is calculated periodically and updated to this counter if the estimated received Rel99 power value is inside Class 0 range. The sampling period is based on an RNC internal timer whose period is defined by The number of samples taken for counter Incremented by value 1 when the periodically parameter WBTS->RRIndPeriod. M1000C34. Used as a weighing factor in calculated Rel99 received power estimation is aggregation. inside Class 0 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. Average Uplink NRT load factor for own cell The uplink NRT load factor is calculated users when the cell has been in 'Feasible Load periodically and updated to this counter if the Area 1' (Class 1). The NRT load factor is an estimated received Rel99 power value is inside estimate calculated by Packet Scheduler. Class 1 range. The sampling period is based on an RNC internal timer whose period is defined by The number of samples taken for counter Incremented by value 1 when the periodically parameter WBTS->RRIndPeriod. M1000C36. Used as a weighing factor in calculated Rel99 received power estimation is aggregation. inside Class 1 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. Average Uplink NRT load factor for own cell The uplink NRT load factor is calculated users when the cell has been in 'Feasible Load periodically and updated to this counter if the Area' (Class 2). The NRT load factor is an estimated received Rel99 power value is inside estimate calculated by Packet Scheduler. Class 2 range. The sampling period is based on an RNC internal timer whose period is defined by The number of samples taken for counter Incremented by value 1 when the periodically parameter WBTS->RRIndPeriod. M1000C38. Used as a weighing factor in calculated Rel99 received power estimation is aggregation. inside Class 2 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. Average Uplink NRT load factor for own cell The uplink NRT load factor is calculated users when the cell has been in 'Marginal Load periodically and updated to this counter if the Area' (Class 3). The NRT load factor is an estimated received Rel99 power value is inside estimate calculated by Packet Scheduler. Class 3 range. The sampling period is based on an RNC internal timer whose period is defined by The number of samples taken for counter Incremented by value 1 when the periodically parameter WBTS->RRIndPeriod. M1000C40. Used as a weighing factor in calculated Rel99 received power estimation is aggregation. inside Class 3 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. Average Uplink NRT load factor for own cell The uplink NRT load factor is calculated users when the cell has been in 'Overload Area' periodically and updated to this counter if the (Class 4). The NRT load factor is an estimate estimated received Rel99 power value is inside calculated by Packet Scheduler. Class 4 range. The sampling period is based on an RNC internal timer whose period is defined by The number of samples taken for counter Incremented by value 1 when the periodically parameter WBTS->RRIndPeriod. M1000C42. Used as a weighing factor in calculated Rel99 received power estimation is aggregation. inside Class 4 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. Estimated average downlink transmitted power The estimated PtxNRT is calculated periodically for NRT users on the cell for Class 0 (Unloaded and updated to this counter if the total transmitted area). Rel99 power value is inside Class 0 range. The NOTE: Real dBm value is obtained when divided sampling period is based on an RNC internal timer by 100. whose period is defined by parameter WBTSThe number of samples taken for counter Incremented by value 1 when the periodically >RRIndPeriod. M1000C44. Used as a weighing factor in calculated Rel99 transmitted power estimation is aggregation. inside Class 0 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod.

Estimated average downlink transmitted power for NRT users on the cell for Class 1 (Feasible load area 1). NOTE: Real dBm value is obtained when divided by 100. The number of samples taken for counter M1000C46. Used as a weighing factor in aggregation.

The estimated PtxNRT is calculated periodically and updated to this counter if the total transmitted Rel99 power value is inside Class 1 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTSIncremented by value 1 when the periodically >RRIndPeriod. calculated Rel99 transmitted power estimation is inside Class 1 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. Estimated average downlink transmitted power The estimated PtxNRT is calculated periodically for NRT users on the cell for Class 2 (Feasible and updated to this counter if the total transmitted load area 2). Rel99 power value is inside Class 2 range. The NOTE: Real dBm value is obtained when divided sampling period is based on an RNC internal timer by 100. whose period is defined by parameter WBTSThe number of samples taken for counter Incremented by value 1 when the periodically >RRIndPeriod. M1000C48. Used as a weighing factor in calculated Rel99 transmitted power estimation is aggregation. inside Class 2 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. Estimated average downlink transmitted power The estimated PtxNRT is calculated periodically for NRT users on the cell for Class 3 (Marginal and updated to this counter if the total transmitted load area). Rel99 power value is inside Class 3 range. The NOTE: Real dBm value is obtained when divided sampling period is based on an RNC internal timer by 100. whose period is defined by parameter WBTSThe number of samples taken for counter Incremented by value 1 when the periodically >RRIndPeriod. M1000C50. Used as a weighing factor in calculated Rel99 transmitted power estimation is aggregation. inside Class 3 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. Estimated average downlink transmitted power The estimated PtxNRT is calculated periodically for NRT users on the cell for Class 4 (Overload and updated to this counter if the total transmitted area). Rel99 power value is inside Class 4 range. The NOTE: Real dBm value is obtained when divided sampling period is based on an RNC internal timer by 100. whose period is defined by parameter WBTSThe number of samples taken for counter Incremented by value 1 when the periodically >RRIndPeriod. M1000C52. Used as a weighing factor in calculated Rel99 transmitted power estimation is aggregation. inside Class 4 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. RACH throughput of both user data and When the RNC/MAC-c sends an internal message signalling. This counter, divided by the with common channel information to the Radio denominator, gives the Average RACH Resource Management in the RNC. MAC-c sends throughput of both user data and signalling in this message at 20-second intervals. bit/s over a measurement period. Denominator for Average RACH throughput of Incremented by the number of CCH measurements both user data and signalling in bit/s. when the measurement report arrives

RACH throughput of user data. This counter, divided by the denominator, gives the Average RACH throughput user data in bit/s over a measurement period.

When the RNC/MAC-c sends an internal message with common channel information to the Radio Resource Management in the RNC. MAC-c sends this message at 20-second intervals.

Denominator for Average RACH throughput of user data in bit/s.

Incremented by the number of CCH measurements when the measurement report arrives.

Average load of SCCPCH channel - including PCH. This counter, divided by the denominator, gives Average SCCPCH channel load - including PCH on a measurement period. The FACH-u, FACH-c and Denominator for Average load of SCCPCH PCH transport channels are mapped to this channel (including PCH).. SCCPCH physical channel. When more than one SCCPCH is used this channel includes only PCH. FACH throughput of both user data and signalling for an SCCPCH including PCH. This counter, divided by the denominator, gives Average FACH throughput for SCCPCH channel - including PCH on a measurement period. The Denominator for Average FACH throughput of FACH Total throughput includes all user-related both user data and data; (FACH-u) and signalling (FACH-c). signalling in bit/s for a SCCPCH including PCH.

When the RNC/MAC-c sends an internal message with common channel information to the Radio Resource Management in the RNC. MAC-c sends this message at 20-second intervals.

FACH throughput of user data only for SCCPCHs including PCH. This counter, divided by the denominator, gives Average FACH throughput for SCCPCH channel - including PCH on a measurement period. The Denominator for Average FACH throughput of FACH-u includes only user-related data. user data in bit/s for a SCCPCH including PCH.

When the RNC/MAC-c sends an internal message with common channel information to the Radio Resource Management in the RNC. MAC-c sends this message at 20-second intervals.

PCH throughput. This counter, divided by the denominator M1000C71, gives Average PCH throughput for SCCPCH channel - including PCH on a measurement period. The counter is based on transport blocks sent to Denominator for Average PCH throughput. the Iub interface. Some of those blocks may be filled with padding data instead of actual paging records and therefore the measured throughput can be higher than the actual amount of paging This counter, payload data. divided by the denominator counter, indicates the average code usage in percentage in a measurement period. Average code usage is calculated as the ratio between the number of unavailable SFx codes Denominator for the average usage of code and the number of all (available and unavailable) capacity. SFx codes, where SFx refers to the highest spreading factor. Note that the SFx codes may be unavailable due to two reasons: the code is Minimum This counter allocated, code or theusage code in is percentage. unavailable because indicates the minimum code occupancy in tree another code is allocated in the same code percentage a measurement period. The code branch and in thus prevents the use of the SFx occupancy is checked at 1-second intervals. code.

When the RNC/MAC-c sends an internal message with common channel information to the Radio Resource Management in the RNC. MAC-c sends this message at 20-second intervals.

Maximum code usage in percentage. This counter indicates the maximum code occupancy in percentage in a measurement period. The code occupancy is checked at 1-second intervals.

When the current code occupancy is higher than the previously recorded maximum code occupancy.

Incremented by the number of CCH measurements when the measurement report arrives. When the RNC/MAC-c sends an internal message with common channel information to the Radio Resource Management in the RNC. MAC-c sends this message at 20-second intervals. Incremented by the number of CCH measurements when the measurement report arrives.

Incremented by the number of CCH measurements when the measurement report arrives.

Incremented by the number of CCH measurements when the measurement report arrives. In 1-second intervals.

This counter is updated by value 1 when code usage value is updated to M1000C72.

When the current code occupancy is lower than the previously recorded minimum code occupancy.

A number of times when no SF4 codes were available.

When the code allocation fails because of not available SF4 codes.

A number of times when no SF8 codes were available.

When code allocation fails because of not available SF8 codes.

A number of times when no SF16 codes were available.

When the code allocation fails because of not available SF16 codes.

A number of times when no SF32 codes were available.

When the code allocation fails because of not available SF32 codes.

A number of times when no SF64 codes were available.

When code allocation fails because of not available SF64 codes.

A number of times when no SF128 codes were available.

When the code allocation fails because of not available SF128 codes.

A number of times when no SF256 codes were available.

When the code allocation fails because of not available SF256 codes.

The number of successful code tree allocations.

When code is allocated from the code tree..

The average transmission power per radio link in the cell. The measurement unit UTRAN_CODE_POWER is defined in 3GPP TS 25.133. NOTE: RNC GUI shows dBm values, not UTRAN_CODE_POWER. The number of received radio link measurement results during the measurement period.

When NBAP: DEDICATED MEASUREMENT REPORT message is received from the BTS.

The sum of squared measured values for transmission power for the radio links in the cell.

When NBAP: DEDICATED MEASUREMENT REPORT message is received from the BTS.

This counter indicates the number of radio link measurement reports received during the measurement period. NOTE: This counter is updated only for the WBTS object that is WBTS/WCEL-300000000 in the XML measurement file created by OMS and "This WBTS" in the OMS EM GUI. The special object is not supported by NetAct.

The counter is updated when NBAP: DEDICATED MEASUREMENT REPORT message is received from the BTS.

When NBAP: DEDICATED MEASUREMENT REPORT message is received from the BTS, this counter is updated by the number of radio link measurement results included in the message.

Estimated average downlink transmitted power for RT users on the cell for Class 0 (Unloaded area). NOTE: Real dBm value is obtained when divided by 100. The number of samples taken for counter M1000C93. Used as a weighing factor in aggregation. Estimated average downlink transmitted power for RT users on the cell for Class 1 (Feasible load area 1). NOTE: Real dBm value is obtained when divided by 100. The number of samples taken for counter M1000C95. Used as a weighing factor in aggregation. Estimated average downlink transmitted power for RT users on the cell for Class 2 (Feasible load area 2). NOTE: Real dBm value is obtained when divided by 100. The number of samples taken for counter M1000C97. Used as a weighing factor in aggregation. Estimated average downlink transmitted power for RT users on the cell for Class 3 (Marginal load area). NOTE: Real dBm value is obtained when divided by 100. The number of samples taken for counter M1000C99. Used as a weighing factor in aggregation. Estimated average downlink transmitted power for RT users on the cell for Class 4 (Overload area). NOTE: Real dBm value is obtained when divided by 100. The number of samples taken for counter M1000C101. Used as a weighing factor in aggregation.

The estimated PtxRT is calculated periodically and updated to this counter if the total transmitted Rel99 power value is inside Class 0 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTSIncremented by value 1 when the periodically >RRIndPeriod. calculated Rel99 transmitted power estimation is inside Class 0 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. The estimated PtxRT is calculated periodically and updated to this counter if the total transmitted Rel99 power value is inside Class 1 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTSIncremented by value 1 when the periodically >RRIndPeriod. calculated Rel99 transmitted power estimation is inside Class 1 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. The estimated PtxRT is calculated periodically and updated to this counter if the total transmitted Rel99 power value is inside Class 2 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTSIncremented by value 1 when the periodically >RRIndPeriod. calculated Rel99 transmitted power estimation is inside Class 2 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. The estimated PtxRT is calculated periodically and updated to this counter if the total transmitted Rel99 power value is inside Class 3 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTSIncremented by value 1 when the periodically >RRIndPeriod. calculated Rel99 transmitted power estimation is inside Class 3 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. The estimated PtxRT is calculated periodically and updated to this counter if the total transmitted Rel99 power value is inside Class 4 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTSIncremented by value 1 when the periodically >RRIndPeriod. calculated Rel99 transmitted power estimation is inside Class 4 range. The sampling period is based on an RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. Incremented by the received value when the CCH measurement report arrives.

Average load of SCCPCH channel - PCH not present - measured as a percentage value [%]. This counter, divided by the denominator, gives Average SCCPCH channel load - excluding Denominator for Average load of SCCPCH Incremented by the number of CCH measurements PCH on a measurement period. The FACH-u and channel (PCH not present). when FACH-c logical channels are mapped to this the measurement report arrives. SCCPCH physical channel. When this SCCPCH is used this PCH channel is found in the SCCPCH channel including PCH.

Average FACH throughput of both user data and signalling in bit/s for a SCCPCH (PCH not present). This counter, divided by the denominator, gives Average FACH throughput for SCCPCH channel Denominator for Average FACH throughput of - excluding PCH on a measurement period. both user data and The FACH Total throughput means all the user signalling in bit/s for a SCCPCH (PCH not related data (FACH-u) and signalling (FACH-c). present).

Incremented by the received value when the CCH measurement report arrives.

Average FACH throughput of user data only in bit/s for a SCCPCH (PCH not present). This counter, divided by the denominator, gives Average FACH data throughput for SCCPCH Denominator for Average FACH throughput of channel - excluding PCH on a measurement user data in bit/s period. for a SCCPCH (PCH not present). The FACH-u includes only the user related data.

Incremented by the received value when the CCH measurement report arrives

The total throughput of FACH containing the CTCH channel used for Service Area Broadcast. Both user data and signalling are included. This counter, divided by the denominator, gives the average total throughput of the channel. The denominator for FACH Throughput for Service Area Broadcast (user data and signalling).

The counter is updated when the RNC/MAC-c sends an internal message to the Radio Resource Management in the RNC, telling common channel information. MAC-c sends this message periodically at 20-second intervals. When the measurement report arrives from MAC-c, this counter is updated by the number of FACH measurement samples included in the report.

The user data throughput of FACH containing the CTCH channel used for Service Area Broadcast. This counter, divided by the denominator, gives the average user data throughput of the channel.

This counter is updated when the RNC/MAC-c sends an internal message to the Radio Resource Management in the RNC, telling common channel information. MAC-c sends this message periodically at 20-second intervals. When the measurement report arrives from MAC-c, this counter is updated by the number of FACH measurement samples included in the report.

The denominator for counter FACH Throughput for Service Area Broadcast (user data only).

The ratio of transmitted non-HSPA power and the maximum transmission power possible to use on that DL carrier at that moment. If only HSDPA is enabled, the non-HSPA power is the transmitted carrier power of all codes not The denominator for the average non-HSPA used for HS-PDSCH or HS-SCCH transmission. power ratio. If HSUPA is enabled, the non-HSPA power is the transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or This counter gives the average active nonE-HICH transmission. HSDPA power ratio. The ratio of transmitted nonHSPA power and the maximum transmission power possible to use on that DL carrier at that moment. The denominator for the average active nonIf only HSDPA is enabled, the non-HSPA power HSPA power ratio. is the transmitted carrier power of all codes not used for HS-PDSCH or HS-SCCH transmission. If HSUPA is enabled, the non-HSPA power is the transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission.

Incremented by the number of CCH measurements when the measurement report arrives.

Incremented by the number of CCH measurements when the measurement report arrives.

This counter is updated periodically according to the RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. When the timer expires, the latest received non-HSPA power value in NBAP:PRIVATE:RADIO RESOURCE Incremented by value 1 when non-HSPA power MEASUREMENT REPORT is used for counter value is updated to counter M1000C138. update. This counter is updated even if there are not any HS-DSCH allocations in the cell. This counter is updated periodically according to the RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. When the timer expires, the latest received non-HSPA power value in NBAP:PRIVATE:RADIO RESOURCE Incremented by value 1 when non-HSPA power MEASUREMENT REPORT is used for counter value is updated to counter M1000C140. update. This counter is updated even if there are not any HS-DSCH allocations in the cell.

The number of radio bearer downgrades by the When the RNC sends RRC: TRANSPORT enhanced overload control using the TFC subset FORMAT COMBINATION CONTROL to the UE. method. The number of radio bearer downgrades by the dynamic link optimisation for NRT traffic due to RL power congestion.

When the RNC receives an NBAP: RADIO LINK RECONFIGURATION READY message from the BTS.

The number of radio bearer downgrades by priority-based scheduling (PBS) due to Iub transport congestion. Both ATM and IP-based transport are covered.

When the radio bearer is successfully downgraded.

The number of RB downgrades by priority-based When the radio bearer is successfully downgraded. scheduling (PBS) due to BTS congestion.

The number of RB downgrades by priority-based When the radio bearer is successfully downgraded. scheduling (PBS) due to uplink interference or downlink power congestion reasons. The number of RB downgrades by priority-based When the radio bearer is successfully downgraded. scheduling (PBS) due to spreading code congestion. The number of radio bearer downgrades by preemption due to Iub transport congestion. Both ATM and IP-based transport are covered.

When the radio bearer is successfully downgraded.

The number of RB downgrades by pre-emption due to BTS congestion.

When the radio bearer is successfully downgraded.

The number of RB downgrades by pre-emption due to uplink interference or downlink power congestion reasons. This counter is never updated.

This counter is never updated because preemption due to radio interface reason never triggers a downgrade of an NRT RAB. The downgrade is not done because the admission control of RT RAB is based on non-controllable When the radio bearer is successfully downgraded. load and downgrading of an NRT RAB does not change that. But if the radio interface load remains high, the NRT RAB can later be downgraded due to overload control actions. When the radio bearer is successfully downgraded.

The number of RB downgrades by pre-emption due to spreading code congestion.

The number of radio bearer downgrades by the enhanced overload control using the radio link reconfiguration method. The number of released radio bearers by the dynamic link optimisation for NRT traffic due to RL power congestion.

When the radio bearer is successfully released.

The number of released radio bearers by priority- When the radio bearer is successfully released. based scheduling (PBS) due to Iub transport congestion. Both ATM and IP-based transport are covered. The number of released radio bearers by priority- When the radio bearer is successfully released. based scheduling (PBS) due to BTS congestion.

The number of released radio bearers by priority- When the radio bearer is successfully released. based scheduling (PBS) due to uplink interference or downlink power congestion reasons. The number of released radio bearers by priority- When the radio bearer is successfully released. based scheduling (PBS) due to spreading code congestion. The number of released radio bearers by preemption due to Iub transport congestion. Both ATM and IP-based transport are covered.

When the radio bearer is successfully released.

The number of released radio bearers by preemption due to BTS congestion. This means either Channel Element shortage or maximum number of HS-DSCH MAC-d flows or HSPA users exceeded. The number of released radio bearers by preemption due to uplink interference or downlink power congestion reasons.

When the radio bearer is successfully released.

The number of released radio bearers by preemption due to spreading code congestion.

When the radio bearer is successfully released.

The number of radio bearer releases by the enhanced overload control using the radio link reconfiguration method.

When the radio bearer is successfully released.

This counter indicates how long time no HSDPA users are allocated during the measurement period. The counter is not updated if HSDPA is disabled for the cell.

At 1-second intervals with value 1 if HSDPA is enabled in the cell but there are no HSDPA users allocated.

When the radio bearer is successfully released.

This counter indicates how long time 1 or 2 active At 1-second intervals with value 1 if there are 1 or HSDPA users are simultaneously allocated 2 HSDPA users in the cell. during the measurement period. This counter indicates how long time 3 or 4 active At 1-second intervals with value 1 if there are 3 or HSDPA users are simultaneously allocated 4 HSDPA users in the cell. during the measurement period.

This counter indicates how long time 5 or 6 active At 1-second intervals with value 1 if there are 5 or HSDPA users are simultaneously allocated 6 HSDPA users in the cell. during the measurement period. This counter indicates how long time 7 or 8 active At 1-second intervals with value 1 if there are 7 or HSDPA users are simultaneously allocated 8 HSDPA users in the cell. during the measurement period. This counter indicates how long time 9 or 10 At 1-second intervals with value 1 if there are 9 or active HSDPA users are simultaneously allocated 10 HSDPA users in the cell. during the measurement period. This counter indicates how long time 11 or 12 At 1-second intervals with value 1 if there are 11 or active HSDPA users are simultaneously allocated 12 HSDPA users in the cell. during the measurement period. This counter indicates how long time 13 or 14 At 1-second intervals with value 1 if there are 13 or active HSDPA users are simultaneously allocated 14 HSDPA users in the cell. during the measurement period. This counter indicates how long time 15 or 16 At 1-second intervals with value 1 if there are 15 or active HSDPA users are simultaneously allocated 16 HSDPA users in the cell. during the measurement period. The number of acknowledged PRACH preambles reported by the BTS indicates the RACH channel load. This counter, divided by the denominator, gives the average number of acknowledged PRACH preambles during the Radio Resource The number of measurement reports including Indication period. This counter is updated only for acknowledged PRACH preamble information. cells using the 3GPP Iub interface. However due This counter is updated only for cells using the to 3GPP NBAP protocol reporting range, the 3GPP Iub interface. counter remains mostly zero in live network The number of samples when is in environment and thus does notWCEL give useful Working or power saving state. Counter information about the RACH load. M1000C180 is always updated along with this counter. In power saving state BL(P) also M1000C378 is updated. The number of samples when WCEL is in Blocked-by-user state. Counter M1000C180 is always updated along with this counter. The number of samples when WCEL is configured in the database. This counter is used as a denominator for cell availability calculation. The number of channel element capacity samples (common denominator for counters M1000C182-M1000C225).

When NBAP:PRIVATE:RADIO RESOURCE MEASUREMENT REPORT or NBAP:COMMON MEASUREMENT REPORT including information on acknowledged PRACH preambles is received from the BTS. When NBAP:PRIVATE:RADIO RESOURCE MEASUREMENT REPORT or NBAP:COMMON MEASUREMENT REPORT including information on acknowledged PRACH preambles is received from the BTS. The counter is updated with the value 1 once in approximately 5 seconds when the WCEL is in Working or power saving BL(P) state. It must be noted that due to limited timing accuracy the amount of samples per measurement interval The counter is updated with the value 1 once in does not always match with the nominal sampling approximately 5 seconds when the WCEL is in rate. For example during 60 minute measurement blocked-by-user state. The state can also be interval there may be 719 samples instead of the blocked-by-user state combined with some other nominal amount of 720 samples. blocked-states, for example, BL-UI. The counter is updated with the value 1 once in It must be noted that due to limited timing accuracy approximately 5 seconds when the WCEL is the amount of samples per measurement interval configured in the radio network database. does not always match with the nominal sampling It must be noted that due to limited timing accuracy rate. For example during 60 minute measurement the amount of samples per measurement interval The counter updated when the measurement interval thereismay be 719 samples instead of the does not always match with the nominal sampling sample CE calculation is taken. nominalfor amount of 720 samples. rate. For example during 60 minute measurement interval there may be 719 samples instead of the nominal amount of 720 samples.

The average number of used CE for AMR allocations.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for Transparent The counter is updated at 20-second intervals 64 kbps CS Data Calls with Conversational class. based on the estimated usage of channel elements in the BTS. The average number of used CE for NonTransparent 14.4 kbps CS Data Calls with Streaming class.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for NonTransparent 57.6 kbps CS Data Calls with Streaming class.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 8 kbps PS call with Streaming class in UL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 16 kbps PS call with Streaming class in UL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 32 kbps PS call with Streaming class in UL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 64 kbps PS call with Streaming class in UL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 128 kbps PS The counter is updated at 20-second intervals call with Streaming class in UL. based on the estimated usage of channel elements in the BTS. The average number of used CE for 8 kbps PS call with Streaming class in DL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 16 kbps PS call with Streaming class in DL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 32 kbps PS call with Streaming class in DL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 64 kbps PS call with Streaming class in DL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 128 kbps PS The counter is updated at 20-second intervals call with Streaming class in DL. based on the estimated usage of channel elements in the BTS. The average number of used CE for 256 kbps PS The counter is updated at 20-second intervals call with Streaming class in DL. based on the estimated usage of channel elements in the BTS. Average number of used CE for 384 kbps PS call The counter is updated on the cycle of 20 seconds with Streaming class in DL. based on the estimated usage of channel elements in the BTS. The average number of used CE for 8 kbps PS call with Interactive class in UL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 16 kbps PS call with Interactive class in UL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 32 kbps PS call with Interactive class in UL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 64 kbps PS call with Interactive class in UL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 128 kbps PS The counter is updated at 20-second intervals call with Interactive class in UL. based on the estimated usage of channel elements in the BTS. The average number of used CE for 256 kbps PS The counter is updated at 20-second intervals call with Interactive class in UL. based on the estimated usage of channel elements in the BTS. The average number of used CE for 384 kbps PS The counter is updated at 20-second intervals call with Interactive class in UL. based on the estimated usage of channel elements in the BTS. The average number of used CE for 8 kbps PS call with Interactive class in DL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 16 kbps PS call with Interactive class in DL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 32 kbps PS call with Interactive class in DL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 64 kbps PS call with Interactive class in DL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 128 kbps PS The counter is updated at 20-second intervals call with Interactive class in DL. based on the estimated usage of channel elements in the BTS. The average number of used CE for 256 kbps PS The counter is updated at 20-second intervals call with Interactive class in DL. based on the estimated usage of channel elements in the BTS. The average number of used CE for 384 kbps PS The counter is updated at 20-second intervals call with Interactive class in DL. based on the estimated usage of channel elements in the BTS. The average number of used CE for 8 kbps PS call with Background class in UL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 16 kbps PS call with Background class in UL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 32 kbps PS call with Background class in UL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 64 kbps PS call with Background class in UL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 128 kbps PS The counter is updated at 20-second intervals call with Background class in UL. based on the estimated usage of channel elements in the BTS. The average number of used CE for 256 kbps PS The counter is updated at 20-second intervals call with Background class in UL. based on the estimated usage of channel elements in the BTS.

The average number of used CE for 384 kbps PS The counter is updated at 20-second intervals call with Background class in UL. based on the estimated usage of channel elements in the BTS. The average number of used CE for 8 kbps PS call with Background class in DL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 16 kbps PS call with Background class in DL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 32 kbps PS call with Background class in DL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 64 kbps PS call with Background class in DL.

The counter is updated at 20-second intervals based on the estimated usage of channel elements in the BTS.

The average number of used CE for 128 kbps PS The counter is updated at 20-second intervals call with Background class in DL. based on the estimated usage of channel elements in the BTS. The average number of used CE for 256 kbps PS The counter is updated at 20-second intervals call with Background class in DL. based on the estimated usage of channel elements in the BTS. The average number of used CE for 384 kbps PS The counter is updated at 20-second intervals call with Background class in DL. based on the estimated usage of channel elements in the BTS. The number of radio bearer downgrades due to the Throughput Based Optimization of the PS algorithm.

When the radio bearer is successfully downgraded.

The number of radio bearer releases due to the Throughput Based Optimization of the PS algorithm.

When the radio bearer is successfully released.

The maximum Rel99 received uplink power value When the PrxTotal value received from the BTS is during the measurement period. larger than the previous maximum value of the measurement period. If HSUPA is enabled, this counter is based on the PrxNonEDPCH value estimated by the RNC from The minimum Rel99 received uplink power value When the PrxTotal value received from the BTS is E-DCH load factors and PrxTotal. during the measurement period. smaller than the previous minimum value of the measurement period. If HSUPA is enabled, this counter is based on the PrxNonEDPCH value estimated by the RNC from E-DCH load factors and PrxTotal.

The maximum Rel99 downlink power value value When the PtxTotal value received from the BTS is during the measurement period. larger than the previous maximum value of the measurement period. If HSDPA is enabled in the cell, this counter is based on PtxNonHSDPA power. The minimum Rel99 downlink power value during When the PtxTotal value received from the BTS is If HSUPA is enabled in the cell, this counter is the measurement period. smaller than the previous minimum value of the based on PtxNonHSPA power. measurement period. If HSDPA is enabled in the cell, this counter is based on PtxNonHSDPA power. The minimum target threshold PtxTargetPS value When an RNC internal scheduling timer expires If HSUPA is enabled in the cell, this counter is during the measurement period. The and there is at least one MAC-d flow allocated in based on PtxNonHSPA power. PtxTargetPS value is adjusted dynamically based the cell and HSDPA Dynamic Resource Allocation on the measurement reports received from the is enabled. BTS. The maximum target threshold PtxTargetPS When an RNC internal scheduling timer expires value during the measurement period. The and there is at least one MAC-d flow allocated in PtxTargetPS value is adjusted dynamically based the cell and HSDPA Dynamic Resource Allocation on the measurement reports received from the is enabled. BTS. The average target threshold PtxTargetPS value When an RNC internal scheduling timer expires during the measurement period. The and there is at least one MAC-d flow allocated in PtxTargetPS value is adjusted dynamically based the cell and HSDPA Dynamic Resource Allocation on the measurement reports received from the is enabled. BTS. The number of samples for the target threshold Incremented by value 1 when PtxTarget value is PtxTargetPS measurement. updated to counter M1000C234.

The minimum used HSPA power during the measurement period. The used HSPA power is calculated from the difference between the Transmitted Carrier Power and PtxNonHSPA (or PtxNonHSDPA) values. The maximum used HSPA power during the measurement period. The used HSPA power is calculated from the difference between the Transmitted Carrier Power and PtxNonHSPA (or PtxNonHSDPA) values. The average used HSPA power during the measurement period. The used HSPA power is calculated from the difference between the Transmitted Carrier Power and PtxNonHSPA (or PtxNonHSDPA) values. The number of samples for the used HSPA power measurement.

This counter is updated periodically according to the RNC internal timer whose period is defined by parameter WBTS->RRIndPeriod. When the timer expires, the HSPA DL power value is calculated based on the information of latest received nonThis counter is updated periodically according to HSPA power value in NBAP:PRIVATE:RADIO the RNC internal timer whose period is defined by RESOURCE MEASUREMENT REPORT. parameter WBTS->RRIndPeriod. When the timer expires, the HSPA DL power value is calculated based on the information of latest received nonThis counter is updated periodically according to HSPA power value in NBAP:PRIVATE:RADIO the RNC internal timer whose period is defined by RESOURCE MEASUREMENT REPORT. parameter WBTS->RRIndPeriod. When the timer expires, the HSPA DL power value is calculated based on the information of latest received nonIncremented by value 1 when HSPA power value is HSPA power value in NBAP:PRIVATE:RADIO updated to counter M1000C238. RESOURCE MEASUREMENT REPORT.

This counter indicates the amount of time that 17 The counter is updated by one at one-second to 20 active HSDPA users are simultaneously intervals if there are 17 to 20 HSDPA users in the allocated during the measurement period. cell. This counter indicates the amount of time that 21 The counter is updated by one at one-second to 24 active HSDPA users are simultaneously intervals if there are 21 to 24 HSDPA users in the allocated during the measurement period. cell.

This counter indicates the amount of time that 25 The counter is updated by one at one-second to 28 active HSDPA users are simultaneously intervals if there are 25 to 28 HSDPA users in the allocated during the measurement period. cell. This counter indicates the amount of time that 29 The counter is updated by one at one-second to 32 active HSDPA users are simultaneously intervals if there are 29 to 32 HSDPA users in the allocated during the measurement period. cell. This counter indicates the amount of time that 33 The counter is updated by one at one-second to 36 active HSDPA users are simultaneously intervals if there are 33 to 36 HSDPA users in the allocated during the measurement period. cell. This counter indicates the amount of time that 37 The counter is updated by one at one-second to 40 active HSDPA users are simultaneously intervals if there are 37 to 40 HSDPA users in the allocated during the measurement period. cell. This counter indicates the amount of time that 41 The counter is updated by one at one-second to 44 active HSDPA users are simultaneously intervals if there are 41 to 44 HSDPA users in the allocated during the measurement period. cell. This counter indicates the amount of time that 45 The counter is updated by one at one-second to 48 active HSDPA users are simultaneously intervals if there are 45 to 48 HSDPA users in the allocated during the measurement period. cell. The counter indicates the amount of time that 5 channelisation codes are reserved for HSDPA during the measurement period. The counter indicates the amount of time that 6 channelisation codes are reserved for HSDPA during the measurement period.

The counter is updated by one at one-second intervals if 5 HSDPA codes are reserved in the cell.

The counter is updated at one-second intervals. The counter updating is started/stopped when the RNC receives an NBAP Physical shared Channel Reconfiguration Response message from the WBTS. The counter indicates the amount of time that 7 The counter is updated at one-second intervals. channelisation codes are reserved for HSDPA The counter updating is started/stopped when the during the measurement period. RNC receives an NBAP Physical shared Channel Reconfiguration Response message from the WBTS. The counter indicates the amount of time that 8 The counter is updated at one-second intervals. channelisation codes are reserved for HSDPA The counter updating is started/stopped when the during the measurement period. RNC receives an NBAP Physical shared Channel Reconfiguration Response message from the WBTS. The counter indicates the amount of time that 9 The counter is updated at one-second intervals. channelisation codes are reserved for HSDPA The counter updating is started/stopped when the during the measurement period. RNC receives an NBAP Physical shared Channel Reconfiguration Response message from the WBTS. The counter indicates the amount of time that 10 The counter is updated at one-second intervals. channelisation codes are reserved for HSDPA The counter updating is started/stopped when the during the measurement period. RNC receives an NBAP Physical shared Channel Reconfiguration Response message from the WBTS.

The counter indicates the amount of time that 11 The counter is updated at one-second intervals. channelisation codes are reserved for HSDPA The counter updating is started/stopped when the during the measurement period. RNC receives an NBAP Physical shared Channel Reconfiguration Response message from the WBTS. The counter indicates the amount of time that 12 The counter is updated at one-second intervals. channelisation codes are reserved for HSDPA The counter updating is started/stopped when the during the measurement period. RNC receives an NBAP Physical shared Channel Reconfiguration Response message from the WBTS. The counter indicates the amount of time 13 The counter is updated at one-second intervals. channelisation codes are reserved for HSDPA The counter updating is started/stopped when the during the measurement period. RNC receives an NBAP Physical shared Channel Reconfiguration Response message from the WBTS. The counter indicates the amount of time that 14 The counter is updated at one-second intervals. channelisation codes are reserved for HSDPA The counter updating is started/stopped when the during the measurement period. RNC receives an NBAP Physical shared Channel Reconfiguration Response message from the WBTS. The counter indicates the amount of time that 15 The counter is updated at one-second intervals. channelisation codes are reserved for HSDPA The counter updating is started/stopped when the during the measurement period. RNC receives the NBAP Physical shared Channel Reconfiguration Response message from the WBTS. The counter indicates the number of times that The counter is updated by one when the the channelisation code for SF4 has been channelisation code for SF4 is requested. requested for. The counter indicates the number of times that the channelisation code for SF8 has been requested for.

The counter is updated by one when the channelisation code for SF8 is requested.

The counter indicates the number of times that the channelisation code for SF16 has been requested for.

The counter is updated by one when the channelisation code for SF16 is requested.

The counter indicates the number of times that the channelisation code for SF32 has been requested for.

The counter is updated by one when the channelisation code for SF32 is requested.

The counter indicates the number of times that the channelisation code for SF64 has been requested for.

The counter is updated by one when the channelisation code for SF64 is requested.

The counter indicates the number of times that the channelisation code for SF128 has been requested for.

The counter is updated by one when the channelisation code for SF128 is requested.

The counter indicates the number of times that the channelisation code for SF256 has been requested for.

The counter is updated by one when the channelisation code for SF256 is requested.

The number of HSDPA channelisation code downgrades due to congestion of RT DCH requests.

When the code downgrade is started due to a RT over HSDPA prioritisation.

The number of HSDPA channelisation code downgrades due to congestion of NRT DCH requests.

When the code downgrade is started due to an NRT DCH over HSDPA prioritisation.

This counter indicates the amount of time that the BTS local cell group HW pool (where this cell belongs to) is in the HSUPA HW not-limited state during the measurement period. In this state, the BTS HW does not limit the HSUPA throughput. This counter indicates the amount of time the The same counter value is updated for all BTS local cell group HW pool (where this cell HSUPA enabled cells in the local cell group. belongs to) is in the HSUPA HW limited state during the measurement period. In this state, the RNC sets up the E-DCH but the BTS HW This counter indicates the amount of time the shortage may cause the throughput to be lower BTS local cell group HW pool (where this cell than expected. The same counter value is belongs to) is in the HSUPA HW limited state updated for all HSUPA enabled cells in the local during the measurement period. In this state, the cell group. RNC does not set up the E-DCH. The same This counter indicates the amount of time that counter value is updated for all HSUPA enabled there are no allocated HSUPA users during the cells in the local cell group. measurement period. The counter is not updated if HSUPA is disabled for the cell.

The counter is updated by one at one-second intervals when the BTS reports with a RADIO RESOURCE MEASUREMENT REPORT message that it is in a state where the HW does not limit the usage of the E-DCH. The counter is updated by one at one-second intervals when the BTS reports with a RADIO RESOURCE MEASUREMENT REPORT message that it is in the HW limited state.

This counter indicates the amount of time that 1 or 2 active HSUPA users are simultaneously allocated during the measurement period.

The counter is updated by one at one-second intervals if there are 1 or 2 active HSUPA users in the cell.

This counter indicates the amount of time that 3 or 4 active HSUPA users are simultaneously allocated during the measurement period.

The counter is updated by one at one-second intervals if there are 3 or 4 HSUPA users in the cell.

This counter indicates the amount of time that 5 or 6 active HSUPA users are simultaneously allocated during the measurement period.

The counter is updated by one at one-second intervals if there are 5 or 6 HSUPA users in the cell.

This counter indicates the amount of time that 7 or 8 active HSUPA users are simultaneously allocated during the measurement period.

The counter is updated by one at one-second intervals if there are 7 or 8 HSUPA users in the cell.

This counter indicates the amount of time that 9 or 10 active HSUPA users are simultaneously allocated during the measurement period.

The counter is updated by one at one-second intervals if there are 9 or 10 HSUPA users in the cell.

The counter is updated by one at one-second intervals when the BTS reports with a RADIO RESOURCE MEASUREMENT REPORT message that it is in a state where there is no capacity available for the E-DCH. The counter is updated by one at one-second intervals if HSUPA is enabled in the cell but no HSUPA users are allocated.

This counter indicates the amount of time that 11 The counter is updated by one at one-second or 12 active HSUPA users are simultaneously intervals if there are 11 or 12 HSUPA users in the allocated during the measurement period. cell.

This counter indicates the amount of time that 13 The counter is updated by one at one-second or 14 active HSUPA users are simultaneously intervals if there are 13 or 14 HSUPA users in the allocated during the measurement period. cell. This counter indicates the amount of time that 15 The counter is updated by one at one-second or 16 active HSUPA users are simultaneously intervals if there are 15 or 16 HSUPA users in the allocated during the measurement period. cell. This counter indicates the amount of time that 17 The counter is updated by one at one-second or 18 active HSUPA users are simultaneously intervals if there are 17 or 18 HSUPA users in the allocated during the measurement period. cell. This counter indicates the amount of time that 19 The counter is updated by one at one-second or 20 active HSUPA users are simultaneously intervals if there are 19 or 20 HSUPA users in the allocated during the measurement period. cell. The maximum number of simultaneous HSDPA users per cell. HSDPA user is defined as a user with HS-DSCH allocated in the serving cell and either Rel99 DCH or E-DCH as the uplink channel type. DCThe maximum number of simultaneous HSUPA HSDPA users are counted only in the primary users per cell. Includes both serving and nonserving cell. serving E-DCH radio links.

The number of HSDPA users is sampled with onesecond interval.

The sum of sampled values for measuring the number of simultaneous HSDPA users in the cell. This counter, divided by the denominator M1000C285, provides the average number of HSDPA users in the cell. The number of samples taken for counter HSDPA user is defined as a user with HS-DSCH M1000C284, used as a denominator for average allocated in the serving cell and either Rel99 calculation. DCH or E-DCH as the uplink channel type. DCHSDPA users are counted only in the primary The sumcell. of sampled values for measuring the serving number of simultaneous HSUPA users in the cell. This counter, divided by the denominator M1000C287, provides the average number of HSUPA users (E-DCH allocations) in the cell. The number of samples taken for counter Includes both serving and non-serving E-DCH M1000C286, used as a denominator for average radio links. calculation.

The number of HSDPA users is sampled with onesecond interval and summed to this counter.

The number of times when (TxPower) < (under load threshold).

The counters are updated periodically when the RNC checks the load situation.

The number of times when (TxPower) < (target load threshold).

The counters are updated periodically when the RNC checks the load situation.

The number of HSUPA users is sampled with onesecond interval.

Updated by value 1 when the number of HSDPA users is summed to counter M1000C284.

The number of HSUPA users is sampled with onesecond interval and summed to this counter.

Updated by value 1 when the number of HSUPA users is summed to counter M1000C286.

The number of times when (TxPower) >= (target load threshold).

The counters are updated periodically when the RNC checks the load situation.

The number of times when (TxPower) >= (over load threshold).

The counters are updated periodically when the RNC checks the load situation.

The number of times when (downlink spreading code load on SF128 level) < (under load threshold AMRUnderSC).

The counters are updated periodically when the RNC checks the load situation.

The number of times when (downlink spreading code load on SF128 level) < (target load threshold AMRTargetSC).

The counters are updated periodically when the RNC checks the load situation.

The number of times when (downlink spreading code load on SF128 level) >= (target load threshold AMRTargetSC) .

The counters are updated periodically when the RNC checks the load situation.

The number of times when (downlink spreading code load on SF128 level) >= (over load threshold AMROverSC).

The counters are updated periodically when the RNC checks the load situation.

The number of times when (Iub downlink transmission load) < (under load threshold AMRUnderTransmission).

The counters are updated periodically when the RNC checks the load situation.

The number of times when (Iub downlink transmission load) < (target load threshold AMRTargetTransmission).

The counters are updated periodically when the RNC checks the load situation.

The number of times when (Iub downlink transmission load) >= (target load threshold AMRTargetTransmission).

The counters are updated periodically when the RNC checks the load situation.

The number of times when (Iub downlink transmission load) >= (over load threshold AMROverTransmission).

The counters are updated periodically when the RNC checks the load situation.

Sum of samples for calculating average number of simultaneous HS-DSCH MAC-d flows per cell for streaming traffic class. This includes only user RAB related MAC-d flows, not signalling radio bearers. The number of samples taken for counter M1000C300, used as a denominator for average calculation.

The number of HS-DSCH MAC-d flows for streaming is sampled with one-second interval and summed to this counter. The counter is updated only for serving HS-DSCH cell. Updated by value 1 when the number of HS-DSCH MAC-d flows is summed to counter M1000C300

Sum of samples for calculating average number of simultaneous HS-DSCH MAC-d flows per cell for interactive traffic class. This includes only user RAB related MAC-d flows, not signalling radio bearers. The number of samples taken for counter M1000C302, used as a denominator for average calculation.

The number of HS-DSCH MAC-d flows for interactive is sampled with one-second interval and summed to this counter.

Sum of samples for calculating average number of simultaneous HS-DSCH MAC-d flows per cell for background traffic class. This includes only user RAB related MAC-d flows, not signalling radio bearers. The number of samples taken for counter M1000C304, used as a denominator for average calculation.

The number of HS-DSCH MAC-d flows for background is sampled with one-second interval and summed to this counter.

Sum of samples for calculating average number of simultaneous E-DCH MAC-d flows per cell for streaming traffic class. This includes only user RAB related MAC-d flows, not signalling radio bearers. The number of samples taken for counter M1000C306, used as a denominator for average calculation.

The number of E-DCH MAC-d flows for streaming is sampled with one-second interval and summed to this counter.

Sum of samples for calculating average number of simultaneous E-DCH MAC-d flows per cell for interactive traffic class. This includes only user RAB related MAC-d flows, not signalling radio bearers. The number of samples taken for counter M1000C308, used as a denominator for average calculation.

The number of E-DCH MAC-d flows for interactive is sampled with one-second interval and summed to this counter.

Sum of samples for calculating average number of simultaneous E-DCH MAC-d flows per cell for background traffic class. This includes only user RAB related MAC-d flows, not signalling radio bearers. The number of samples taken for counter M1000C310, used as a denominator for average calculation.

The number of E-DCH MAC-d flows for background is sampled with one-second interval and summed to this counter.

This counter indicates the amount of time that 1 active HSDPA user is simultaneously allocated during the measurement period.

The counter is updated by one at one-second intervals if there is one HSDPA user in the cell.

Updated by value 1 when the number of HS-DSCH MAC-d flows is summed to counter M1000C302

Updated by value 1 when the number of HS-DSCH MAC-d flows is summed to counter M1000C304

Updated by value 1 when the number of E-DCH MAC-d flows is summed to counter M1000C306

Updated by value 1 when the number of E-DCH MAC-d flows is summed to counter M1000C308

Updated by value 1 when the number of E-DCH MAC-d flows is summed to counter M1000C310

This counter indicates the amount of time that 3 The counter is updated by one at one-second active HSDPA users are simultaneously allocated intervals if there are 3 HSDPA users in the cell. during the measurement period.

This counter indicates the amount of time that 49 The counter is updated by one at one-second to 52 active HSDPA users are simultaneously intervals if there are 49 to 52 HSDPA users in the allocated during the measurement period. cell. This counter indicates the amount of time that 53 The counter is updated by one at one-second to 56 active HSDPA users are simultaneously intervals if there are 53 to 56 HSDPA users in the allocated during the measurement period. cell. This counter indicates the amount of time that 57 The counter is updated by one at one-second to 60 active HSDPA users are simultaneously intervals if there are 57 to 60 HSDPA users in the allocated during the measurement period. cell. This counter indicates the amount of time that 61 The counter is updated by one at one-second to 64 active HSDPA users are simultaneously intervals if there are 61 to 64 HSDPA users in the allocated during the measurement period. cell. This counter indicates the amount of time that 1 active HSUPA user is simultaneously allocated during the measurement period.

The counter is updated by one at one-second intervals if there is 1 active HSUPA user in the cell.

This counter indicates the amount of time that 3 The counter is updated by one at one-second active HSUPA users are simultaneously allocated intervals if there are 3 active HSUPA users in the during the measurement period. cell. The number of total uplink power (RTWP) measurement report samples in which the power value is inside Class 0 range (RTWP< -108 dBm). Note: All the received power is taken into account, not just Rel99. The number of total uplink power (RTWP) measurement report samples in which the power value is inside Class 1 range (-108 dBm RRIndPeriod. When the timer the reported RTWP value is inside Class 3 range. expires, the RTWP value is calculated based on the information of the latest received power value This counter is updated periodically according to in an NBAP-PRIVATE: RADIO RESOURCE the RNC internal timer whose period is defined by MEASUREMENT REPORT sent by the BTS, and parameter WBTS->RRIndPeriod. When the timer the reported RTWP value is inside Class 4 range. expires, the RTWP value is calculated based on the information of the latest received power value in an NBAP-PRIVATE: RADIO RESOURCE MEASUREMENT REPORT sent by the BTS, and the reported RTWP value is inside Class 5 range.

The number of total uplink power (RTWP) measurement report samples in which the power value is inside Class 6 range (-103 dBm RRIndPeriod. When the timer the reported RTWP value is inside Class 16 range. expires, the RTWP value is calculated based on the information of the latest received power value in an NBAP-PRIVATE: RADIO RESOURCE MEASUREMENT REPORT sent by the BTS, and the reported RTWP value is inside Class 17 range.

The number of total uplink power (RTWP) measurement report samples in which the power value is inside Class 18 range (-80 dBm PtxTarget + maximum number of periodical inter-system LHOpwrOffsetDL. measurement reports (more information can be found in the Handover control document). This When the handover control entity decides that no counter is updated only when the trigger is Load cell is good enough for handover - after the Based HO reason CapaReqRejRateUL > maximum number of periodical inter-system LHOcapaReqRejRateUL. measurement reports (more information can be found in the Handover control document). This When the handover control entity decides that no counter is updated only when the trigger is Load cell is good enough for handover - after the Based HO reason CapaReqRejRateDL > maximum number of periodical inter-system LHOcapaReqRejRateDL. measurement reports (more information can be found in the Handover control document). This When the handover control entity decides that no counter is updated only when the trigger is Load cell is good enough for handover - after the Based HO reason ReservationRateSC > maximum number of periodical inter-system LHOresRateSC. measurement reports (more information can be found in the Handover control document). This When the handover control entity decides that no counter is updated only when the trigger is Load cell is good enough for handover - after the Based HO reason HW or logical resource maximum number of periodical inter-system limitation. measurement reports (more information can be found in the Handover control document). This After a handover decision, when the RNC sends counter is updated only when the trigger reason is the RANAP: RELOCATION REQUIRED message Service Based HO. to the CN. This counter is updated only when the trigger is Load Based HO reason PrxTotal > PrxTarget + LHOpwrOffsetUL.

The number of Load Based inter-system After a handover decision, when the RNC sends handover attempts due to PtxTotal > PtxTarget + the RANAP: RELOCATION REQUIRED message LHOpwrOffsetDL - by UEs with RT connection. to the CN. This counter is updated only when the trigger is Load Based HO reason PtxTotal > PtxTarget + LHOpwrOffsetDL. The number of Load Based inter-system After a handover decision, when the RNC sends handover attempts due to ReservationRateSC > the RANAP: RELOCATION REQUIRED message LHOresRateSC - by UEs with RT connection. to the CN. This counter is updated only when the trigger is Load Based HO reason ReservationRateSC > LHOresRateSC. The number of Load Based inter-system After a handover decision, when the RNC sends handover attempts due to HW or logical resource the RANAP: RELOCATION REQUIRED message limitation - by UEs with RT connection. to the CN. This counter is updated only when the trigger is Load Based HO reason HW or logical resource limitation. The number of Service Based inter-system After a handover decision, when the RNC sends handover attempts - by UEs with RT connection. the RANAP: RELOCATION REQUIRED message to the CN. This counter is updated only when the trigger reason is Service Based HO. The number of Load Based inter-system After a handover decision, when the RNC sends handover attempts due to PrxTotal > PrxTarget + the RANAP: RELOCATION REQUIRED message LHOpwrOffsetUL - by UEs with NRT connection. to the CN. This counter is updated only when the trigger is Load Based HO reason PrxTotal > PrxTarget + LHOpwrOffsetUL. The number of Load Based inter-system After a handover decision, when the RNC sends handover attempts due to PtxTotal > PtxTarget + the RANAP: RELOCATION REQUIRED message LHOpwrOffsetDL - by UEs with NRT connection. to the CN.. This counter is updated only when the trigger is Load Based HO reason PtxTotal > PtxTarget + LHOpwrOffsetDL. The number of Load Based inter-system After a handover decision, when the RNC sends handover attempts due to CapaReqRejRateUL > the RANAP: RELOCATION REQUIRED message LHOcapaReqRejRateUL - by UEs with NRT to the CN. This counter is updated only when the connection. trigger is Load Based HO reason CapaReqRejRateUL > LHOcapaReqRejRateUL. The number of Load Based inter-system After a handover decision, when the RNC sends handover attempts due to CapaReqRejRateDL > the RANAP: RELOCATION REQUIRED message LHOcapaReqRejRateDL - by UEs with NRT to the CN. This counter is updated only when the connection. trigger is Load Based HO reason CapaReqRejRatedL > LHOcapaReqRejRateDL. The number of Load Based inter-system After a handover decision, when the RNC sends handover attempts due to ReservationRateSC > the RANAP: RELOCATION REQUIRED message LHOresRateSC - by UEs with NRT connection. to the CN. This counter is updated only when the trigger is Load Based HO reason ReservationRateSC > LHOresRateSC. The number of Load Based inter-system After a handover decision, when the RNC sends handover attempts due to HW or logical resource the RANAP: RELOCATION REQUIRED message limitation - by UEs with NRT connection. to the CN. This counter is updated only when the trigger is Load Based HO reason HW or logical resource limitation. The number of Service Based inter-system After a handover decision, when the RNC sends handover attempts - by UEs with NRT the RANAP: RELOCATION REQUIRED message connection. to the CN. This counter is updated only when the trigger reason is Service Based HO. The number of successful Load Based interWhen the source RNC receives a RANAP: IU system handovers due to PrxTotal > PrxTarget + RELEASE COMMAND message with a normal LHOpwrOffsetUL - by UEs with RT connection. release cause from the CN - when an inter-system handover procedure is ongoing. This counter is updated only when the trigger is Load Based HO reason PrxTotal > PrxTarget + LHOpwrOffsetUL.

The number of successful Load Based interWhen the source RNC receives a RANAP: IU system handovers due to PtxTotal > PtxTarget + RELEASE COMMAND message with a normal LHOpwrOffsetDL - by UEs with RT connection. release cause from the CN - when an inter-system handover procedure is ongoing. This counter is updated only when the trigger is Load Based HO The number of successful Load Based interWhen the source RNC receives a RANAP: IU reason PtxTotal > PtxTarget + LHOpwrOffsetDL. system handovers due to ReservationRateSC > RELEASE COMMAND message with a normal LHOresRateSC - by UEs with RT connection. release cause from the CN - when an inter-system handover procedure is ongoing. This counter is updated only when the trigger is Load Based HO The number of successful Load Based interWhen the source RNC receives a RANAP: IU reason ReservationRateSC > LHOresRateSC. system handovers due to HW or logical resource RELEASE COMMAND message with a normal limitation - by UEs with RT connection. release cause from the CN - when an inter-system handover procedure is ongoing. This counter is updated only when the trigger is Load Based HO The number of successful Service Based interWhen the source RNC receives a RANAP: IU reason HW or logical resource limitation. system handovers - by UEs with RT connection. RELEASE COMMAND message with a normal release cause from the CN - when an inter-system handover procedure is ongoing. This counter is updated only when the trigger reason is Service The number of successful Load Based interWhen the source RNC receives a RANAP: IU Based HO. system handovers due to PrxTotal > PrxTarget + RELEASE COMMAND message with a normal LHOpwrOffsetUL - by UEs with NRT connection. release cause from the CN - when an inter-system handover procedure is ongoing. This counter is updated only when the trigger is Load Based HO The number of successful Load Based interWhen the source RNC receives a RANAP: IU reason PrxTotal > PrxTarget + LHOpwrOffsetUL. system handovers due to PtxTotal > PtxTarget + RELEASE COMMAND message with a normal LHOpwrOffsetDL - by UEs with NRT connection. release cause from the CN - when an inter-system handover procedure is ongoing. This counter is updated only when the trigger is Load Based HO The number of successful Load Based interWhen the source RNC receives a RANAP: IU reason PtxTotal > PtxTarget + LHOpwrOffsetDL. system handovers due to CapaReqRejRateUL > RELEASE COMMAND message with a normal LHOcapaReqRejRateUL - by UEs with NRT release cause from the CN - when an inter-system connection. handover procedure is ongoing. This counter is updated only when the trigger is Load Based HO The number of successful Load Based interWhen the source RNC receives a RANAP: IU reason CapaReqRejRateUL > system handovers due to CapaReqRejRateDL > RELEASE COMMAND message with a normal LHOcapaReqRejRateUL. LHOcapaReqRejRateDL - by UEs with NRT release cause from the CN - when an inter-system connection. handover procedure is ongoing. This counter is updated only when the trigger is Load Based HO The number of successful Load Based interWhen the source RNC receives a RANAP: IU reason CapaReqRejRatedL > system handovers due to ReservationRateSC > RELEASE COMMAND message with a normal LHOcapaReqRejRateDL. LHOresRateSC - by UEs with NRT connection. release cause from the CN - when an inter-system handover procedure is ongoing. This counter is updated only when the trigger is Load Based HO The number of successful Load Based interWhen the source RNC receives a RANAP: IU reason ReservationRateSC > LHOresRateSC. system handovers due to HW or logical resource RELEASE COMMAND message with a normal limitation - by UEs with NRT connection. release cause from the CN - when an inter-system handover procedure is ongoing. This counter is updated only when the trigger is Load Based HO The number of successful Service Based interWhen the source RNC receives a RANAP: IU reason HW or logical resource limitation. system handovers - by UEs with NRT RELEASE COMMAND message with a normal connection. release cause from the CN - when an inter-system handover procedure is ongoing. This counter is updated only when the trigger reason is Service The number of unsuccessful Load Based interWhen the source RNC receives a RRC: CELL Based HO. system handovers due to PrxTotal > PrxTarget + CHANGE ORDER FROM UTRAN FAILURE LHOpwrOffsetUL - by UEs with RT connection. message from the UE, and the failure cause is not --- If the UE fails to establish the physical "configuration unacceptable". This counter is channel(s) indicated in the handover command, updated only when the trigger is Load Based HO the UE will revert to the configuration prior to the reason PrxTotal > PrxTarget + LHOpwrOffsetUL. receipt of the handover command (old configuration) and transmit a failure message to the source RNC. The hard handover procedure ends and the UE resumes the normal operation as if no hard handover attempt had occurred.

The number of unsuccessful Load Based intersystem handovers due to PtxTotal > PtxTarget + LHOpwrOffsetDL - by UEs with RT connection. --- If the UE fails to establish the physical channel(s) indicated in the handover command, The number of unsuccessful Load Based interthe UE will revert to the configuration prior to the system handovers due to ReservationRateSC > receipt of the handover command (old LHOresRateSC - by UEs with RT connection. --configuration) and transmit a failure message to If the UE fails to establish the physical channel(s) the source RNC. The hard handover procedure indicated in the handover command, the UE will The unsuccessful Based interendsnumber and theofUE resumes theLoad normal operation revert to the configuration prior to the receipt of system due attempt to HW orhad logical resource as if no handovers hard handover occurred. the handover command (old configuration) and limitation - by UEs with RT connection. --- If the transmit a failure message to the source RNC. UE fails to establish the physical channel(s) The hard handover procedure ends and the UE indicated in the handover command, the UE will The number unsuccessful resumes the of normal operationService as if noBased hard interrevert to the configuration prior to the receipt of system handovers - byoccurred. UEs with RT connection. handover attempt had the handover command (old configuration) and --- If the UE fails to establish the physical transmit a failure message to the source RNC. channel(s) indicated in the handover command, The hard handover procedure ends and the UE the UE will revert to the configuration prior to the The number unsuccessful interresumes the of normal operationLoad as ifBased no hard receipt of the handover command (old system handovers dueoccurred. to PrxTotal > PrxTarget + handover attempt had configuration) and transmit a failure message to LHOpwrOffsetUL - by UEs with NRT connection. the source RNC. The hard handover procedure --- If the UE fails to establish the physical ends and the UE resumes the normal operation channel(s) indicated in the handover command, The unsuccessful Load interas if number no hard of handover attempt hadBased occurred. the UE will revert to the configuration prior to the system handovers due to PtxTotal > PtxTarget + receipt of the handover command (old LHOpwrOffsetDL - by UEs with NRT connection. configuration) and transmit a failure message to --- If the UE fails to establish the physical the source RNC. The hard handover procedure channel(s) indicated in the handover command, The unsuccessful Based interendsnumber and theofUE resumes theLoad normal operation the UE will revert to the configuration prior to the system due attempt to CapaReqRejRateUL as if no handovers hard handover had occurred. > receipt of the handover command (old LHOcapaReqRejRateUL - by UEs with NRT configuration) and transmit a failure message to connection. --- If the UE fails to establish the the source RNC. The hard handover procedure physical channel(s) indicated in the handover The unsuccessful Based interendsnumber and theofUE resumes theLoad normal operation command, the UE will revert to the configuration system due attempt to CapaReqRejRateDL as if no handovers hard handover had occurred. > prior to the receipt of the handover command (old LHOcapaReqRejRateDL - by UEs with NRT configuration) and transmit a failure message to connection. --- If the UE fails to establish the the source RNC. The hard handover procedure physical channel(s) indicated in the handover The unsuccessful Based interendsnumber and theofUE resumes theLoad normal operation command, the UE will revert to the configuration system due attempt to ReservationRateSC as if no handovers hard handover had occurred. > prior to the receipt of the handover command (old LHOresRateSC - by UEs with NRT connection. configuration) and transmit a failure message to --- If the UE fails to establish the physical the source RNC. The hard handover procedure channel(s) indicated in the handover command, The unsuccessful Based interendsnumber and theofUE resumes theLoad normal operation the UE will revert to the configuration prior to the system due attempt to HW orhad logical resource as if no handovers hard handover occurred. receipt of the handover command (old limitation - by UEs with NRT connection. --- If the configuration) and transmit a failure message to UE fails to establish the physical channel(s) the source RNC. The hard handover procedure indicated in the handover command, the UE will The unsuccessful interendsnumber and theofUE resumes theService normalBased operation revert to the configuration prior to the receipt of system - by attempt UEs withhad NRT as if no handovers hard handover occurred. the handover command (old configuration) and connection. --- If the UE fails to establish the transmit a failure message to the source RNC. physical channel(s) indicated in the handover The hard handover procedure ends and the UE command, the UE will revert to the configuration The number connection drops Load resumes the of normal operation as during if no hard prior to the receipt of the handover command (old Based inter-system handover due to PrxTotal > handover attempt had occurred. configuration) and transmit a failure message to PrxTarget + LHOpwrOffsetUL - by UEs with RT the source RNC. The hard handover procedure connection. Note that if RRC connection reends and the UE resumes the normal operation establishment is enabled, this failure situation as if no hard handover attempt had occurred. does not always mean the drop of RRC connection but only a loss of Cell_DCH state radio connection.

When the source RNC receives a RRC: CELL CHANGE ORDER FROM UTRAN FAILURE message from the UE, and the failure cause is not "configuration unacceptable". This counter is updated only when the trigger is Load Based HO When the source RNC receives a RRC: CELL reason PtxTotal > PtxTarget + LHOpwrOffsetDL. CHANGE ORDER FROM UTRAN FAILURE message from the UE, and the failure cause is not "configuration unacceptable". This counter is updated only when the trigger is Load Based HO When the source RNC receives a RRC: CELL reason ReservationRateSC > LHOresRateSC. CHANGE ORDER FROM UTRAN FAILURE message from the UE, and the failure cause is not "configuration unacceptable". This counter is updated only when the trigger is Load Based HO When the source RNC receives a RRC: CELL reason HW or logical resource limitation. CHANGE ORDER FROM UTRAN FAILURE message from the UE, and the failure cause is not "configuration unacceptable". This counter is updated only when the trigger reason is Service When the source RNC receives a RRC: CELL Based HO. CHANGE ORDER FROM UTRAN FAILURE message from the UE, and the failure cause is not "configuration unacceptable". This counter is updated only when the trigger is Load Based HO When the source RNC receives a RRC: CELL reason PrxTotal > PrxTarget + LHOpwrOffsetUL. CHANGE ORDER FROM UTRAN FAILURE message from the UE, and the failure cause is not "configuration unacceptable". This counter is updated only when the trigger is Load Based HO When the source RNC receives a RRC: CELL reason PtxTotal > PtxTarget + LHOpwrOffsetDL. CHANGE ORDER FROM UTRAN FAILURE message from the UE, and the failure cause is not "configuration unacceptable". This counter is updated only when the trigger is Load Based HO When the source RNC receives a RRC: CELL reason CapaReqRejRateUL > CHANGE ORDER FROM UTRAN FAILURE LHOcapaReqRejRateUL. message from the UE, and the failure cause is not "configuration unacceptable". This counter is updated only when the trigger is Load Based HO When the source RNC receives a RRC: CELL reason CapaReqRejRatedL > CHANGE ORDER FROM UTRAN FAILURE LHOcapaReqRejRateDL. message from the UE, and the failure cause is not "configuration unacceptable". This counter is updated only when the trigger is Load Based HO When the source RNC receives a RRC: CELL reason ReservationRateSC > LHOresRateSC. CHANGE ORDER FROM UTRAN FAILURE message from the UE, and the failure cause is not "configuration unacceptable". This counter is updated only when the trigger is Load Based HO When the source RNC receives a RRC: CELL reason HW or logical resource limitation. CHANGE ORDER FROM UTRAN FAILURE message from the UE, and the failure cause is not "configuration unacceptable". This counter is updated only when the trigger reason is Service When the radio connection is lost during inter Based HO. system handover procedure and the radio links are deleted.

The number of connection drops during Load Based inter-system handover due to PtxTotal > PtxTarget + LHOpwrOffsetDL - by UEs with RT connection. Note that if RRC connection reestablishment is enabled, this failure situation The number of connection drops during Load does not always mean the drop of RRC Based inter-system handover due to connection but only a loss of Cell_DCH state ReservationRateSC > LHOresRateSC - by UEs radio connection. with RT connection. Note that if RRC connection re-establishment is enabled, this failure situation The number of connection drops during Load does not always mean the drop of RRC Based inter-system handover due to HW or connection but only a loss of Cell_DCH state logical resource limitation - by UEs with RT radio connection. connection. Note that if RRC connection reestablishment is enabled, this failure situation The number of connection drops during Service does not always mean the drop of RRC Based inter-system handover - by UEs with RT connection but only a loss of Cell_DCH state connection. Note that if RRC connection reradio connection. establishment is enabled, this failure situation does not always mean the drop of RRC The number of connection drops during Load connection but only a loss of Cell_DCH state Based inter-system handover due to PrxTotal > radio connection. PrxTarget + LHOpwrOffsetUL - by UEs with NRT connection. Note that if RRC connection reestablishment is enabled, this failure situation The number of connection drops during Load does not always mean the drop of RRC Based inter-system handover due to PtxTotal > connection but only a loss of Cell_DCH state PtxTarget + LHOpwrOffsetDL - by UEs with NRT radio connection. connection. Note that if RRC connection reestablishment is enabled, this failure situation The number of connection drops during Load does not always mean the drop of RRC Based inter-system handover due to connection but only a loss of Cell_DCH state CapaReqRejRateUL > LHOcapaReqRejRateUL radio connection. by UEs with NRT connection. Note that if RRC connection re-establishment is enabled, this The number of connection drops during Load failure situation does not always mean the drop Based inter-system handover due to of RRC connection but only a loss of Cell_DCH CapaReqRejRateDL > LHOcapaReqRejRateDL state radio connection. by UEs with NRT connection. Note that if RRC connection re-establishment is enabled, this The number of connection drops during Load failure situation does not always mean the drop Based inter-system handover due to of RRC connection but only a loss of Cell_DCH ReservationRateSC > LHOresRateSC - by UEs state radio connection. with NRT connection. Note that if RRC connection re-establishment is enabled, this The number of connection drops during Load failure situation does not always mean the drop Based inter-system handover due to HW or of RRC connection but only a loss of Cell_DCH logical resource limitation - by UEs with NRT state radio connection. connection. Note that if RRC connection reestablishment is enabled, this failure situation The number of connection drops during Service does not always mean the drop of RRC Based inter-system handover - by UEs with NRT connection but only a loss of Cell_DCH state connection. Note that if RRC connection reradio connection. establishment is enabled, this failure situation does not always mean the drop of RRC The number of inter-system handover attempts connection but only a loss of Cell_DCH state caused by Wireless Priority Service. radio connection.

When the radio connection is lost during inter system handover procedure and the radio links are deleted. When the radio connection is lost during inter system handover procedure and the radio links are deleted. When the radio connection is lost during inter system handover procedure and the radio links are deleted. When the radio connection is lost during inter system handover procedure and the radio links are deleted. When the radio connection is lost during inter system handover procedure and the radio links are deleted. When the radio connection is lost during inter system handover procedure and the radio links are deleted. When the radio connection is lost during inter system handover procedure and the radio links are deleted. When the radio connection is lost during inter system handover procedure and the radio links are deleted. When the radio connection is lost during inter system handover procedure and the radio links are deleted. When the radio connection is lost during inter system handover procedure and the radio links are deleted. When the radio connection is lost during inter system handover procedure and the radio links are deleted. After handover decision, when the RNC sends the RANAP: RELOCATION REQUIRED message to the CN. This counter is updated only when the trigger reason is Wireless Priority Service.

The number of successful inter-system handovers caused by Wireless Priority Service.

When the source RNC receives an RANAP: IU RELEASE COMMAND message with a normal release cause from the CN - when inter-system handover procedure is ongoing. This counter is updated only when the trigger reason is Wireless The number of unsuccessful inter-system When the source RNC receives an RRC: Priority Service. handovers caused by Wireless Priority Service. If HANDOVER FROM UTRAN FAILURE message the UE fails to establish the physical channel(s) from the UE, and the failure cause is not indicated in the handover command, the UE will "configuration unacceptable". This counter is revert to the configuration prior to the reception of updated only when the trigger reason is Wireless The number of connection drops during interWhen the radio connection is lost during inter the handover command (old configuration) and Priority Service. system handover caused by Wireless Priority system handover procedure and the radio links are transmit a failure message to the source RNC. Service. Note that if RRC connection redeleted. The hard handover procedure ends and the UE establishment is enabled, this failure situation resumes the normal operation as if no hard does not always mean the drop of RRC The number of Load inter-system HHO When either the handover control entity decides to handover attempt hadBased occurred. connection but only a loss of Cell_DCH state decisions after measuring with compressed mode make an inter-system HHO attempt radio connection. due to CapaReqRejRateUL > (RANAP:RELOCATION REQUIRED message is LHOcapaReqRejRateUL - by UEs with RT sent to CN) or the handover control entity decides connection. that no cell is good enough for handover after The number of Load Based inter-system HHO When either the handover control entity decides to measuring with compressed mode. This counter is decisions after measuring with compressed mode make an inter-system HHO attempt updated only when the trigger reason is Load due to CapaReqRejRateDL > (RANAP:RELOCATION REQUIRED message is Based HHO due to CapaReqRejRateUL > LHOCapaReqRejRateDL - by UEs with RT sent to CN) or the handover control entity decides LHOcapaReqRejRateUL. This counter is not connection. that no cell is good enough for handover after The number of Load Based inter-system HHO When either handover control entity updated if thethe call is released during the decides to measuring with compressed mode. This counter is decisions after measuring without compressed make an inter-system attempt measurement or if the HHO UE does not send updated only when the trigger reason is Load mode due to CapaReqRejRateUL > (RANAP:RELOCATION measurement reports asREQUIRED expected. message is Based HHO due to CapaReqRejRateDL > LHOcapaReqRejRateUL - by UEs with RT sent to CN) or the handover control entity decides LHOCapaReqRejRateDL. This counter is not connection. that no cell is good enough for handover after The number of Load Based inter-system HHO When either handover control entity updated if thethe call is released during the decides to measuring without compressed mode. This counter decisions after measuring without compressed make an inter-system attempt measurement or if the HHO UE does not send is updated only when the trigger reason is Load mode due to CapaReqRejRateDL > (RANAP:RELOCATION measurement reports asREQUIRED expected. message is Based HHO due to CapaReqRejRateUL > LHOCapaReqRejRateDL - by UEs with RT sent to CN) or the handover control entity decides LHOcapaReqRejRateUL. This counter is not connection. that no cell is good enough for handover after The number of times that an inter-system HHO When theif handover entity decides updated the call is control released during the that no measuring without compressed mode. This counter measurement due to Load Based HO reason cell is good enough forUE handover - after measurement or if the does not sendthe is updated only when the trigger reason is Load CapaReqRejRateUL > LHOcapaReqRejRateUL maximum number of periodical inter-system measurement reports as expected. Based HHO due to CapaReqRejRateDL > ends without making an inter-system HHO measurement reports (more information can be LHOCapaReqRejRateDL. This counter is not attempt, because no cell is good enough for found in the Handover control document). This The number of times that an inter-system HHO When theif handover entity decides updated the call is control released during the that no inter-system HHO - for UEs with RT connection. counter is updated only when the trigger is Load measurement due to Load Based HO reason cell is good enough forUE handover - after measurement or if the does not sendthe Based HO reason CapaReqRejRateUL > CapaReqRejRateDL > LHOCapaReqRejRateDL maximum number of periodical inter-system measurement reports as expected. LHOcapaReqRejRateUL. ends without making an inter-system HHO measurement reports (more information can be attempt, because no cell is good enough for found in the Handover control document). This The number of Load Based inter-system After a handover decision, when the RNC sends inter-system HHO - for UEs with RT connection. counter is updated only when the trigger is Load handover attempts due to CapaReqRejRateUL > the RANAP: RELOCATION REQUIRED message Based HO reason CapaReqRejRateDL > LHOcapaReqRejRateUL - by UEs with RT to the CN. This counter is updated only when the LHOCapaReqRejRateDL. connection. trigger is Load Based HO reason CapaReqRejRateUL > LHOcapaReqRejRateUL. The number of Load Based inter-system After a handover decision, when the RNC sends handover attempts due to CapaReqRejRateDL > the RANAP: RELOCATION REQUIRED message LHOCapaReqRejRateDL - by UEs with RT to the CN. This counter is updated only when the connection. trigger is Load Based HO reason CapaReqRejRateDL > LHOCapaReqRejRateDL. The number of successful Load Based interWhen the RNC receives a RANAP: IU RELEASE system handovers due to CapaReqRejRateUL > COMMAND message with a normal release cause LHOcapaReqRejRateUL - by UEs with RT from the CN - when an inter-system handover connection. procedure is ongoing. This counter is updated only when the trigger is Load Based HO reason CapaReqRejRateUL > LHOcapaReqRejRateUL.

The number of successful Load Based intersystem handovers due to CapaReqRejRateDL > LHOCapaReqRejRateDL - by UEs with RT connection. The number of unsuccessful Load Based intersystem handovers due to CapaReqRejRateUL > LHOcapaReqRejRateUL - by UEs with RT connection. --- If the UE fails to establish the physical channel(s) indicated in the handover The number of unsuccessful Load Based intercommand, the UE will revert to the configuration system handovers due to CapaReqRejRateDL > prior to the receipt of the handover command (old LHOCapaReqRejRateDL - by UEs with RT configuration) and transmit a failure message to connection. --- If the UE fails to establish the the source RNC. The hard handover procedure physical channel(s) indicated in the handover The connection drops during Load endsnumber and theofUE resumes the normal operation command, the UE will revert to the configuration Based handover as if nointer-system hard handover attemptdue hadtooccurred. prior to the receipt of the handover command (old CapaReqRejRateUL > LHOcapaReqRejRateUL configuration) and transmit a failure message to by UEs with RT connection. Note that if RRC the source RNC. The hard handover procedure connection re-establishment is enabled, this The connection drops during Load endsnumber and theofUE resumes the normal operation failure situation does not always mean the drop Based handover as if nointer-system hard handover attemptdue hadtooccurred. of RRC connection but only a loss of Cell_DCH CapaReqRejRateDL > LHOCapaReqRejRateDL state radio connection. - by UEs with RT connection. Note that if RRC connection re-establishment is enabled, this The number of inter-system HHO measurements failure situation does not always mean the drop cancelled due to CPICH EcNo for UEs with RT of RRC connection but only a loss of Cell_DCH connection. state radio connection.

When the RNC receives a RANAP: IU RELEASE COMMAND message with a normal release cause from the CN - when an inter-system handover procedure is ongoing. This counter is updated only when the trigger is Load Based HO reason When the RNC receives an RRC: HANDOVER CapaReqRejRateDL > LHOCapaReqRejRateDL. FROM UTRAN FAILURE message from the UE, and the failure cause is not "configuration unacceptable". This counter is updated only when the trigger is Load Based HO reason When the RNC receives an RRC: HANDOVER CapaReqRejRateUL > LHOcapaReqRejRateUL. FROM UTRAN FAILURE message from the UE, and the failure cause is not "configuration unacceptable". This counter is updated only when the trigger is Load Based HO reason When the radio connection is lost during inter CapaReqRejRateDL > LHOCapaReqRejRateDL. system handover procedure and the radio links are deleted. When the radio connection is lost during inter system handover procedure and the radio links are deleted. When the RNC receives such a CPICH EcNo measurement report from the UE that triggers the cancellation of inter-system HHO measurement.

The number of inter-system HHO measurements When the RNC receives such a CPICH RSCP cancelled due to CPICH RSCP for UEs with RT measurement report from the UE that triggers the connection. cancellation of inter-system HHO measurement. The number of inter-system HHO measurements When the RNC receives such a UE Tx Power cancelled due to UE Tx Power for UEs with RT measurement report from the UE that triggers the connection. cancellation of inter-system HHO measurement. The number of inter-system HHO measurements When the RNC receives such a Downlink DPCH cancelled due to DL DPCH Power for UEs with power measurement report from the WBTS that RT connection. triggers the cancellation of inter-system HHO measurement. The number of inter-system HHO measurements When a soft handover branch addition triggers the cancelled due to Active Set Update caused by cancellation of inter-system HHO measurement. Cell Addition for UEs with RT connection. The number of inter-system HHO measurements When a soft handover branch replacement triggers cancelled due to Active Set Update caused by the cancellation of inter-system HHO Cell Replacement for UEs with RT connection. measurement. The number of inter-system HHO measurements When the RNC receives such a CPICH EcNo cancelled due to CPICH EcNo for UEs with only measurement report from the UE that triggers the NRT connection. cancellation of inter-system HHO measurement.

The number of inter-system HHO measurements When the RNC receives such a CPICH RSCP cancelled due to CPICH RSCP for UEs with only measurement report from the UE that triggers the NRT connection. cancellation of inter-system HHO measurement. The number of inter-system HHO measurements When the RNC receives such a UE Tx Power cancelled due to UE Tx Power for UEs with only measurement report from the UE that triggers the NRT connection. cancellation of inter-system HHO measurement. The number of inter-system HHO measurements When the RNC receives such a Downlink DPCH cancelled due to DL DPCH Power for UEs with power measurement report from the WBTS that only NRT connection. triggers the cancellation of inter-system HHO measurement. The number of inter-system HHO measurements When a soft handover branch addition triggers the cancelled due to Active Set Update caused by cancellation of inter-system HHO measurement. Cell Addition for UEs with only NRT connection. The number of inter-system HHO measurements When a soft handover branch replacement triggers cancelled due to Active Set Update caused by the cancellation of inter-system HHO Cell Replacement for UEs with only NRT measurement. connection. The number of inter-system handover attempts caused by Directed Retry for AMR calls.

The number of successful inter-system handovers caused by Directed Retry for AMR calls.

After handover decision, when the RNC sends the RANAP: RELOCATION REQUIRED message to the CN. This counter is updated only when the trigger reason is Directed Retry for AMR call.

When the RNC receives an RANAP: IU RELEASE COMMAND message with a normal release cause from the CN - when inter-system handover procedure is ongoing. This counter is updated only when the trigger reason is Directed Retry for AMR The number of unsuccessful inter-system When the RNC receives an RRC: HANDOVER call. handovers caused by Directed Retry for AMR FROM UTRAN FAILURE message from the UE, calls. If the UE fails to establish the physical and the failure cause is not "configuration channel(s) indicated in the handover command, unacceptable". This counter is updated only when the UE will revert to the configuration prior to the the trigger reason is Directed Retry for AMR call. The number of connection drops during interWhen the radio connection is lost during inter reception of the handover command (old system handover caused by Directed Retry for system handover procedure and the radio links are configuration) and transmit a failure message to AMR calls. Note that if RRC connection redeleted. the source RNC. establishment is enabled, this failure situation From end user point of view a failure in Directed does not always mean the drop of RRC The of Inter-system attempts After handover decision, when the RNC sends Retrynumber triggered ISHO meanshandover a failed CS Voice connection but only a loss of Cell_DCH state due to cell shutdown procedure for NRT. RANAP: RELOCATION REQUIRED to the CN. call attempt. radio connection. This counter is updated only when the trigger reason is forced ISHO due to cell shutdown procedure for remaining UEs and for NRT. The number of Inter-system handover attempts After handover decision, when the RNC sends due to cell shutdown procedure for RT. RANAP: RELOCATION REQUIRED to the CN. This counter is updated only when the trigger reason is forced ISHO due to cell shutdown procedure for remaining UEs and for RT. The number of successful Inter-system When the Inter-system handover ends, i.e., when handovers due to cell shutdown procedure for the source RNC receives RANAP: IU RELEASE NRT. COMMAND message with cause "successful relocation" from the CN. This counter is updated only when the trigger reason is forced ISHO due to cell shutdown procedure for remaining UEs and for NRT.

The number of successful Inter-system handovers due to cell shutdown procedure for RT.

When the Inter-system handover ends, i.e., when the source RNC receives RANAP: IU RELEASE COMMAND message with cause "successful relocation" from the CN. This counter is updated only when the trigger reason is forced ISHO due to The number of Inter-system handover attempts When a user has got at least one RT RAB and the cell shutdown procedure for remaining UEs and for using the second best cell for RT. RNC sends RANAP: RELOCATION REQUIRED RT. Also cause specific attempt counter, for example message to the CN, using the second best cell as M1010C30, is updated along with this counter. the handover target. The number of Inter-system handover attempts using the third best cell for RT. Also cause specific attempt counter, for example M1010C30, is updated along with this counter.

When a user has got at least one RT RAB and the RNC sends RANAP: RELOCATION REQUIRED message to the CN, using the third best cell as the handover target.

The number of Inter-system handover attempts using the second best cell for NRT. Also cause specific attempt counter, for example M1010C68, is updated along with this counter.

When a user has got only NRT RABs and the RNC sends RRC: CELL CHANGE ORDER FROM UTRAN message to the UE, using the second best cell as the handover target.

The number of Inter-system handover attempts using the third best cell for NRT. Also cause specific attempt counter, for example M1010C68, is updated along with this counter.

When a user has got only NRT RABs and the RNC sends RRC: CELL CHANGE ORDER FROM UTRAN to the UE, using the third best cell as the handover target.

The number of Inter-system handover attempts due to normal priority block resource procedure for NRT.

After handover decision, when the RNC sends RANAP: RELOCATION REQUIRED to the CN. This counter is updated only when the trigger reason is forced ISHO due to normal priority block resource procedure for remaining UEs and for After handover decision, when the RNC sends NRT. RANAP: RELOCATION REQUIRED to the CN. This counter is updated only when the trigger reason is forced ISHO due to normal priority block resource procedure for remaining UEs and for RT. When the Inter-system handover ends, i.e., when the source RNC receives RANAP: IU RELEASE COMMAND message with cause "successful relocation" from the CN. This counter is updated only when the trigger reason is forced ISHO due to When the Inter-system handover ends, i.e., when normal priority block resource procedure for the source RNC receives RANAP: IU RELEASE remaining UEs and for NRT. COMMAND message with cause "successful relocation" from the CN. This counter is updated only when the trigger reason is forced ISHO due to When no carrier frequency was found for LTE normal priority block resource procedure for redirection during measurements, and the LTE remaining UEs and for RT. carrier measurement is stopped due to maximum number of measurement reports received.

The number of Inter-system handover attempts due to normal priority block resource procedure for RT. The number of successful Inter-system handovers due to normal priority block resource procedure for NRT. The number of successful Inter-system handovers due to normal priority block resource procedure for RT. The number of times when no good enough carrier frequency was found for LTE redirection during measurements performed by the UE. The number of times when LTE redirection was started after finding good enough carrier frequency with measurements performed by the UE.

When the LTE carrier measurement performed by the UE finds a carrier frequency with acceptable quality to perform redirection and the RNC initiates the redirection procedure.

The total duration for LTE frequency band measurements in SRNC. The start time of the measurement is when the Measurement Control is sent to the UE. The stop trigger for the measurement is when the measurement session ends either to perform the redirection/handover or not because no suitable carrier is found or the call was released or dropped during the measurement.

When the LTE frequency band measurement session ends to either perform the handover/redirection or not because there is no suitable carrier found or the call was released/dropped during the measurement.

The counter is updated only for the main cell of the connection.

The number of evaluations for inter-system HHO to LTE for NRT call after measuring with compressed mode due to RRC state change from Cell_DCH to CCH. The number of evaluations for inter-system HHO to LTE for NRT call after measuring with compressed mode due to channel type switch from HSDPA or HSUPA to Rel99 DCH x/y. The number of evaluations for inter-system HHO to LTE for NRT call after measuring with compressed mode due to CS RAB release. The number of evaluations for inter-system HHO to LTE for NRT call after measuring with compressed mode due to periodic trigger. The number of evaluations for inter-system HHO to LTE for NRT call after measuring without compressed mode due to RRC state change from Cell_DCH to CCH. The number of evaluations for inter-system HHO to LTE for NRT call after measuring without compressed mode due to channel type switch from HSDPA or HSUPA to Rel99 DCH x/y. The number of evaluations for inter-system HHO to LTE for NRT call after measuring without compressed mode due to CS RAB release. The number of evaluations for inter-system HHO to LTE for NRT call after measuring without compressed mode due to periodic trigger. The number of times when an inter-system HHO measurement for LTE carrier frequency started due to RRC state change from Cell_DCH to CCH ends without making an inter-system HHO attempt, because no cell is good enough for The number of times when an inter-system HHO inter-system HHO to LTE - for UEs with NRT measurement for LTE carrier frequency started connection. due to channel type switch from HSDPA or HSUPA to Rel99 DCH x/y ends without making an inter-system HHO attempt, because no cell is The number of times when an inter-system HHO good enough for inter-system HHO to LTE - for measurement for LTE carrier frequency started UEs with NRT connection. due to CS RAB release ends without making an inter-system HHO attempt, because no cell is good enough for inter-system HHO to LTE - for The number of times when an inter-system HHO UEs with NRT connection. measurement for LTE carrier frequency started due to periodic trigger ends without making an inter-system HHO attempt, because no cell is good enough for inter-system HHO to LTE - for UEs with NRT connection.

When either a relocation preparation to LTE is started or the RNC handover control decides that there is no suitable cell for handover after measuring with compressed mode. This counter is not updated if the call is released When either a relocation preparation to LTE is during the measurement or if the UE does not send started or the RNC handover control decides that measurement reports as expected. there is no suitable cell for handover after measuring with compressed mode. This counter is not updated if the call is released When either a relocation preparation to LTE is during the measurement or if the UE does not send started or the RNC handover control decides that measurement reports as expected. there is no suitable cell for handover after measuring with compressed mode. This counter is not updated if the call is released When either a relocation preparation to LTE is during the measurement or if the UE does not send started or the RNC handover control decides that measurement reports as expected. there is no suitable cell for handover after measuring with compressed mode. This counter is not updated if the call is released When either a relocation preparation to LTE is during the measurement or if the UE does not send started or the RNC handover control decides that measurement reports as expected. there is no suitable cell for handover after measuring with compressed mode. This counter is not updated if the call is released When either a relocation preparation to LTE is during the measurement or if the UE does not send started or the RNC handover control decides that measurement reports as expected. there is no suitable cell for handover after measuring with compressed mode. This counter is not updated if the call is released When either a relocation preparation to LTE is during the measurement or if the UE does not send started or the RNC handover control decides that measurement reports as expected. there is no suitable cell for handover after measuring with compressed mode. This counter is not updated if the call is released When either a relocation preparation to LTE is during the measurement or if the UE does not send started or the RNC handover control decides that measurement reports as expected. there is no suitable cell for handover after measuring with compressed mode. This counter is not updated if the call is released When the LTE carrier measurement ends without during the measurement or if the UE does not send initiating handover to LTE because the cells measurement reports as expected. reported by the UE did not fulfill the required handover target cell quality criteria. When the LTE carrier measurement ends without initiating handover to LTE because the cells reported by the UE did not fulfill the required handover target cell quality criteria. When the LTE carrier measurement ends without initiating handover to LTE because the cells reported by the UE did not fulfill the required handover target cell quality criteria. When the LTE carrier measurement ends without initiating handover to LTE because the cells reported by the UE did not fulfill the required handover target cell quality criteria.

The number of inter-system handover attempts to When the RNC sends RANAP: RELOCATION LTE for NRT call, which is caused by an RRC REQUIRED message to the CN after the LTE state change from Cell_DCH to CCH. handover decision. The number of inter-system handover attempts to When the RNC sends RANAP: RELOCATION LTE for NRT call, which is caused by a channel REQUIRED message to the CN after the LTE type switch from HSDPA or HSUPA to Rel99 handover decision. DCH x/y. The number of inter-system handover attempts to When the RNC sends RANAP: RELOCATION LTE for NRT call, which is caused by a CS call REQUIRED message to the CN after the LTE release. handover decision. The number of inter-system handover attempts to When the RNC sends RANAP: RELOCATION LTE for NRT call, which is triggered periodically. REQUIRED message to the CN after the LTE handover decision. The number of successful inter-system When the RNC receives RANAP: IU RELEASE handovers to LTE for NRT call, which is caused COMMAND from the CN after commanding the UE by an RRC state change from Cell_DCH to CCH. to perform an inter-system handover to LTE. The number of successful inter-system When the RNC receives RANAP: IU RELEASE handovers to LTE for NRT call, which is caused COMMAND from the CN after commanding the UE by a channel type switch from HSDPA or HSUPA to perform an inter-system handover to LTE. to Rel99 DCH x/y. The number of successful inter-system handovers to LTE for NRT call, which is caused by a CS call release.

When the RNC receives RANAP: IU RELEASE COMMAND from the CN after commanding the UE to perform an inter-system handover to LTE.

The number of successful inter-system handovers to LTE for NRT call caused by periodic trigger.

When the RNC receives RANAP: IU RELEASE COMMAND from the CN after commanding the UE to perform inter-system handover to LTE.

The number of times when the UE responds with RRC: HANDOVER FROM UTRAN FAILURE after being commanded to perform an intersystem handover to LTE, which is triggered by an RRC state change from Cell_DCH to CCH. The number of times when the UE responds with RRC: HANDOVER FROM UTRAN FAILURE after being commanded to perform an intersystem handover to LTE, which is triggered by a channel type switch from HSDPA or HSUPA to The number of times when the UE responds with Rel99 DCH x/y. RRC: HANDOVER FROM UTRAN FAILURE after being commanded to perform inter-system handover to LTE, which is triggered by a CS call release. The number of times when the UE responds with RRC: HANDOVER FROM UTRAN FAILURE after being commanded to perform inter-system handover to LTE and the trigger cause was periodic trigger.

When the RNC receives RRC: HANDOVER FROM UTRAN FAILURE from the UE.

When the RNC receives RRC: HANDOVER FROM UTRAN FAILURE from the UE.

When the RNC receives RRC: HANDOVER FROM UTRAN FAILURE from the UE.

When the RNC receives RRC: HANDOVER FROM UTRAN FAILURE from the UE.

The number of times when the UE is lost during an inter-system handover to LTE, causing the call to be dropped out of Cell_DCH state when the trigger is an RRC state change from Cell_DCH to CCH. The number of times when the UE is lost during an inter-system handover to LTE, causing the call to be dropped out of Cell_DCH state when the trigger is a channel type switch from HSDPA or HSUPA to Rel99 DCH x/y. The number of times when the UE is lost during an inter-system handover to LTE, causing the call to be dropped out of Cell_DCH state when the trigger is a CS call release. The number of times when the UE is lost during inter-system handover to LTE so that the call is dropped out of Cell_DCH state, when the trigger cause was periodic trigger. The number of LTE ISHO preparation failures for NRT calls.

The number of times when an inter-system handover to LTE was cancelled after a target cell was already found. When this cancellation occurs, the other LTE ISHO counters M1010C240-M1010C268 are not The number of incoming load handovers from updated. LTE with LTE cell load as the cause.

The number of LTE handover relocation preparations failed due to high load in the LTE cell. M1010C268 is also updated along with this counter. The number of handovers to LTE that is blocked due to load in LTE cell.

The number of redirections to LTE that is blocked due to load in LTE cell.

When the UE does not respond with RRC: HANDOVER FROM UTRAN FAILURE and the timer expires in the RNC or when the UE responds with RRC: CELL UPDATE, indicating that the call is dropped out of Cell_DCH state. When the UE does not respond with RRC: HANDOVER FROM UTRAN FAILURE and the timer expires in the RNC or when the UE responds with RRC: CELL UPDATE, indicating that the call is dropped out of Cell_DCH state. When the UE does not respond with RRC: HANDOVER FROM UTRAN FAILURE and the timer expires in the RNC or when the UE responds with RRC: CELL UPDATE, indicating that the call is dropped out of Cell_DCH state. When the UE does not respond to RRC: HANDOVER FROM UTRAN FAILURE and timer expires in the RNC, or the UE responds with RRC: CELL UPDATE and therefore the call is dropped out of Cell_DCH state. When the RNC receives RANAP: RELOCATION PREPARATION FAILURE from the CN or the RNC does not receive RANAP: RELOCATION COMMAND from the CN before the TRelocPrep timer expires. When an inter-system handover to LTE is cancelled after a target cell was already found. Reason for cancellation can be for example that CS RAB setup was started or HSPA user amount is no longer high enough to fulfill handover criteria. When the RNC receives RANAP: RANAP RELOCATION REQUEST from the CN requesting resources for incoming handover from LTE, and the Cause IE indicates high load in LTE cell. The related RANAP causes are defined by When in response to RANAP: RELOCATION RNMOBI parameters RANAPCause1LTELoadInHo REQUIRED sent to CN due to handover to LTE, and RANAPCause2LTELoadInHo. the RNC receives RANAP:RELOCATION PREPARATION FAILURE from the CN with cause This counter is not updated when RAN2892 or value indicating high load in the LTE cell. When the RNC RAN3452 is nothandover activated.control entity decides to block handover to the target LTE cell due to high The related RANAP causes are defined by load in the LTE cell. parameters RANAPCause1LTELoadOutHo, RANAPCause2LTELoadOutHo, and When the RNC handover control entity decides to RANAPCause3LTELoadOutHo. block redirection to the target LTE cell due to high load in the LTE cell.updated when RAN2892 or This counter is not RAN3452 is not activated.

The number of 2G ISHO attempts with compressed mode on HSDPA/HSUPA channel type without switch to Rel99 DCH. Both RT ISHO and NRT ISHO are included.

When the RNC handover control initiates 2G ISHO and the UE had performed compressed mode measurements on HSDPA/HSUPA.

The number of successful 2G ISHO with compressed mode on HSDPA/HSUPA channel type without switch to Rel99 DCH. Both RT ISHO and NRT ISHO are included.

When ISHO to 2G is successful and the UE had performed compressed mode measurements on HSDPA/HSUPA.

The number of successful inter-system handovers for CS Voice together with PS RAB with user plane on Rel99, HSDPA, or HSUPA. The counter is updated for the main cell of the connection at the moment of triggering handover The number of failed inter-system handovers for execution. CS Voice together with PS RAB with user plane on Rel99, HSDPA, or HSUPA. The counter is This is an optional counter that requires license updated for the main cell of the connection at the for feature RAN2862. moment of triggering handover execution. The number of incoming load handovers from LTE with LTE coverage as the cause. This is an optional counter that requires license for feature RAN2862.

When the RNC receives IU Release Command and ISHO to 2G is considered successful as there was no failure (for example, timer expiry) after sending the handover command to the UE. When ISHO fails either in preparation or execution phase.

The number of successful incoming LTE SRVCC CS ISHO preparations. RNC-level counter M1009C289 shall be updated along with this counter.

When the RNC receives RANAP: RANAP RELOCATION REQUEST from the CN requesting resources for incoming handover from LTE, and the Cause IE indicates coverage triggered handover. When the RNC handover control entity decides to The related RANAP causes are defined by block handover to LTE network because the user RNMOBI parameters does not have LTE subscription. RANAPCause1LTECoverageHo and LTE subscription can be verified by the UE history RANAPCause2LTECoverageHo. information, by the Pre-redirection information When the RNC handover control entity decides to and/or by the CSFB information. block redirection to updated LTE network theisuser This counter is not whenbecause RAN3291 not does not have LTE subscription. activated. LTE subscription can be verified by the UE history information, by the Pre-redirection information The counter is updated when the RNC handover and/or by the CSFB information. control entity decides to block handover to the LTE network because the UE has no LTE coverage or because the UE has not moved after the latest LTE measurements. The counter is updated when the RNC handover control entity decides to block redirection to the LTE network because the UE has no LTE coverage or the UE has not moved after the latest LTE measurements When the Controller receives RANAP: RELOCATION REQUEST from the CS-CN and the request is identified to come from LTE (IE UE History Information indicates that originating system is LTE), all causes are included except "CS When the Controller sends RANAP: RELOCATION fallback". REQUEST ACKNOWLEDGE to the CS-CN and the request is identified to come from LTE using SRVCC procedure.

The number of incoming LTE SRVCC CS ISHO preparation failures due to radio network layer cause. RNC-level counter M1009C286 shall be updated along with this counter.

When the Controller sends RANAP: RELOCATION FAILURE to the CS-CN during incoming LTE CS SRVCC ISHO with cause in category "radio network layer".

The number of incoming LTE SRVCC CS ISHO preparation failures due to transport layer cause. RNC-level counter M1009C290 shall be updated along with this counter.

When the Controller sends RANAP: RELOCATION FAILURE to the CS-CN during incoming LTE CS SRVCC ISHO with cause in category "transport layer".

The number of incoming LTE SRVCC CS ISHO preparation failures due to protocol cause. RNClevel counter M1009C292 shall be updated along with this counter.

When the Controller sends RANAP: RELOCATION FAILURE to the CS-CN during incoming LTE CS SRVCC ISHO with cause in category "protocol cause".

The number of handovers to LTE that is blocked due to missing LTE subscription. This counter can also be updated with RAN3291 disabled. The number of redirections to LTE that is blocked due to missing LTE subscription. This counter can also be updated with RAN3291 disabled. The counter indicates the number of handover attempts to LTE that are blocked because the UE has no LTE coverage or the UE has not moved after the latest LTE measurements. The counter indicates the number of redirections to LTE that are blocked because the UE has no LTE coverage or the UE has not moved after the latest LTE measurements. The number of incoming LTE SRVCC CS ISHO preparation requests. RNC-level counter M1009C288 shall be updated along with this counter.

The number of incoming LTE SRVCC CS ISHO preparation failures due to miscellaneous cause. RNC-level counter M1009C293 shall be updated along with this counter.

When the Controller sends RANAP: RELOCATION FAILURE to the CS-CN during incoming LTE CS SRVCC ISHO with cause in category "miscellaneous cause".

The number of sent RANAP: RELOCATION When the Controller sends RANAP: RELOCATION DETECT after incoming LTE SRVCC CS ISHO. DETECT to the CS-CN during LTE CS SRVCC RNC-level counter M1009C295 shall be updated ISHO. along with this counter. The number of sent RANAP: RELOCATION COMPLETE after incoming LTE SRVCC CS ISHO. RNC-level counter M1009C296 shall be updated along with this counter. The number of incoming LTE PS ISHO preparation requests for CS fallback. RNC-level counter M1009C297 shall be updated along with this counter. Cell-level LTE PS ISHO counter M1010C301 The number of successful preparations for shall be updated also. incoming LTE CS fallback ISHO. RNC-level counter M1009C298 shall be updated along with this counter. Cell-level LTE PS ISHO counter M1010C302 The number of incoming LTE CS fallback ISHO shall be updated also. preparation failures due to Radio network layer cause. RNC-level counter M1009C299 shall be updated along with this counter. Cell-level LTE PS ISHO counter M1010C303 The number of incoming LTE CS fallback ISHO shall be updated also. preparation failures due to Transport layer cause. RNC-level counter M1009C300 shall be updated along with this counter. Cell-level LTE PS ISHO counter M1010C304 The number of incoming LTE CS fallback ISHO shall be updated also. preparation failures due to Protocol cause. RNClevel counter M1009C302 shall be updated along with this counter. Cell-level LTE PS ISHO counter M1010C305 The number of incoming LTE CS fallback ISHO shall be updated also. preparation failures due to Miscellaneous cause. RNC-level counter M1009C303 shall be updated along with this counter. Cell-level LTE PS ISHO counter M1010C306 The number of sent RANAP: RELOCATION shall be updated also. DETECT after incoming LTE ISHO for CS fallback. RNC-level counter M1009C305 shall be updated along with this counter. The number of sent RANAP: RELOCATION Cell-level LTE PS ISHO counter M1010C307 COMPLETE after incoming LTE ISHO for CS shall be updated also. fallback. RNC-level counter M1009C306 shall be updated along with this counter. The number of incoming LTE PS ISHO Cell-level LTE PS ISHO counter M1010C308 preparation requests with cause "CS fallback shall be updated also. triggered" for emergency call. RNC-level counter M1009C307 shall be updated along with this counter. Cell-level CSFB preparation request counter M1010C291 shall be updated also.

When the Controller sends RANAP: RELOCATION COMPLETE to the CS-CN during LTE CS SRVCC ISHO. When RNC receives RANAP: RELOCATION REQUEST from PS-CN, the request is identified to come from LTE (IE UE History Information indicates E-UTRAN as the last visited cell), and the IE Radio Network Layer Cause Extension has When RNC sends RANAP: RELOCATION been set to CS Fallback triggered or "Source RNC REQUEST ACKNOWLEDGE to PS-CN for a to Target RNC Transparent Container" IE contains request identified to come from LTE for CS "CSFB Information" IE. Fallback. When RNC sends RANAP: RELOCATION FAILURE to PS-CN for an incoming LTE ISHO for CS Fallback with cause in category "radio network layer". When RNC sends RANAP: RELOCATION FAILURE to PS-CN for an incoming LTE ISHO for CS Fallback with cause in category "transport layer". When RNC sends RANAP: RELOCATION FAILURE to PS-CN for an incoming LTE ISHO for CS Fallback with cause in category "protocol cause". When RNC sends RANAP: RELOCATION FAILURE to PS-CN for an incoming LTE ISHO for CS Fallback with cause in category "miscellaneous cause". When RNC sends RANAP: RELOCATION DETECT to PS-CN during LTE ISHO for CS Fallback. When RNC sends RANAP: RELOCATION COMPLETE to PS-CN during LTE ISHO for CS Fallback. When RNC receives RANAP: RELOCATION REQUEST from PS-CN and the request is identified to come from LTE (IE UE History Information indicates E-UTRAN as the last visited cell) and Source RNC to Target RNC Transparent Container IE contains CSFB Information IE set to "CSFB High Priority.

The number of incoming emergency call LTE CS fallback ISHO preparation failures. RNC-level counter M1009C308 shall be updated along with this counter. Depending on the cause for failure, one of the The number of incoming LTE PS ISHO relevant counter from M1010C293-M1010C296 preparation requests. shall also be updated. If the mandatory IE is missing in the ISHO Depending on the cause for failure, one of the preparation request, the request is rejected and relevant counter from M1010C303-M1010C306 this cell level counter is not updated. The successful incoming LTE PS shallnumber also be of updated. RNC-level counter M1009C276 is updated along ISHO preparations. with this counter. RNC-level counter M1009C277 shall be updated along with this counter.

When RNC sends RANAP: RELOCATION FAILURE to PS-CN for an incoming emergency call LTE ISHO for CS Fallback.

The number of incoming LTE PS ISHO preparation failures due to radio network layer cause. RNC-level counter M1009C278 shall be updated along with this counter.

When the Controller sends RANAP: RELOCATION FAILURE to the CN during incoming LTE PS ISHO with cause in category "radio network layer".

When the Controller receives RANAP: RELOCATION REQUEST from the CN

When the Controller sends RANAP: RELOCATION REQUEST ACKNOWLEDGE to the CN.

The number of incoming LTE PS ISHO When the Controller sends RANAP: RELOCATION preparation failures due to transport layer cause. FAILURE to the CN during incoming LTE PS ISHO RNC-level counter M1009C279 shall be updated with cause in category "transport layer". along with this counter. The number of incoming LTE PS ISHO preparation failures due to a protocol issue. If the mandatory IE is missing in the ISHO preparation request, the request is rejected and this cell level counter is not updated. The number of incoming LTE PS ISHO RNC-level counter M1009C281 is updated along preparation failures due to miscellaneous cause. with this counter. RNC-level counter M1009C282 shall be updated along with this counter.

When the Controller sends RANAP: RELOCATION FAILURE to the CN during incoming LTE PS ISHO with cause under the category "protocol cause" When the Controller sends RANAP: RELOCATION FAILURE to the CN during incoming LTE PS ISHO with cause in category "miscellaneous cause".

The number of sent RANAP: RELOCATION When the Controller sends RANAP: RELOCATION DETECT after incoming LTE PS ISHO. DETECT to the CN. RNC-level counter M1009C284 shall be updated along with this counter. The number of sent RANAP: RELOCATION When the Controller sends RANAP: RELOCATION COMPLETE after incoming LTE PS ISHO. COMPLETE to the CN. RNC-level counter M1009C285 shall be updated along with this counter. This counter denotes the number of decisions for inter-system HHO from WCDMA-LTE border area to GSM after measuring with or without compressed mode due to bad C/I ratio for UEs with CS and/or PS connection. This counter denotes the number of times when an inter-system measurement for HHO from WCDMA-LTE border area to GSM due to bad C/I ratio ends without making an inter-system HHO attempt to GSM, because no cell is good enough This counter denotes the number of inter-system for inter-system HHO - for UEs with CS and/or HHO attempts from WCDMA-LTE border area to PS connection. GSM due to bad C/I ratio for UEs with CS and/or PS connection.

This counter is updated when either the handover control entity decides to make an inter-system HHO attempt or the handover control entity decides that no cell is good enough for handover after inter-system measurements with or without This counter is updated when the handover control compressed mode. This counter is updated only entity decides that there is no suitable GSM target when the trigger reason for inter-system HHO from cell in terms of RX level, or the target GSM cell is WCDMA-LTE border area to GSM is bad C/I ratio. suitable but its BSIC verification fails after the This counter is not updated if the call is released maximum number of periodical inter-system This counter is updated after theUE handover during the measurement or the does not send measurement reports (for more information, see decision, whenreports the RNC either the RANAP: measurement as sends expected. the Handover Control FAD). This counter is RELOCATION REQUIRED message to the CN updated only when the trigger reason for inter(UEs with CS connection and UEs with CS and PS system HHO from WCDMA-LTE border area to connection) or the RRC: CELL CHANGE ORDER GSM is bad C/I ratio. FROM UTRAN message to the UE (UEs with PS connection). This counter is updated only when the trigger reason for inter-system HHO from WCDMALTE border area to GSM is bad C/I ratio.

This counter denotes the number of successful inter-system HHOs from WCDMA-LTE border area to GSM due to bad C/I ratio for UEs with CS and/or PS connection. This counter denotes the number of unsuccessful inter-system HHOs from WCDMA-LTE border area to GSM due to bad C/I ratio for UEs with CS and/or PS connection. If the UE fails to establish the physical channels indicated in the handover This counter denotes the number of connection command, the UE will revert to the configuration drops during inter-system HHOs from WCDMAprior to the reception of the handover command LTE border area to GSM due to bad C/I ratio for (old configuration) and transmit a failure UEs with CS and/or PS connection. Note that if message to the source RNC. The hard handover RRC connection re-establishment is enabled, this This counter denotes theUE sum of CPICH procedure ends and the resumes theRSCP normal failure situation does not always mean the drop measurement an activeattempt set cell,had which operation as if results no hardofhandover of RRC connection but only the loss of Cell_DCH have the RAN3475 Buffer-free WCDMA-LTE occurred. state radio connection. Refarming feature enabled. This counter, along with the denominator M1010C309, is used to This counter denotes the number of decisions for calculate the average CPICH RSCP in dBm at inter-system HHO from WCDMA-LTE border the moments of decision for inter-system HHO area to GSM after measuring with or without from WCDMA-LTE border area to GSM due to compressed mode due to CPICH RSCP for UEs bad C/I ratio. with CS and/or PS connection. This counter denotes the number of times when an inter-system measurement for HHO from WCDMA-LTE border area to GSM due to CPICH RSCP ends without making an inter-system HHO attempt to GSM because no cell is good enough This counter denotes the number of inter-system for inter-system HHO for UEs with CS and/or PS HHO attempts from WCDMA-LTE border area to connection. GSM due to CPICH RSCP for UEs with CS and/or PS connection. This counter denotes the number of successful inter-system HHOs from WCDMA-LTE border area to GSM due to CPICH RSCP for UEs with CS and/or PS connection. This counter denotes the number of unsuccessful inter-system HHOs from WCDMA-LTE border area to GSM due to CPICH RSCP for UEs with CS and/or PS connection. If the UE fails to establish the physical channels indicated in the This counter denotes the number of connection handover command, the UE will revert to the drops during inter-system HHOs from WCDMAconfiguration prior to the reception of the LTE border area to GSM due to CPICH RSCP for handover command (old configuration) and UEs with CS and/or PS connection. Note that if transmit a failure message to the source RNC. RRC connection re-establishment is enabled, this The number of received location requests from hard handover procedure ends, and the UE failure situation does not always mean the drop the CN tothe request information resumes normal operation on as the if nolocation hard of a of RRC connection but only the loss of Cell_DCH given UE. attempt had occurred. handover state radio connection.

This counter is updated when the source RNC receives an RANAP: IU RELEASE COMMAND message with a normal release cause from the CN when inter-system handover procedure is ongoing. This counter is updated only when the trigger This counter is updated when the source RNC reason for inter-system HHO from WCDMA-LTE receives an RRC: HANDOVER FROM UTRAN border area to GSM is bad C/I ratio. FAILURE message (UEs with CS connection and UEs with CS and PS connection) or an RRC: CELL CHANGE ORDER FROM UTRAN FAILURE This counter is updated when the radio connection message (UEs with PS connection) from the UE is lost during inter-system HHO procedure and the and the failure cause is not "configuration radio links are deleted. This counter is updated unacceptable". This counter is updated only when only when the trigger reason for inter-system HHO the trigger reason for inter-system HHO from from WCDMA-LTE border area to GSM is bad C/I This counter isborder updated at to theGSM sameis time WCDMA-LTE area bad as C/I the ratio. ratio. counter (denominator) M1010C309.

This counter is updated when either the handover control entity decides to make an inter-system HHO attempt or the handover control entity decides that no cell is good enough for handover after inter-system measurements with or without This counter is updated when the handover control compressed mode. This counter is updated only entity decides that there is no suitable GSM target when the trigger reason for inter-system HHO from cell in terms of RX level, or the target GSM cell is WCDMA-LTE border area to GSM is CPICH suitable but its BSIC verification fails after the RSCP. This counter is not updated if the call is maximum number of periodical inter-system This counter is updated after the handover released during the measurement or the UE does measurement reports (for more information, see decision the RNC reports sends either the RANAP: not send when measurement as expected. the Handover Control FAD). This counter is RELOCATION REQUIRED message to the CN updated only when the trigger reason for inter(UEs with CS connection and UEs with CS and PS system HHO from WCDMA-LTE border area to connection) or the RRC: CELL CHANGE ORDER This is updated GSMcounter is CPICH RSCP. when the source RNC FROM UTRAN message to the UE (UEs with PS receives an RANAP: IU RELEASE COMMAND connection). This counter is updated only when the message with a normal release cause from the CN trigger reason for inter-system HHO from WCDMAwhen inter-system handover procedure is ongoing. LTE border area to GSM is CPICH RSCP. This counter is updated only when the trigger This counter is updated when the source RNC reason for inter-system HHO from WCDMA-LTE receives an RRC: HANDOVER FROM UTRAN border area to GSM is CPICH RSCP. FAILURE message (UEs with CS connection and UEs with CS and PS connection) or an RRC: CELL CHANGE ORDER FROM UTRAN FAILURE This counter is updated when the radio connection message (UEs with PS connection) from the UE is lost during inter-system HHO procedure and the and the failure cause is not "configuration radio links are deleted. This counter is updated unacceptable". This counter is updated only when only when the trigger reason for inter-system HHO the trigger reason for inter-system HHO from from WCDMA-LTE border area to GSM is CPICH When a RANAP:LOCATION WCDMA-LTE border area to REPORTING GSM is CPICH RSCP. CONTROL message with Request Type IE "Direct" RSCP. (report directly) is received from CN.

The number of received location requests related When RNC receives RANAP:LOCATION to emergency calls. REPORTING CONTROL with client type "Emergency Services" and with Request Type IE "Direct". When Release-99 core network is used and LOCATION REPORTING CONTROL message does not contain client type IE, the request is counted as a request for emergency call if the RRC CONNECTION REQUEST cause was "Emergency Call".

The number of failed location requests.

When a RANAP:LOCATION REPORT message is sent to the CN without "Area Identity IE" and with a cause value indicating the error reason.

The number of failed location requests related to When a RANAP:LOCATION REPORT message is emergency calls. sent to the CN without "Area Identity IE" and with a cause value indicating the error reason. The number of successfully calculated high priority location requests, where accuracy codes are fulfilled only by cell ID/RTT method.

When the location request in question is calculated and accuracy codes are fulfilled only by cell ID/RTT method.

The number of successfully calculated normal or When the location request in question is calculated unknown priority location requests, where and accuracy codes are fulfilled only by cell ID/RTT accuracy codes are fulfilled only by cell ID/RTT method. method. The number of successfully calculated high When the location request in question is calculated priority location requests, where either horizontal and either horizontal or vertical accuracy code is or vertical accuracy code is NOT fulfilled only by NOT fulfilled only by cell ID/RTT method. cell ID/RTT method. The number of successfully calculated normal or unknown priority location requests, where either horizontal or vertical accuracy code is NOT fulfilled using only the cell ID/RTT method.

When the location request in question is successfully calculated and either horizontal or vertical accuracy code is NOT fulfilled using only the cell ID/RTT method.

The number of successfully calculated high priority location requests, where horizontal accuracy code is NOT fulfilled using only the cell ID/RTT method.

When the location request in question is successfully calculated and horizontal accuracy code is NOT fulfilled using only the cell ID/RTT method.

The number of successfully calculated normal or unknown priority location requests, where horizontal accuracy code is NOT fulfilled using only the cell ID/RTT method.

When the location request in question is successfully calculated and horizontal accuracy code is NOT fulfilled using only the cell ID/RTT method.

The number of failed cell ID/RTT calculations for When Cell ID/RTT calculation fails for the location high priority location requests. request in question.

The number of failed cell ID/RTT calculations for When Cell ID/RTT calculation fails for the location normal or unknown priority location requests. request in question.

The number of location requests which cannot be When a RANAP:LOCATION REPORT message is served due to anchoring. sent to CN without Area Identity IE because the request could not be served due to anchoring. Number of location requests which are rejected, because a location request for the same UE is already in calculation.

When a RANAP:LOCATION REPORT message is sent to CN as a reject for duplicate location request.

The number of Location Reporting Control messages received from CN requesting to stop reporting at the change of Service Area.

When RNC receives RANAP: LOCATION REPORTING CONTROL with Request Type IE "Stop Change of service area".

The number of successfully calculated high priority location requests where accuracy codes are fulfilled only by the A-GPS method.

When the location request in question is calculated and accuracy codes are fulfilled only by the A-GPS method.

The number of successfully calculated normal or When the location request in question is calculated unknown priority location requests where and accuracy codes are fulfilled only by the A-GPS accuracy codes are fulfilled only by the A-GPS method. method. The number of successfully calculated high priority location requests where either the horizontal or the vertical accuracy code is NOT fulfilled by the A-GPS method.

When the location request in question is calculated and either the horizontal or the vertical accuracy code is NOT fulfilled by the A-GPS method.

The number of successfully calculated normal or unknown priority location requests where either the horizontal or the vertical accuracy code is NOT fulfilled by the A-GPS method.

When the location request in question is successfully calculated and either the horizontal or the vertical accuracy code is NOT fulfilled by the AGPS method.

The number of successfully calculated high priority location requests where the horizontal accuracy code is NOT fulfilled by the A-GPS method.

When the location request in question is successfully calculated and the horizontal accuracy code is NOT fulfilled by the A-GPS method.

The number of successfully calculated normal or When the location request in question is unknown priority location requests where the successfully calculated and the horizontal accuracy horizontal accuracy code is NOT fulfilled by the code is NOT fulfilled by the A-GPS method. A-GPS method. The number of failed A-GPS calculations for high When A-GPS calculation fails for the location priority location requests. request in question.

The number of failed A-GPS calculations for normal or unknown priority location requests.

When A-GPS calculation fails for the location request in question.

The number of received RRC:Measurement Report messages with IE 'UE positioning GPS additional Assistance Data Request'.

When an RRC:Measurement Report message with IE 'UE positioning GPS additional Assistance Data Request' is received from UE.

The number of Location Related Data Requests received from CN.

When a RANAP: LOCATION RELATED DATA REQUEST message is received from CN with Requested Location Related Data Type IE value 'Dedicated Assistance Data for Assisted GPS' or 'Dedicated Assistance Data for UE Based OTDOA'. When a RRC:Assistance Data Delivery message is sent for AGPS.

The number of Assistance Data Delivery messages sent for Network Assisted GPS.

The number of received RRC Status messages with IE 'assistance data delivery'.

When a RRC: STATUS message with IE 'assistance data delivery' is received from the UE.

The number of failed location related data requests caused by unavailability of dedicated assistance data.

When a RANAP:LOCATION RELATED DATA FAILURE message with cause "Dedicated Assistance Data Not Available" is sent to the CN.

The number of A-GPS assistance data bytes transmitted between RNC and UE.

When a RRC: ASSISTANCE DATA DELIVERY message is sent to UE.

The number of successful calculations for high priority location requests when accuracy codes are fulfilled using only the NW based A-GPS method.

When the location request in question is calculated and accuracy codes are fulfilled using the NW based A-GPS.

The number of successful calculations for normal When the location request in question is calculated priority location requests when accuracy codes and accuracy codes are fulfilled using the NW are fulfilled using only the NW based A-GPS based A-GPS. method. The number of successful calculations for high When the location request in question is calculated priority location requests when either the and either the horizontal or the vertical accuracy horizontal or the vertical accuracy code is NOT code is NOT fulfilled using the NW based A-GPS. fulfilled using only the NW based A-GPS method. The number of successful calculations for normal When the location request in question is calculated priority location requests when either the and accuracy codes are fulfilled using the NW horizontal or the vertical accuracy code is NOT based A-GPS. fulfilled using only the NW based A-GPS method. The number of successful calculations for high When the location request in question is calculated priority location requests when the horizontal and the horizontal accuracy code is NOT fulfilled accuracy code is NOT fulfilled using only the NW using the NW based A-GPS. based A-GPS method. The number of successful calculations for normal When the location request in question is calculated or unknown priority location requests when the and the horizontal accuracy code is NOT fulfilled horizontal accuracy code is NOT fulfilled using using the NW based A-GPS. only the NW based A-GPS method. The number of failed calculations for high priority When the NW based A-GPS calculation fails for location requests when using the NW based Athe location request in question. GPS method. The number of failed calculations for normal or unknown priority location requests when using the NW based A-GPS method.

When the NW based A-GPS calculation fails for the location request in question.

The sum of the CI+RTT method latency. When the location of the UE has been successfully Measured from the point when the location calculated by the CI+RTT method, this counter is request has been received by the RNC to the updated by the duration of the CI+RTT method. point when the CI+RTT position has been calculated in the SMLC. This counter, divided by the denominator M1011C38, gives the average CI+RTT method latency. This counter includes both normal requests and emergency requests.

The denominator for the counter M1011C37. Needed for average calculation.

When the duration value is updated to the M1011C37 counter after a successful location calculation.

The number of times that the CI+RTT positioning method was used and the latency was less than 2 seconds. Measured from the point when the location request has been received by the RNC to the point when the CI+RTT position has been The number of times that the CI+RTT positioning calculated in the SMLC. This counter includes method was used and the latency was between 2 both normal requests and emergency requests. and 5 seconds. Measured from the point when the location request has been received by the RNC to the point when the CI+RTT position has The number of times that the CI+RTT positioning been calculated in the SMLC. This counter method was used and the latency was over 5 includes both normal requests and emergency seconds. Measured from the point when the requests. location request has been received by the RNC to the point when the CI+RTT position has been The sum of the GPS method latency. Measured calculated in the SMLC. This counter includes from the point when the CI+RTT position has both normal requests and emergency requests. been calculated in the SMLC to the point where the GPS position is available. This counter, divided by the denominator M1011C43, gives the The denominator for the counter M1011C42. average GPS latency. This counter includes both Needed for average calculation. normal requests and emergency requests.

When the location of the UE has been successfully calculated by the CI+RTT method and the duration was less than 2 seconds.

The number of times that the GPS positioning method was used and the latency was less than 5 seconds. Measured from the point when the CI+RTT position has been calculated in the SMLC to the point where the GPS position is The number of times that the GPS positioning available. This counter includes both normal method was used and the latency was between 5 requests and emergency requests. and 15 seconds. Measured from the point when the CI+RTT position has been calculated in the SMLC to the point where the GPS position is The number of times that the GPS positioning available. This counter includes both normal method was used and the latency was over 15 requests and emergency requests. seconds. Measured from the point when the CI+RTT position has been calculated in the SMLC to the point where the GPS position is The sum of total LCS latency, including RTT and available. This counter includes both normal RxTx measuring, CI+RTT method calculation, requests and emergency requests. and possible GPS positioning. Measured from the point when the location request has been received by the RRC to point when the location The sum of squared LCS latency. Needed for response has been sent to the CN from the RRC. standard deviation calculation. This counter This counter, divided by the M1011C49 includes both normal requests and emergency denominator, gives the average LCS latency. requests. This counter includes both normal requests and The denominator for the M1011C47 and emergency requests. M1011C48 counters. Needed for average and standard deviation calculation.

When the location of the UE has been successfully calculated by the UE-based A-GPS, NW-based AGPS, or a standalone method and the duration was less than 5 seconds.

When the location of UE has been successfully calculated by the CI+RTT method and the duration was between 2 and 5 seconds. When the location of the UE has been successfully calculated by the CI+RTT method and the duration was over 5 seconds. When the location of the UE has been successfully calculated by the UE-based A-GPS, NW-based AGPS, or a standalone method, this counter is updated by the duration of the GPS method. When the duration value is updated to the M1011C42 counter after a successful location calculation.

When the location of the UE has been successfully calculated by the UE-based A-GPS, NW-based AGPS, or a standalone method and the duration was between 5 and 15 seconds. When the location of the UE has been successfully calculated by the UE-based A-GPS, NW-based AGPS, or a standalone method and the duration was over 15 seconds. When the location of the UE has been successfully calculated and the response has been sent to the CN, this counter is updated by the duration of the location procedure. When the location of the UE has been successfully calculated and the response has been sent to the CN, this counter is updated by the squared duration of the location procedure. When the duration value is updated to the M1011C47 and M1011C48 counters after a successful location calculation.

The sum of EMISHO latency. Measured from the emergency location request arrival to the point where the ISHO is performed successfully. This counter, divided by the M1011C51 denominator, gives the average EMISHO latency. The denominator for the M1011C50 counter. Needed for average calculation.

When the ISHO has been successfully performed, that is, the RNC receives an RANAP: IU RELEASE COMMAND message, this counter is updated by the total duration of the CI+RTT positioning and the ISHO. When the duration value is updated to the M1011C50 counter after a successful EMISHO.

The number of EMISHOs where the time spent for the EMISHO was less than 2 seconds. Measured from the emergency location request arrival to the point where the ISHO has been successfully performed. The number of EMISHOs where the time spent for the EMISHO was between 2 and 5 seconds. Measured from the emergency location request arrival to the point where the ISHO has been successfully performed. The number of the EMISHOs where the time spent for the EMISHO was over 5 seconds. Measured from the emergency location request arrival to the point where the ISHO has been successfully performed. The sum of the CI+RTT method latency for emergency location requests. Measured from the point when the emergency location request has been received by the RNC to the point when the CI+RTT position has been calculated in the The denominator for the M1011C55 counter. SMLC. This counter, divided by theM1011C56 Needed for average calculation. denominator, gives the average CI+RTT method latency for emergency requests.

When the ISHO has been successfully performed, that is, the RRCPRB receives an iuv_iu_release_command_s message, and the total duration of the CI+RTT positioning and the ISHO was less than 2 seconds. When the ISHO has been successfully performed, that is, the RRCPRB receives an iuv_iu_release_command_s message, and the total duration of the CI+RTT positioning and the ISHO was between 2 and 5 seconds. When the ISHO has been successfully performed, that is, the RRCPRB receives an iuv_iu_release_command_s message, and the total duration of the CI+RTT positioning and the ISHO was over 5 seconds. When the location of the UE (in case of an emergency call) has been successfully calculated by the CI+RTT method, this counter is updated by the duration of the CI+RTT method.

The number of times that the CI+RTT positioning method was used for emergency requests and the latency was less than 2 seconds. Measured from the point when the emergency location request has been received by the RNC to the The number of times that the CI+RTT positioning point when the CI+RTT position has been method was used for emergency requests and calculated in the SMLC. the latency was between 2 and 5 seconds. Measured from the point when the emergency location request has been received by the RNC The number of times that the CI+RTT positioning to the point when the CI+RTT position has been method was used for emergency requests and calculated in the SMLC. the latency was over 5 seconds. Measured from the point when the emergency location request has been received by the RNC to the point when The sum of GPS method latency. Measured from the CI+RTT position has been calculated in the the point when the CI+RTT position for the SMLC. emergency location request has been calculated in the SMLC to the point where the GPS position is available. This counter, divided by the The denominator for the M1011C60 counter. M1011C61 denominator, gives the average GPS Needed for average calculation. latency for emergency requests.

When the location of the UE (in case of an emergency call) has been successfully calculated by the CI+RTT method and the duration was less than 2 seconds.

When the duration value is updated to the M1011C55 counter after a successful location calculation.

When the location of the UE (in case of an emergency call) has been successfully calculated by the CI+RTT method and the duration was between 2 and 5 seconds. When the location of the UE (in case of an emergency call) has been successfully calculated by the CI+RTT method and the duration was over 5 seconds. When the location of the UE (in case of an emergency call) has been successfully calculated by the UE-based A-GPS, NW based A-GPS, or a standalone method, this counter is updated by the duration of the GPS method. When the duration value is updated to the M1011C60 counter.

The number of times that the GPS positioning method was used and the latency was less than 5 seconds. Measured from the point when the CI+RTT position for the emergency location request has been calculated in the SMLC to the The number of times that the GPS positioning point where the GPS position is available. method was used and the latency was between 5 and 15 seconds. Measured from the point when the CI+RTT position for the emergency location request has been calculated in the SMLC to the The number of times the GPS positioning method point where the GPS position is available. was used and the latency was over 15 seconds. Measured from the point when the CI+RTT position for the emergency location request has been calculated in the SMLC to point where the The sum of total LCS latency, including RTT and GPS position is available. RxTx measurements, the CI+RTT method calculation and possible A-GPS positioning. Measured from the point when the emergency location request has been received by the SMLC The sum of squared emergency LCS latency. to the point when the location response has been Needed for standard deviation calculation. sent to the CN from the SMLC. This counter, divided by the M1011C67 denominator, gives the average LCS latency for emergency requests. The denominator for the M1011C65 and M1011C66 counters. Needed for average and standard deviation calculation.

When the location of the UE (in case of an emergency call) has been successfully calculated by the UE-based A-GPS, NW-based A-GPS, or a standalone method, and the duration was less than 5 seconds. When the location of the UE (in case of an emergency call) has been successfully calculated by the UE-based A-GPS, NW-based A-GPS, or a standalone method, and the duration was between 5 and 15 seconds. When the location of the UE (in case of an emergency call) has been successfully calculated by the UE-based A-GPS, NW-based A-GPS, or a standalone method, and the duration was over 15 seconds. When the location of the UE (in case of an emergency call) has been successfully calculated and the response has been sent to the CN, this counter is updated by the duration of the location procedure. When the location of the UE (in case of an emergency call) has been successfully calculated and the response has been sent to the CN, this counter is updated by the squared duration of the location procedure. When the duration value is updated to the M1011C65 and M1011C66 counters.

The number of rejected direct location requests due to lack of LCS capacity.

When the RNC rejects a direct location request and the reason is lack of LCS capacity.

The number of rejected periodical location requests due to lack of LCS capacity.

When the RNC rejects a periodical location request and the reason is lack of LCS capacity.

Total number of sent location responses with the When the RNC sends RANAP: Location Report successful Cell Geographical Area Information including Cell Geographical Area Information. coordinates as location estimate when UE is in anchoring. Total number of sent location responses without Cell Geographical Area Information coordinates when UE is in anchoring.

When the RNC sends RANAP: Location Report without Cell Geographical Area Information in anchoring case.

The number of Subscriber Trace triggered location requests received by SMLC. These requests are generated internally in the RNC when feature "RAN1311 Position Information in Subscriber Trace Report" is enabled. The number of Subscriber Trace triggered Trace related location requests do not update location requests that could not be served by counter M1011C0 LCS REQUESTS. SMLC. Trace related location requests do not update counter M1011C2 FAILED LCS REQUESTS .

When the SLMC entity receives Subscriber Trace related location request.

When the SLMC is not able to return any position for a location request triggered by Subscriber Trace.

The number of RRC Measurement Control messages sent to the UE with GNSS assistance data.

When the RNC sends RRC: Measurement Control including GNSS assistance data to the UE.

Number of SABP: WRITE-REPLACE messages received from CBC.

When SABP: WRITE-REPLACE message is received from CBC.

Number of SABP: WRITE-REPLACE COMPLETE messages sent to CBC.

When SABP: WRITE-REPLACE COMPLETE message is sent to CBC.

Number of SABP: KILL messages received from When SABP: KILL message is received from CBC. CBC.

Number of SABP: KILL COMPLETE message sent to CBC.

When SABP: KILL COMPLETE message is sent to CBC.

Number of SABP: MESSAGE STATUS QUERY messages received from CBC.

When SABP: MESSAGE STATUS QUERY message is received from CBC.

Number of SABP: MESSAGE STATUS QUERY COMPLETE messages sent to CBC.

When SABP: MESSAGE STATUS QUERY COMPLETE message is sent to CBC.

Number of SABP: LOAD QUERY messages received from CBC.

When SABP: LOAD QUERY Message is received from CBC.

Number of SABP: LOAD QUERY COMPLETE messages sent to CBC.

When SABP: LOAD QUERY COMPLETE message is sent to CBC.

Number of SABP: RESET messages received from CBC.

When SABP: RESET message is received from CBC.

Number of SABP: RESET COMPLETE msessages sent to CBC.

When SABP: RESET COMPLETE message is sent to CBC.

Number of SABP: RESTART messages sent to CBC.

When SABP: RESTART message is sent to CBC.

Number of SABP: FAILURE messages sent to CBC.

When SABP: FAILURE message is sent to CBC.

Number of SABP: ERROR INDICATION messages sent to CBC.

When SABP: ERROR INDICATION message is sent to CBC.

The number of SABP: WRITE-REPLACE messages related to Earthquake and Tsunami Warning System received from CBC. Also M1012C0 is updated along with this counter. The number of SABP: WRITE-REPLACE COMPLETE messages related to Earthquake and Tsunami Warning System sent to CBC. Also M1012C1 is updated along with this counter. The number of intra-frequency soft handover attempts. Inter-RNC soft handover and the interRNC intra-frequency hard handover attempts are counted as well. This counter is updated for a measurement object in which source and target The number of completed intra-frequency soft cells are defined. handovers. Inter-RNC soft handovers and interBranch addition and inter-RNC intra-frequency RNC intra-frequency hard handovers are counted HHO: If cells A and B are in the active set and as well. This counter is updated for a branch addition for cell C is attempted, this measurement object in which source and target The sumisofupdated CPICH by Ec/No values counter 1 fordifference objects (A,C) and cells are defined. between (B,C). source and target-cells of the handover. Branch addition and inter-RNC intra-frequency This counter, along with the denominator Branch replacement: If cells A and B are in the HHO: If cells A and B are in the active set and M1013C3, is used toiscalculate thetofiltered active set and cell B attempted be replaced branch addition for cell C is successful, this average Ec/No difference between by a cell pair with cell C, this counter is updated 1 for object This counter provides samples counter is updated by the 1 fornumber objectsof(A,C) and (source and target cells in the adjacency list) as (A,C). taken for counter M1013C2. The information is (B,C). measured by the This UEs.counter is not updated in Branch needed deletion: in average calculation. Branch replacement: If cells A and B are in the branch deletion. active set and cell C is successfully added to To convert the calculated average value into real active withinEc/No branch replacement operation Sum ofset CPICH values of the neighbour dB difference, the following formula can be used: with cell B (B branch removed), this counter is by cells reported by the This counter, divided CPICH_Ec/No_dB = UE. Reported_average*0.5-24.5. updated by 1 for object (A,C). the denominator M1013C5, provides the average Branch deletion: This counter is not updated in CPICH Ec/No in range 0...49when defined If the UE is in soft handover thein 3GPP TS branch deletion. 25.133. measurement is received, counter The number ofreport 1A/1B/1C reports the updated to is After average calculation, thecell value canactive be set, updated separately for each in the counter M1013C4, used as a denominator for converted toall theconsidered dB unit using formula i.e. they are as source-cells. average calculation. ((reporting_value/2)-24,5).

When SABP: WRITE-REPLACE message with Warning Type IE is received from CBC.

When SABP: WRITE-REPLACE COMPLETE message is sent to CBC in response to a SABP: WRITE-REPLACE message containing Warning Type IE. When the SRNC starts resource allocation for a Branch Addition, Branch Replacement, or interRNC intra-frequency Hard Handover procedure. This counter is not updated if the handover is prevented by an ongoing layer-3 procedure. When SRNC successfully ends the Branch Addition, Branch Replacement, or inter-RNC intrafrequency Hard Handover procedure. When the RNC receives a 1A, 1B or 1C report from the UE and the Ec/No difference between the source-cell and target-cell is higher than the threshold defined by parameter ecnoDifferenceThreshold. Updated by one every time the CPICH Ec/No Both event triggered and periodic 1A/1B/1C reports difference summation M1013C2 is updated. update this counter. When the RNC receives a 1A, 1B or 1C report from the UE. Both event triggered and possible periodic reports following after them update this counter. Note: This counter is updated only if RAN1191 When the RNC receives a 1A, 1B or 1C report from feature is licensed. the UE, this counter is updated by value 1.

Note: This counter is updated only if RAN1191 feature is licensed. Sum of CPICH RSCP values of the neighbour When the RNC receives a 1A, 1B or 1C report from cells reported by the UE. This counter, divided by the UE. Both event triggered and possible periodic the denominator M1013C7, provides the average reports following after them update this counter. CPICH RSCP in dBm. Note: This counter is updated only if RAN1191 The number of 1A/1B/1C reports updated to When the RNC receives a 1A, 1B or 1C report from feature is licensed. counter M1013C6, used as a denominator for the UE, this counter is updated by value 1. average calculation. Note: This counter is updated only if RAN1191 feature is licensed.

This is the weight of soft handover cell pairs in Inter-Cell Interference Coordination (ICIC).

The counter is updated once per 15 minutes with the latest available soft handover weight of the cell pair in question. The counter indicates the portion of soft If there is ICIC data for shorter than one hour handovers a given cell pair takes up among all period, then the value is for the latest 15 minutes The number of inter-frequency hard handover When the SRNC starts resource allocation for an the cell pairs of ICIC data. The value is until data is gathered for one hour. After that the attempts. This counter is updated for a inter-frequency HHO. calculated by averaging the gathered data over value can change once per hour or once per 15 measurement object in which source and target This counter is not updated if the hard handover is the data gathering period. minutes depending on how ICIC data gathering is cells are defined. Inter-RNC handovers are prevented by an ongoing activated. counted as well. If cells A and B are in the active layer-3 procedure. The number of completed inter-frequency hard When SRNC successfully ends inter-frequency value placed on this counter is rounded to set and inter-frequency hard handover to cell C is handovers. counter is updated a HHO. the nearest This integer number, so it hasfor some attempted, this counter is updated by 1 for measurement in which source and weights target rounding error.object This may be visible when objects (A,C) and (B,C). cells defined.ofInter-RNC handovers of theare neighbors one cell are summedare up (the counted as well. If cells other A andthan B were in the sum can be something 100%). The sum of CPICH Ec/No values of an interWhen the RNC receives an inter-frequency active set and inter-frequency hard handover to frequency neighbour cell. This counter, along measurement report from the UE. cell C is successful, thisweight counter is updated by 1 The indicates the pairtoamong with value the denominator M1014C3,ofiscell used for objects (A,C) and (B,C). cells (top 10). This the most used soft handover calculate the average CPICH Ec/No. means that soft handover cells that do not fall This counter provides the handover number ofcells samples Updated by value 1 when counter M1014C2 is under the most used soft do not After average calculation, the value can be taken for counter M1014C2. The information is updated. affect the value of this counter. converted to the dB unit using formula needed in average calculation. ((reporting_value/2)-24,5). If the target cell is identified with only a cell ID and RNC, MCC, RSCP and MNC IDsof are The no sum of CPICH values angiven, inter- then When the RNC receives an inter-frequency the counter falls under a use case where the frequency neighbour cell. This counter, along measurement report from the UE. target is denominator a DRNC cell.M1014C5, is used to with the calculate the average CPICH RSCP in dBm. This counter provides the number of samples taken for counter M1014C4. The information is needed in average calculation.

Updated by value 1 when counter M1014C4 is updated.

The number of outgoing inter-system hard handover attempts. This counter is updated for a measurement object in which source and target cells are defined. If cells A and B are in the active set and inter-system hard handover to GSM cell The number of completed outgoing inter-system C is attempted, this counter is updated by 1 for hard handovers. This counter is updated for a objects (A,C) and (B,C). measurement object in which source and target cells are defined. If cells A and B were in the active set and inter-system hard handover to Sum of GSM RSSI values received from the UE GSM cell C is successful, this counter is updated in Inter-RAT measurement reports. This counter, by 1 for objects (A,C) and (B,C). divided by the denominator M1015C3, provides the average RSSI value.

When the SRNC starts inter-system handover either by sending RANAP: RELOCATION REQUIRED to the core network (RT call) or RRC: CELL CHANGE ORDER FROM UTRAN to the UE (NRT call). When SRNC receives RANAP:IU RELEASE This counter is not updated if the inter-system COMMAND from core network after successful handover is prevented by an ongoing Inter System HHO. layer-3 procedure.

The number of received Inter-RAT measurement If the UE is in soft handover when the reports with an RSSI value. This counter is used measurement report is received, the counter is as a denominator for M1015C2 when calculating updated separately for each cell in the active set, the average RSSI value. i.e. they are all considered as source-cells. Sum of BSIC verification times. This counter, divided by the denominator M1015C5 provides the average BSIC verification time.

Updated by value 1 when an RSSI value is updated to counter M1015C2.

BSIC verification time is the elapsed time between measurement control (BSIC verification required) and the measurement report (BSIC verified). If verification is not received, then the counter is not updated.

When the RNC receives an Inter-RAT measurement report including an RSSI value.

Updated when the measurement report (BSIC verified) is received after measurement control (BSIC verification required). If verification is not successful, then the counter is not updated.

The number of successful BSIC Verifications. This counter is used as a denominator for M1015C4 when calculating the average BSIC verification time.

Updated by value 1 when the BSIC verification is successful.

The average uplink Eb/No, calculated as a weighted average from the Eb/No values reported by OLPC.

When the UL Outer Loop PC Controller receives an activity report from the RNC OLPC Process.

The number of Eb/No samples in the Average UL When the UL Outer Loop PC Controller receives Eb/No counter. an activity report from the RNC OLPC Process.

The UL Eb/No reports that the L3 entity has received from the OLPC Controller.

When OLPC reports an Eb/No value to the L3 entity, for example, when a DCH is modified or released.

The number of received transport blocks with CRC OK in the uplink.

When the UL Outer Loop PC Controller receives an activity report from the RNC OLPC Process.

The number of transport blocks received with CRC NOK in the uplink.

When the UL Outer Loop PC Controller receives an activity report from the RNC OLPC Process.

The number of UL BLER reports received from OLPC.

When OLPC reports measured data to L3 entity.

This counter is not supported because OLPC does not process BER values reported by the BTS. The values shown by the counter do not indicate any real measured BER.

This counter is not supported.

This counter is not supported.

This counter is not supported.

The number of UL BER reports received from OLPC. Updated only when BER is used as a quality estimate for UL OLPC.

When OLPC reports a BER value to L3 entity, for example when a DCH is modified or released.

The number of bad uplink connections.

When the object is changed or removed (for example, when the connection is released or the RB is reconfigured) and if the ratio between the received transport blocks with CRC NOK and the total number of received transport blocks is the When the object is changed or removed (for following: (CRC_nok / (CRC_ok+CRC_nok)) < x + example, when the connection is released or the y * sqrt( x*(1-x) / (CRC_ok+CRC_nok) ), where x = RB is reconfigured) and neither of the equations BLER-target and y = ULBLERConfInterval (RNW presented in counters M1016C12 and M1016C14 parameter). is true.

The number of ideal uplink connections.

The number of too good uplink connections.

When the object is changed or removed (for example, when the connection is released or the RB is reconfigured) and if the ratio between the received transport blocks with CRC NOK and the total number of received transport blocks is the The average downlink transmission power of the When NBAP: DEDICATED MEASUREMENT following: (CRC_nok / (CRC_ok+CRC_nok)) < x - y radio links matching the RAB parameters of the REPORT is received from the BTS. * sqrt( x*(1-x) / (CRC_ok+CRC_nok) ), where x = measurement object. BLER-target and y = ULBLERConfInterval (RNW parameter). The number of samples for the dedicated radio When NBAP: DEDICATED MEASUREMENT link power measurement counter M1016C15. REPORT is received from the BTS, this counter is updated by the number of samples used for M1016C15 calculation. The number of dedicated radio link reports received where transmission power is at the maximum value defined by the parameters PtxDLAbsMax and CPICHtoRefRABoffset.

When NBAP: DEDICATED MEASUREMENT REPORT is received from the BTS.

The number of HARQ retransmissions reported by the BTS in E-DCH FP frames.

When the UL Outer Loop PC Controller receives an activity report from the RNC OLPC Process.

The average RLC AM DL PDU transmission buffer occupancy. Includes both first-time transmission and retransmission buffers. Does not include periods when the DL transmission buffers in the RLC entity are empty. The average PDCP buffer occupancy in RLC AM DL. Does not include periods when the DL transmission buffers in the RLC entity are empty.

When the RLC AM connection is modified or released. Based on sampling, which is done every TTI (transmission time interval) when there is data in the DL transmission buffers of the RLC entity.

The number of RLC AM reports for the RLC AM DL transmission buffer and the PDCP buffer occupancy measurement.

When the RLC AM connection is modified or released.

The ratio between unsuccessfully transmitted RLC AM DL PDUs and all transmitted RLC AM DL PDUs (including retransmissions).

When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released. Based on sampling, which is done every TTI (transmission time interval) when there is data in the DL transmission buffers of the RLC entity.

The number of transmitted RLC AM DL PDUs. When the RLC AM connection is modified or Includes also retransmitted DL PDUs and control released. PDUs. The number of RLC AM reports for the RLC AM DL PDU error ratio measurement.

When the RLC AM connection is modified or released.

The number of bad connections for RLC AM in downlink direction.

When the object is changed/removed (e.g. the connection is released, or the RB is reconfigured) and if the ratio between the resent RLC PDUs and the total number of sent RLC PDUs (PDUtot) > x + y * sqrt( x*(1-x) / PDUtot ), where x = BLER-target and y = DLBLERConfInterval (RNW parameter).

The number of too good connections for RLC AM When the object is changed/removed (e.g. the in downlink direction. connection is released, or the RB is reconfigured) and if the ratio between the resent RLC PDUs and the total number of sent RLC PDUs (PDUtot) < x y * sqrt( x*(1-x) / PDUtot ), where x = BLER-target The number of ideal connections for RLC AM in When the object is changed/removed (e.g. the and y = DLBLERConfInterval (RNW parameter). downlink direction. connection is released, or the RB is reconfigured) and neither of the equations presented in counters M1017C9 and M1017C10 is true. The average downlink PDU gross throughput of the RLC AM connection. Includes also retransmissions. Does not include periods when the DL transmission buffers in the RLC entity are empty. The number of RLC AM reports for RLC AM DL gross and net throughput values. The throughput calculation is done so that the used downlink active data transmission time is observed with 240 millisecond sampling periods, The downlink net PDU throughput and ifaverage during such sampling period the sent of RLC AM connections. Does not3000 include downlink data volume exceeds bytes, the retransmissions. Doesis not includetoperiods entire 240 ms period summed the totalwhen the DL transmission in the are transfer time counter.buffers This 240 msRLC valueentity is used empty. even if actually the RLC buffer would not have The average number of required transmissions contained theDL. time during the entire per PDU indata RLCallAM For a perfect connection The throughput calculation is done so that the sampling interval. the value of this counter is one. used downlink active data transmission time is observed with 240 millisecond periods, If the transferred data volume issampling smaller than The PDU discard ratio downlink and during such sampling period theissent 3000ifRLC bytes, the transfer timefor counter connections AM. downlink datausing exceeds 3000there bytes, the incremented byvolume theRLC actual time that was entire is summed to the total is data in240 the ms DL period RLC buffer. Here the resolution transfer timesampling counter. period This 240 msinto value 10 ms. The falls thisis used even if actually the RLC buffer would notadded have to category typically for example during small The number of downlink RLC AM PDUs contained data all the time during the entire keepalive packet sending caused by the RLC transmission buffer. This includes also sampling interval. due to RLC polling smartphones. PDUs retransmitted procedure. If the transferred data volume is smaller than The SDU error ratio RLC AM 3000average bytes, the transfer time in counter is downlink. Defined as the ratio between discarded incremented by the actual time that there was SDUs of SDUs received for data inand the the DL total RLC number buffer. Here the resolution is transmission from theperiod PDCPfalls layer. Note 10 ms. The sampling into thisthat this counter does not include RLC during SDUs that have category typically for example small The average transfer delay of transferred RLC overflowed from the PDCPcaused buffer. by keepalive packet sending AM SDUs in downlink. Transfer delay is the time smartphones. difference between when the SDU is received from the upper layer (RRC or PDCP) and when the last PDU containing data from that SDU is The sum of average SDU transfer delay values in acknowledged by the UE as successfully RLC AM DL. transferred. If an SDU is discarded due to SDU discard function, the transfer time is then the difference between the time when SDU is The sum from of standard deviations of the the time SDUwhen received the upper layer and transfer delay values in RLC AM DL. SDU is discarded.

When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

Measured continuously from radio bearers and updated to a counter when the RLC AM connection is modified or released. Measured continuously from radio bearers and updated to a counter when the RLC AM connection is modified or released. Measured continuously from radio bearers and updated to a counter when the RLC AM connection is modified or released.

The number of RLC AM SDUs ready for When the RLC AM connection is modified or transmission in downlink. Includes also discarded released, this counter is updated by the number of SDUs. handled DL SDUs. The total time period when the measurement was active in the RLC AM DL entity. The active time is the time between when the first RLC SDU arrives in the RLC buffer and when all the RLC PDUs of the packet call have been acknowledged. The number of SDU bytes transmitted in uplink Periods when the DL transmission buffers are using RLC AM. The RLC SDU payload empty are excluded. measuring is made for compressed bytes (before PDCP in UL) and includes RLC SDU headers.

When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

The number of SDU bytes transmitted in When the RLC AM connection is modified or downlink using RLC AM. The RLC SDU payload released. measuring is made for compressed bytes (after PDCP in DL) and includes RLC SDU headers. Discarded SDUs are included. The number of received RLC AM PDUs in uplink. When the RLC AM connection is modified or released.

The total time period when the measurement was active in the RLC AM UL entity. The active time is the time between when the first RLC SDU arrives in the RLC buffer and when all the RLC PDUs of the packet call have been acknowledged. The number of connections with 0...4 kbit/s Periods when the transmission buffers are empty downlink RLC PDU gross throughput. The range are excluded. can be adjusted by parameter RCPMtputDLCl01to02Range. The unit of counter can be changed to "1000 bytes" by setting the The number of connections with 4...8 kbit/s RNC parameter RCPMtputAggregationLevel to a downlink RLC PDU gross throughput. The range value of 1, then the counter shows the amount of can be adjusted by parameters data volume (with throughput within the specified RCPMtputDLCl01to02Range and range) that is transferred, instead of updating the RCPMtputDLCl02to03Range. The unit of counter The number of number connections with 8...16 kbit/s counter by the of transfer sessions. can be changed to "1000 bytes" by setting the downlink RLC PDU gross throughput. The range RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl02to03Range and data volume (with throughput within the specified RCPMtputDLCl03to04Range. The unit of counter The number connections with 16...32 kbit/s the range) that isoftransferred, instead of updating can be changed to "1000 bytes" by setting the downlink RLC gross throughput. The range counter by the PDU number of transfer sessions. RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl03to04Range and data volume (with throughput within the specified RCPMtputDLCl04to05Range. The unit of counter The number connections with 32...64 kbit/s the range) that isoftransferred, instead of updating can be changed to "1000 bytes" by setting the downlink RLC gross throughput. The range counter by the PDU number of transfer sessions. RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl04to05Range and data volume (with throughput within the specified RCPMtputDLCl05to06Range. The unit of counter The number connections with 64...128 kbit/sthe range) that isoftransferred, instead of updating can be changed to "1000 bytes" by setting the downlink RLC gross throughput. The range counter by the PDU number of transfer sessions. RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl05to06Range and data volume (with throughput within the specified RCPMtputDLCl06to07Range. The unit of counter range) that is transferred, instead of updating the can be changed to "1000 bytes" by setting the counter by the number of transfer sessions. RNC parameter RCPMtputAggregationLevel to a value of 1, then the counter shows the amount of data volume (with throughput within the specified range) that is transferred, instead of updating the counter by the number of transfer sessions.

When the RLC AM connection is modified or released.

When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one.

The number of connections with 128...256 kbit/s downlink RLC PDU gross throughput. The range can be adjusted by parameters RCPMtputDLCl06to07Range and RCPMtputDLCl07to08Range. The unit of counter The number of connections with 256...512 kbit/s can be changed to "1000 bytes" by setting the downlink RLC PDU gross throughput. The range RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl07to08Range and data volume (with throughput within the specified RCPMtputDLCl08to09Range. The unit of counter The number connections with 512 kbit/s...1 the range) that isoftransferred, instead of updating can be changed to "1000 bytes" by setting the Mbit/s RLC PDU gross throughput. counterdownlink by the number of transfer sessions. The RNC parameter RCPMtputAggregationLevel to a range can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl08to09Range and data volume (with throughput within the specified RCPMtputDLCl09to10Range. The unit of counter The number connections with 1of Mbit/s...2 range) that isoftransferred, instead updating the can be changed to "1000 bytes" by setting the Mbit/s gross RLC PDU throughput. counterdownlink by the number of transfer sessions. The RNC parameter RCPMtputAggregationLevel to a range can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl09to10Range and data volume (with throughput within the specified RCPMtputDLCl10to11Range. The unit of counter The number downlink RLC AM PDUs whichthe range) that isoftransferred, instead of updating can be changed to "1000 bytes" by setting the have been successfully delivered the UE counter by the number of transfer to sessions. RNC parameter RCPMtputAggregationLevel to a without retransmissions. value of 1, then the counter shows the amount of data volume (with throughput within the specified The number downlink RLC AM PDUs whichthe range) that isoftransferred, instead of updating have been successfully delivered the UE with counter by the number of transfer to sessions. one retransmission.

When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one.

The number of downlink RLC AM PDUs which have been successfully delivered to the UE with two retransmissions.

When the RLC AM connection is modified or released.

The number of downlink RLC AM PDUs which have been successfully delivered to the UE with three retransmissions.

When the RLC AM connection is modified or released.

The number of downlink RLC AM PDUs which have been successfully delivered to the UE with four retransmissions.

When the RLC AM connection is modified or released.

The number of downlink RLC AM PDUs which have been successfully delivered to the UE with five or more retransmissions or the PDU is discarded.

When the RLC AM connection is modified or released.

The number of connections with the 2 Mbit/s...4 Mbit/s downlink RLC PDU gross throughput. The range can be adjusted by parameters RCPMtputDLCl10to11Range and RCPMtputDLCl11to12Range. The unit of counter The number of connections with the 4 Mbit/s...8 can be changed to "1000 bytes" by setting the Mbit/s downlink RLC PDU gross throughput. The RNC parameter RCPMtputAggregationLevel to a range can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl11to12Range and data volume (with throughput in the specified RCPMtputDLCl12to13Range. The unit of counter range) that is transferred, instead of updating the can be changed to "1000 bytes" by setting the counter by the number of transfer sessions. RNC parameter RCPMtputAggregationLevel to a value of 1, then the counter shows the amount of data volume (with throughput within the specified range) that is transferred, instead of updating the counter by the number of transfer sessions.

When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one.

When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one.

The number of connections with larger than the 8 Mbit/s downlink RLC PDU gross throughput. The range can be adjusted by parameter RCPMtputDLCl12to13Range. The unit of counter can be changed to "1000 bytes" by setting the The number of connections with the 0 kbit/s...250 RNC parameter RCPMtputAggregationLevel to a kbit/s uplink SDU throughput. The range can be value of 1, then the counter shows the amount of adjusted by parameter data volume (with throughput within the specified RCPMtputULCl01to02Range. The unit of counter range) that is transferred, instead of updating the can be changed to "1000 bytes" by setting the The number of number connections with the 250 counter by the of transfer sessions. RNC parameter RCPMtputAggregationLevel to a kbit/s...500 kbit/s uplink SDU throughput. The value of 1, then the counter shows the amount of range can be adjusted by parameters data volume (with throughput within the specified RCPMtputULCl01to02Range and range) that is transferred, instead of updating the RCPMtputULCl02to03Range. The unit of counter The number of number connections with the 500 kbit/s...1 counter by the of transfer sessions. can be changed to "1000 bytes" by setting the Mbit/s uplink SDU throughput. The range can be RNC parameter RCPMtputAggregationLevel to a adjusted by parameters value of 1, then the counter shows the amount of RCPMtputULCl02to03Range and data volume (with throughput within the specified RCPMtputULCl03to04Range. The unit of counter The number connections with the 1000 range) that isoftransferred, instead of updating the can be changed to "1000 bytes" by setting the kbit/s...1500 kbit/s uplink throughput. counter by the number of SDU transfer sessions.The RNC parameter RCPMtputAggregationLevel to a range can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputULCl03to04Range and data volume (with throughput within the specified RCPMtputULCl04to05Range. The unit of counter The number connections with larger than the range) that isoftransferred, instead of updating the can be changed to "1000 bytes" by setting the 1500 kbit/s uplink SDU of throughput. The range counter by the number transfer sessions. RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameter value of 1, then the counter shows the amount of RCPMtputULCl04to05Range. The unit of counter data volume (with throughput within the specified can be changed to "1000 bytes" by setting the The average error rate for the range) that is block transferred, instead of downlink updating the RNC parameter RCPMtputAggregationLevel to a radio connection, measured by using the UE counter by the number of transfer sessions. value of 1, then the counter shows the amount of Quality Measurement. data volume (with throughput within the specified range) that is transferred, instead of updating the The number of number receivedofquality reports from UE. counter by the transfer sessions.

When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one.

The number of outgoing inter-system hard handover attempts to LTE. This counter is updated for a measurement object in which source and target cells are defined. If cells A and B are in the active set and inter-system hard The number of completed outgoing inter-system handover to LTE cell C is attempted, this counter hard handovers to LTE. This counter is updated is updated by 1 for objects (A,C) and (B,C). for a measurement object in which source and target cells are defined. If cells A and B are in the active set and inter-system hard handover to LTE The number of assistance data requests sent to cell C is successful, this counter is updated by 1 SAS. for objects (A,C) and (B,C).

When the SRNC starts an inter-system handover by sending RANAP: RELOCATION REQUIRED to the core network. This counter is not updated if the inter-system handover is prevented by an ongoing When the SRNC receives RANAP:IU RELEASE layer-3 procedure. COMMAND from the core network after a successful inter-system HHO to LTE.

The number of failed assistance data requests because of SAS was not able to serve the assistance data request.

When the RNC does not receive any assistance data response for a specific assistance data request (the timer expired for that request). The response can be PCAP:INFORMATION EXCHANGE INITIATION RESPONSE, PCAP:INFORMATION EXCHANGE INITIATION FAILURE or PCAP:ERROR INDICATION for the specific transaction / information exchange.

When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a RRC:MEASUREMENT REPORT message including UE Quality results arrives from UE to RNC. When a RRC:MEASUREMENT REPORT message including UE Quality measurement results arrives from UE to RNC.

When the RNC sends a PCAP: INFORMATION EXCHANGE INITIATION REQUEST message to SAS.

The number of assistance data requests succesfully served by SAS.

When the RNC receives a PCAP: INFORMATION EXCHANGE INITIATION RESPONSE message from SAS.

The number of failed assistance data responses from SAS.

When the RNC receives PCAP:INFORMATION EXCHANGE INITIATION FAILURE or any undecodable message via connection-oriented SCCP channel (message type not recognized).

The number of position calculation requests sent When the RNC sends a PCAP: POSITION to SAS. CALCULATION REQUEST message to SAS.

The number of failed position calculation requests because of SAS was not able to serve the position calculation request. The number of position calculation requests successfully served by SAS.

When the RNC does not receive any position calculation response for a specific position calculation request (the timer expired for that request). The response can be PCAP:POSITION CALCULATION RESPONSE, PCAP:POSITION When the RNC receives a PCAP: POSITION CALCULATION FAILURE or PCAP:ERROR CALCULATION RESPONSE message from SAS. INDICATION for the specific transaction / position calculation.

The number of failed position calculation responses from SAS.

When the RNC receives PCAP:POSITION CALCULATION FAILURE or any undecodable message via connectionless SCCP channel.

The number of received error indication messages from SAS.

When the RNC receives a PCAP: ERROR INDICATION message from SAS.

The number of sent position initiation requests (with direct reporting) to SAS.

When the RNC sends PCAP: POSITION INITIATION REQUEST (with direct reporting) message to the SAS.

The number of received position initiation responses (with direct reporting) from SAS.

When the RNC receives PCAP: POSITION INITIATION RESPONSE (with direct reporting) message from the SAS.

The number of received position initiation failures When the RNC receives PCAP: POSITION (with direct reporting) from SAS. INITIATION FAILURE (with direct reporting) message from the SAS. The number of successfully served CIRTT When the RNC sends PCAP: POSITION position activation requests (with direct reporting) ACTIVATION RESPONSE (with direct reporting for from SAS. CIRTT) message to the SAS. The number of unsuccessfully served CIRTT When the RNC sends PCAP: POSITION position activation requests (with direct reporting) ACTIVATION FAILURE (with direct reporting for from SAS. CIRTT) message to the SAS.

The number of successfully served AGPS When the RNC sends PCAP: POSITION position activation requests (with direct reporting) ACTIVATION RESPONSE (with direct reporting for from SAS. A-GPS) message to the SAS. The number of unsuccessfully served AGPS When the RNC sends PCAP: POSITION position activation requests (with direct reporting) ACTIVATION FAILURE (with direct reporting for Afrom SAS. GPS) message to the SAS. The number of sent position initiation requests (with periodical reporting) to SAS.

When the RNC sends PCAP: POSITION INITIATION REQUEST (with periodical reporting) message to the SAS.

The number of received position initiation responses (with periodical reporting) from SAS.

When the RNC receives PCAP: POSITION INITIATION RESPONSE (with periodical reporting) message from the SAS.

The number of received position initiation failures When the RNC receives PCAP: POSITION (with periodical reporting) from SAS. INITIATION FAILURE (with periodical reporting) message from the SAS. The total number of received position activation requests (with periodical reporting) from SAS.

When the RNC receives PCAP: POSITION ACTIVATION REQUEST (with periodical reporting) message from the SAS.

The number of sent position activation responses When the RNC sends PCAP: POSITION (with periodical reporting) to SAS. ACTIVATION RESPONSE (with periodical reporting) message to the SAS. The number of sent position activation failures (with periodical reporting) to SAS.

When the RNC sends PCAP: POSITION ACTIVATION FAILURE (with periodical reporting) message to the SAS.

The number of sent periodical position reports to When the RNC sends PCAP: POSITION SAS. PERIODIC REPORT message to the SAS.

The total number of rejected direct location requests because the connection to SAS has been lost or cannot be established.

When the RNC rejects a direct location request because the SCCP connection to SAS is broken.

The total number of rejected periodical location requests because the connection to SAS has been lost or cannot be established.

When the RNC rejects a periodical location request because the SCCP connection to SAS is broken.

The number of sent assistance data requests for When the RNC sends PCAP: INFORMATION broadcast to SAS. EXCHANGE INITIATION REQUEST message to the SAS for requesting data for broadcast.

The number of failed assistance data requests for broadcast because of SAS was not able to serve the assistance data request. The number of successfully served assistance data requests for broadcast by the SAS.

The number of successful assistance data reports for broadcast from the SAS.

Wneh an RNC does not receive any assistance data response for a broadcast specific assistance data request (the timer expired for that request) or, if SAS replies with any other message than PCAP: INFORMATION EXCHANGE INITIATION When the RNC receives PCAP: INFORMATION RESPONSE. EXCHANGE INITIATION RESPONSE message for broadcast from the SAS. When the RNC receives aPCAP: INFORMATION REPORT message for broadcast from the SAS.

The number of Position Activation Response When the RNC sends PCAP: POSITION messages containing measurements for detected ACTIVATION RESPONSE message to the SAS, or monitored set cells. and the message contains detected and/or monitored set cell measurement results. The number of packet call resource allocation attempts caused by uplink capacity requests.

When an uplink capacity request is received by the Layer-3 telecom entity from a UE for which the RNC resources for packet calls do not exist (for example in the Cell-PCH state).

The number of packet call resource allocation attempts caused by downlink capacity requests.

When a downlink capacity request is received by the Layer-3 telecom entity from the upper protocol layer for which the RNC resources for packet calls do not exist (for example in the Cell-PCH state).

The number of packet call resource allocation attempts not caused by uplink or downlink capacity requests.

When a packet call resource allocation attempt is triggered by other than an uplink or a downlink capacity request, for example, when an RANAP: Relocation Request message is received during an incoming Inter-RNC HHO or an SRNC Relocation. The number of HS-DSCH/E-DCH packet call When the UE-specific packet scheduler attempts to attempts for the interactive traffic class. allocate an HS-DSCH/E-DCH transport channel for the NRT RAB, and there are no dedicated/shared channels that are already allocated for the RAB. This counter is updated if the UE is HSUPA The number of HS-DSCH/E-DCH packet call When the UE-specific packet scheduler attempts to capable, even if HSUPA would not be enabled in attempts for the background traffic class. allocate an HS-DSCH/E-DCH transport channel for the cell. the NRT RAB, and there are no dedicated/shared channels that are already allocated for the RAB. This counter is updated if the UE is HSUPA The number of HS-DSCH/DCH packet call When the UE-specific packet scheduler attempts to capable, even if HSUPA would not be enabled in attempts for the interactive traffic class. allocate an HS-DSCH/DCH transport channel for the cell. the NRT RAB, and there are no dedicated/shared channels that are already allocated for the RAB. This counter is updated if the UE is HSDPA The number of HS-DSCH/DCH packet call When the UE-specific packet scheduler attempts to capable, even if HSDPA would not be enabled in attempts for the background traffic class. allocate an HS-DSCH/DCH transport channel for the cell. the NRT RAB, and there are no dedicated/shared channels that are already allocated for the RAB. This counter is updated if the UE is HSDPA The number of DCH/DCH packet call attempts for When the UE-specific packet scheduler attempts to capable, even if HSDPA would not be enabled in the interactive traffic class. allocate a DCH/DCH transport channel for the NRT the cell. RAB, and there are no dedicated/shared channels that are already allocated for the RAB.

The number of DCH/DCH packet call attempts for When the UE-specific packet scheduler attempts to the background traffic class. allocate a DCH/DCH transport channel for the NRT RAB, and there are no dedicated/shared channels that are already allocated for the RAB. The number of packet call setup failures due to the admission control for the interactive traffic class. Also rejections due to "frozen BTS" are included in this counter.

When the PS user plane allocation is rejected by the admission control.

The number of packet call setup failures due to the admission control for the background traffic class.

When the PS user plane allocation is rejected by the admission control.

The number of packet call setup failures due to the BTS for the interactive traffic class.

When the PS user plane allocation fails due to the BTS responding with an NBAP: RADIO LINK SETUP FAILURE or an NBAP: RADIO LINK RECONFIGURATION FAILURE message, or not responding at all. The number of packet call setup failures due to When the PS user plane allocation fails due to the the BTS for the background traffic class. BTS responding with an NBAP: RADIO LINK SETUP FAILURE or an NBAP: RADIO LINK RECONFIGURATION FAILURE message, or not responding at all. The number of packet call setup failures due to When the PS user plane allocation fails due to a lack of DMCU resources for the interactive traffic DMCU resource allocation failure. class. The number of packet call setup failures due to lack of DMCU resources for the background traffic class.

When the PS user plane allocation fails due to a DMCU resource allocation failure.

The number of packet call setup failures due to transport for the interactive traffic class.

When the PS user plane allocation fails due to an Iub transport setup failure.

The number of packet call setup failures due to transport for the background traffic class.

When the PS user plane allocation fails due to an Iub transport setup failure.

The number of packet call setup failures due to the UE for the interactive traffic class.

When the PS user plane allocation fails due to the UE responding with an RRC: RADIO BEARER RECONFIGURATION FAILURE message or not responding at all.

The number of packet call setup failures due to the UE for the background traffic class.

When the PS user plane allocation fails due to the UE responding with an RRC: RADIO BEARER RECONFIGURATION FAILURE message or not responding at all.

The number of packet call setup failures for the When the PS user plane allocation fails due to any interactive traffic class due to other reasons than other reason not covered by the other failure those covered by the other failure counters. counters.

The number of packet call setup failures for the When the PS user plane allocation fails due to any background traffic class due to other reasons other reason not covered by the other failure than those covered by the other failure counters. counters. The number of allocations for the HS-DSCH/EDCH after an HS-DSCH/E-DCH request for the interactive traffic class.

When the user's HS-DSCH/E-DCH user plane allocation is successfully completed.

The number of allocations for the HS-DSCH/EDCH after an HS-DSCH/E-DCH request for the background traffic class.

When the user's HS-DSCH/E-DCH user plane allocation is successfully completed.

The number of HS-DSCH/DCH allocations after an HS-DCSH/E-DCH request for the interactive traffic class.

When the user is successfully allocated to the HSDSCH/DCH user plane and the request was for the HS-DSCH/E-DCH.

The number of HS-DSCH/DCH allocations after When the user is successfully allocated to the HSan HS-DCSH/E-DCH request for the background DSCH/DCH user plane and the request was for the traffic class. HS-DSCH/E-DCH. The number of HS-DSCH/DCH allocations after an HS-DSCH/DCH request for the interactive traffic class.

When the user is successfully allocated to the HSDSCH/DCH user plane and the request was for the HS-DSCH/DCH.

The number of HS-DSCH/DCH allocations after an HS-DSCH/DCH request for the background traffic class.

When the user is successfully allocated to the HSDSCH/DCH user plane and the request was for the HS-DSCH/DCH.

The number of DCH/DCH allocations after an HS-DSCH/E-DCH request for the interactive traffic class.

When the user is successfully allocated to the DCH/DCH user plane and the request was for the HS-DSCH/E-DCH.

The number of DCH/DCH allocations after an HS-DSCH/E-DCH request for the background traffic class.

When the user is successfully allocated to the DCH/DCH user plane and the request was for the HS-DSCH/E-DCH.

The number of DCH/DCH allocations after an HS-DSCH/DCH request for the interactive traffic class.

When the user is successfully allocated to the DCH/DCH user plane and the request was for the HS-DSCH/DCH.

The number of DCH/DCH allocations after an When the user is successfully allocated to the HS-DSCH/DCH request for the background traffic DCH/DCH user plane and the request was for the class. HS-DSCH/DCH. The number of DCH/DCH allocations after a When the user is successfully allocated to the DCH/DCH request for the interactive traffic class. DCH/DCH user plane and the request was for the DCH/DCH.

The number of DCH/DCH allocations after a DCH/DCH request for the background traffic class.

When the user is successfully allocated to the DCH/DCH user plane and the request was for the DCH/DCH.

The number of packet call channel switches from When the user's HS-DSCH/E-DCH user plane the HS-DSCH/E-DCH to the HS-DSCH/DCH for allocation is switched to the HS-DSCH/DCH. the interactive traffic class. The number of packet call channel switches from When the user's HS-DSCH/E-DCH user plane the HS-DSCH/E-DCH to the HS-DSCH/DCH for allocation is switched to the HS-DSCH/DCH. the background traffic class. The number of packet call channel switches from When the user's HS-DSCH/E-DCH user plane the HS-DSCH/E-DCH to the DCH/DCH (xx/yy) for allocation is switched to the DCH/DCH (xx/yy). the interactive traffic class. The number of packet call channel switches from When the user's HS-DSCH/E-DCH user plane the HS-DSCH/E-DCH to the DCH/DCH (xx/yy) for allocation is switched to the DCH/DCH (xx/yy). the background traffic class. The number of packet call channel switches from When the user's HS-DSCH/DCH user plane the HS-DSCH/DCH to the DCH/DCH (xx/yy) for allocation is switched to the DCH/DCH (xx/yy). the interactive traffic class. The number of packet call channel switches from When the user's HS-DSCH/DCH user plane the HS-DSCH/DCH to the DCH/DCH (xx/yy) for allocation is switched to the DCH/DCH (xx/yy). the background traffic class. The number of packet call channel switches from When the user's HS-DSCH/DCH user plane the HS-DSCH/DCH to the HS-DSCH/E-DCH for allocation is switched to the HS-DSCH/E-DCH. the interactive traffic class. The number of packet call channel switches from When the user's HS-DSCH/DCH user plane the HS-DSCH/DCH to the HS-DSCH/E-DCH for allocation is switched to the HS-DSCH/E-DCH. the background traffic class. The number of packet call channel switches from When the user's DCH/DCH (xx/yy) user plane the DCH/DCH (xx/yy) to the HS-DSCH/DCH for allocation is switched to the HS-DSCH/DCH. the interactive traffic class. The number of packet call channel switches from When the user's DCH/DCH (xx/yy) user plane the DCH/DCH (xx/yy) to the HS-DSCH/DCH for allocation is switched to the HS-DSCH/DCH. the background traffic class. The number of packet call channel switches from When the user's DCH/DCH (xx/yy) user plane the DCH/DCH (xx/yy) to the HS-DSCH/E-DCH for allocation is switched to the HS-DCSH/E-DCH. the interactive traffic class.

The number of packet call channel switches from When the user's DCH/DCH (xx/yy) user plane the DCH/DCH (xx/yy) to the HS-DSCH/E-DCH for allocation is switched to the HS-DSCH/E-DCH. the background traffic class. The number of HS-DSCH/E-DCH packet call normal releases for the interactive traffic class.

The number of HS-DSCH/E-DCH packet call normal releases for the background traffic class.

The number of HS-DSCH/DCH packet call normal releases for the interactive traffic class.

The number of HS-DSCH/DCH packet call normal releases for the background traffic class.

The number of DCH/DCH packet call normal releases for the interactive traffic class.

The number of DCH/DCH packet call normal releases for the background traffic class.

This counter indicates the number of HSDSCH/E-DCH packet call releases caused by pre-emption or RT over NRT for the interactive traffic class. This counter indicates the number of HSDSCH/E-DCH packet call releases caused by pre-emption or RT over NRT for the background traffic class.

When a packet call is released normally, for example, due to inactivity or an RAB release. The counter is also updated in case of outgoing SRNC relocations, Inter-RNC hard handovers, and Intersystem hard handovers, and due to state When a packet call is released normally, for transitions to the DCH (0/0) / FACH / PCH. example, due to inactivity or an RAB release. The counter is also updated in case of outgoing SRNC relocations, Inter-RNC hard handovers, and Intersystem hard handovers, and due to state When a packet call is released normally, for transitions to the DCH (0/0) / FACH / PCH. example, due to inactivity or an RAB release. The counter is also updated in case of outgoing SRNC relocations, Inter-RNC hard handovers, and Intersystem hard handovers, and due to state When a packet call is released normally, for transitions to the DCH (0/0) / FACH / PCH. example, due to inactivity or an RAB release. The counter is also updated in case of outgoing SRNC relocations, Inter-RNC hard handovers, and Intersystem hard handovers, and due to state When a packet call is released normally, for transitions to the DCH (0/0) / FACH / PCH. example, due to inactivity or an RAB release. The counter is also updated in case of outgoing SRNC relocations, Inter-RNC hard handovers, and Intersystem hard handovers, and due to state When a packet call is released normally, for transitions to the DCH (0/0) / FACH / PCH. example, due to inactivity or an RAB release. The counter is also updated in case of outgoing SRNC relocations, Inter-RNC hard handovers, and Intersystem hard handovers, and due to state The counter is updated when a packet call is transitions to the DCH (0/0) / FACH / PCH. released due to pre-emption by a higher priority radio bearer. The counter is updated when a packet call is released due to pre-emption by a higher priority radio bearer.

The number of HS-DSCH/DCH packet call When a packet call is released due to pre-emption releases caused by pre-emption or RT over NRT by a higher priority radio bearer. for the interactive traffic class. The number of HS-DSCH/DCH packet call When a packet call is released due to pre-emption releases caused by pre-emption or RT over NRT by a higher priority radio bearer. for the background traffic class. The number of DCH/DCH packet call releases caused by pre-emption or RT over NRT for the interactive traffic class.

When a packet call is released due to pre-emption by a higher priority radio bearer.

The number of DCH/DCH packet call releases caused by pre-emption or RT over NRT for the background traffic class.

When a packet call is released due to pre-emption by a higher priority radio bearer.

The number of HS-DSCH/E-DCH packet call releases caused by radio link failures for the interactive traffic class.

When a packet call is released due to a radio link failure, that is, all radio links go out of the sync state during a packet call and thus the dedicated user plane is released.

The number of HS-DSCH/E-DCH packet call releases caused by radio link failures for the background traffic class.

When a packet call is released due to a radio link failure, that is, all radio links go out of the sync state during a packet call and thus the dedicated user plane is released.

The number of HS-DSCH/DCH packet call releases caused by radio link failures for the interactive traffic class.

When a packet call is released due to a radio link failure, that is, all radio links go out of the sync state during a packet call and thus the dedicated user plane is released.

The number of HS-DSCH/DCH packet call releases caused by radio link failures for the background traffic class.

When a packet call is released due to a radio link failure, that is, all radio links go out of the sync state during a packet call and thus the dedicated user plane is released.

The number of DCH/DCH packet call releases caused by radio link failures for the interactive traffic class.

When a packet call is released due to a radio link failure, that is, all radio links go out of the sync state during a packet call and thus the dedicated user plane is released.

The number of DCH/DCH packet call releases caused by radio link failures for the background traffic class.

When a packet call is released due to a radio link failure, that is, all radio links go out of the sync state during a packet call and thus the dedicated user plane is released.

The number of HS-DSCH/E-DCH packet call releases caused by other failure reasons than a radio link failure for the interactive traffic class.

When a packet call is released for some other failure cause than a radio link failure. The most typical reason is that the UE does not respond to an RRC protocol message.

The number of HS-DSCH/E-DCH packet call releases caused by other failure reasons than a radio link failure for the background traffic class.

When a packet call is released for some other failure cause than a radio link failure. The most typical reason is that the UE does not respond to an RRC protocol message.

The number of HS-DSCH/DCH packet call releases caused by other failure reasons than a radio link failure for the interactive traffic class.

When a packet call is released for some other failure cause than a radio link failure. The most typical reason is that the UE does not respond to an RRC protocol message.

The number of HS-DSCH/DCH packet call releases caused by other failure reasons than a radio link failure for the background traffic class.

When a packet call is released for some other failure cause than a radio link failure. The most typical reason is that the UE does not respond to an RRC protocol message.

The number of DCH/DCH packet call releases caused by other failure reasons than a radio link failure for the interactive traffic class.

When a packet call is released for some other failure cause than a radio link failure. The most typical reason is that the UE does not respond to an RRC protocol message.

The number of DCH/DCH packet call releases caused by other failure reasons than a radio link failure for the background traffic class. The number of "Congestion Indication control frame - delay build-up" messages sent to the BTS due to an Iub delay detected by the Frame protocol.

When a packet call is released for some other failure cause than a radio link failure. The most typical reason is that the UE does not respond to an RRC protocol message.

When the RNC Frame Protocol entity sends a "Congestion Indication control frame - delay buildup" indication message to the base station and the indication was triggered by congestion detected by the Frame Protocol entity. This counter is updated The number of "Congestion indication control When the RNC Frame Protocol entity sends a for all cells in the UE's E-DCH active set controlled frame - delay build up" messages sent to the "Congestion Indication control frame - delay buildby the base station for which the Congestion BTS due to the RNC HW overload congestion up" indication message to the base station and the Indication message was sent. The counter is not control functionality. indication was triggered by congestion detected by updated for E-DCH soft handover branches that the HW overload congestion control functionality. The number of "Congestion indication control When the RNCbyFrame Protocol whose entity sends are controlled base stations Iub a frame - frame loss" messages sent to the BTS "Congestion controlbecause frame - frame interfaces areIndication not congested the loss" due to Iub traffic loss detected by the Frame indication message to message the base station due to to them. Iub Congestion Indication is not sent protocol. traffic loss detected by the Frame protocol. This counter is updated for all cells in the UE's E-DCH The number of "Congestion indication control When the RNC Frame Protocol entity sends a active set controlled by the base station for which frame - frame loss" messages sent to the BTS "Congestion Indication control frame - frame loss" the Congestion Indication was sent. The counter is due to Iub delay detected by the Frame protocol. indication message to the base station due to Iub not updated for E-DCH soft handover branches delay detected by the Frame protocol. This counter that are controlled by base stations whose Iub is updated for all cells in the UE's E-DCH active set The number of "Congestion indication control RNC Frame entity sends a "Congestion interfaces areProtocol not congested because the controlled by the base station for which the frame - frame loss" messages sent to the BTS Indication framemessage - frame loss" Congestioncontrol Indication is notindication sent to them. Congestion Indication was sent. The counter is not due to RNC UP internal buffer overflow. message to the base station. updated for E-DCH soft handover branches that If the situation is temporary, data loss may be are controlled by base stations whose Iub avoided with automatic retransmission. The number of successful E-DCH Iub Frame When a new Frame Protocol branch interfaces areE-DCH not congested, because the is Case 1: In some cases uplink data frames may get Protocol branch setups. successfully established in Iub. The counter not Congestion Indication message is not sent toisthem. lost or distorted due to poor radio links or transport updated when a softer handover branch is added losses or similar reasons, then RNC may send this because a new FP connection is not created in that congestion control messages when RNC buffers case. The number of E-DCH frames that are not When an up E-DCH frameforisthe detected to frames. be are filled whileFP waiting missing If received at all or are discarded due to errors. missing or discarded as erroneous. the counter updates are increased heavily, this requires investigation from RNC or BTS. Such situations should be recovered when the connection is released re-established. The number of delayed E-DCH FP frames; this When an E-DCH frameand is received and detected as Case 2: There is internal messaging between macincludes frames that are delayed over the trigger delayed over the trigger value used by the es/is and RLC for handling UL data frames. When value used by the congestion control algorithm congestion control algorithm. (that is, delay is above the DelayThresholdMin). mac-es/is buffer has data but RLC is not ready to receive UL data frames as RLC is not yet The number of successfully received E-DCH FP When an E-DCH framethe is new received configured to process datasuccessfully from UL, this frames, including all other frames except the and leadsintotime. more buffering at mac-es/is. Due to this, frames counted as missed or delayed. buffer overflows and data is dropped, leading to congestion Indication control frame being sent to The number of allocations for HS-DSCH/E-DCH BTS. When the target-RNC of the inter-RNC HHO counter is PHYSICAL updated for CHANNEL all cells in the UE's Eafter HS-DSCH/E-DCH request during incoming This receives RRC: DCH active set controlled by the base station for Inter-RNC HHO. RECONFIGURATION COMPLETE, which the Congestion Indication RRC:TRANSPORT CHANNEL message was sent. The counter is notCOMPLETE updated foror E-DCH Also the basic Packet Call Allocation counters RECONFIGURATION RRC: soft The number of allocations for HS-DSCH/DCH When the branches target-RNC of are the controlled inter-RNC by HHO handover that base are updated along with this counter. RADIO BEARER RECONFIGURATION after HS-DSCH/E-DCH request during incoming receives RRC: PHYSICAL CHANNEL stations whose Iub interfaces are not congested COMPLETE from the UE after a successful HSInter-RNC HHO. RECONFIGURATION COMPLETE, because the Congestion Indication message is not DSCH/E-DCH allocation during HHO. RRC:TRANSPORT CHANNEL sent to them. Also the basic Packet Call Allocation counters RECONFIGURATION COMPLETE or RRC: are updated along with this counter. RADIO BEARER RECONFIGURATION COMPLETE from the UE after a successful HSDSCH/DCH allocation during HHO.

The number of allocations for HS-DSCH/DCH after HS-DSCH/DCH request during incoming Inter-RNC HHO.

When the target-RNC of the inter-RNC HHO receives RRC: PHYSICAL CHANNEL RECONFIGURATION COMPLETE, RRC:TRANSPORT CHANNEL Also the basic Packet Call Allocation counters RECONFIGURATION COMPLETE or RRC: The number of allocations for DCH/DCH after When the target-RNC of the inter-RNC HHO are updated along with this counter. RADIO BEARER RECONFIGURATION HS-DSCH/E-DCH request during incoming Inter- receives RRC: PHYSICAL CHANNEL COMPLETE from the UE after a successful HSRNC HHO. RECONFIGURATION COMPLETE, DSCH/DCH allocation during HHO. RRC:TRANSPORT CHANNEL Also the basic Packet Call Allocation counters RECONFIGURATION COMPLETE or RRC: The number of allocations for DCH/DCH after When the target-RNC of the inter-RNC HHO are updated along with this counter. RADIO BEARER RECONFIGURATION HS-DSCH/DCH request during incoming Interreceives RRC: PHYSICAL CHANNEL COMPLETE from the UE after a successful RNC HHO. RECONFIGURATION COMPLETE, DCH/DCH allocation during HHO. RRC:TRANSPORT CHANNEL Also the basic Packet Call Allocation counters RECONFIGURATION COMPLETE or RRC: The number of NRT DCH initial requests to 64 When an initial capacity request for NRT DCH are updated along with this counter. RADIO BEARER RECONFIGURATION kbps or lower uplink bitrate. Includes also uplink for a bitrate that is equal to or lower than 64 COMPLETE from the UE after a successful HSDPA uplink return channel. kbps is received. DCH/DCH allocation during HHO. The number of NRT DCH initial requests to 64 kbps or lower downlink bitrate.

When an initial capacity request for NRT DCH downlink for a bitrate that is equal to or lower than 64 kbps is received.

The number of NRT DCH initial requests to 128 kbps uplink bitrate. Includes also HSDPA uplink return channel.

When an initial capacity request for NRT DCH uplink for a bitrate of 128 kbps is received.

The number of NRT DCH initial requests to 128 kbps downlink bitrate.

When an initial capacity request for NRT DCH downlink for a bitrate of 128 kbps is received.

The number of NRT DCH initial requests to 256 kbps uplink bitrate.

When an initial capacity request for NRT DCH uplink for a bitrate of 256 kbps is received.

The number of NRT DCH initial requests to 256 kbps downlink bitrate.

When an initial capacity request for NRT DCH downlink for a bitrate of 256 kbps is received.

The number of NRT DCH initial requests to 384 kbps uplink bitrate. Includes also HSDPA uplink return channel.

When an initial capacity request for NRT DCH uplink for a bitrate of 384 kbps is received.

The number of NRT DCH initial requests to 384 kbps downlink bitrate.

When an initial capacity request for NRT DCH downlink for a bitrate of 384 kbps is received.

The number of NRT DCH upgrade requests to 64 When an upgrade request for NRT DCH uplink for kbps or lower uplink bitrate. Includes also a bitrate that is equal to or lower than 64 kbps is HSDPA uplink return channel. received.

The number of NRT DCH upgrade requests to 64 When an upgrade request for NRT DCH downlink kbps or lower downlink bitrate. for a bitrate that is equal to or lower than 64 kbps is received. The number of NRT DCH upgrade requests to 128 kbps or lower uplink bitrate. Includes also HSDPA uplink return channel.

When an upgrade request for NRT DCH uplink for a bitrate of 128 kbps is received.

The number of NRT DCH upgrade requests to 128 kbps or lower downlink bitrate.

When an upgrade request for NRT DCH downlink for a bitrate of 128 kbps is received.

The number of NRT DCH upgrade requests to 256 kbps or lower uplink bitrate.

When an upgrade request for NRT DCH uplink for a bitrate of 256 kbps is received.

The number of NRT DCH upgrade requests to 256 kbps or lower downlink bitrate.

When an upgrade request for NRT DCH downlink for a bitrate of 256 kbps is received.

The number of NRT DCH upgrade requests to 384 kbps or lower uplink bitrate. Includes also HSDPA uplink return channel.

When an upgrade request for NRT DCH uplink for a bitrate of 384 kbps is received.

The number of NRT DCH upgrade requests to 384 kbps or lower downlink bitrate.

When an upgrade request for NRT DCH downlink for a bitrate of 384 kbps is received.

The number of successful NRT DCH initial allocations to 64 kbps or lower uplink bitrate. Includes also HSDPA uplink return channel.

When NRT DCH uplink is successfully allocated to a bitrate equal to or lower than 64 kbps.

The number of successful NRT DCH initial allocations to 64 kbps or lower downlink bitrate.

When NRT DCH downlink is successfully allocated to a bitrate equal to or lower than 64 kbps.

The number of successful NRT DCH initial allocations to 128 kbps uplink bitrate. Includes also HSDPA uplink return channel.

When NRT DCH uplink is successfully allocated to 128 kbps bitrate.

The number of successful NRT DCH initial allocations to 128 kbps downlink bitrate.

When NRT DCH downlink is successfully allocated to 128 kbps bitrate.

The number of successful NRT DCH initial allocations to 256 kbps uplink bitrate.

When NRT DCH uplink is successfully allocated to 256 kbps bitrate.

The number of successful NRT DCH initial allocations to 256 kbps downlink bitrate.

When NRT DCH downlink is successfully allocated to 256 kbps bitrate.

The number of successful NRT DCH initial allocations to 384 kbps uplink bitrate. Includes also HSDPA uplink return channel.

When NRT DCH uplink is successfully allocated to 384 kbps bitrate.

The number of successful NRT DCH initial allocations to 384 kbps downlink bitrate.

When NRT DCH downlink is successfully allocated to 384 kbps bitrate.

The number of successful NRT DCH initial allocations to the requested uplink bitrate that is equal to or smaller than 64 kbps. Includes also HSDPA uplink return channel.

When NRT DCH uplink is successfully allocated to the requested bitrate equal to or lower than 64 kbps.

The number of successful NRT DCH initial When NRT DCH downlink is successfully allocated allocations to the requested downlink bitrate that to the requested bitrate equal to or lower than 64 is equal to or smaller than 64 kbps. kbps. The number of successful NRT DCH initial allocations to the requested uplink bitrate of 128 kbps. Includes also HSDPA uplink return channel.

When NRT DCH uplink is successfully allocated to the requested 128 kbps bitrate.

The number of successful NRT DCH initial allocations to the requested downlink bitrate of 128 kbps.

When NRT DCH downlink is successfully allocated to the requested 128 kbps bitrate.

The number of successful NRT DCH initial allocations to the requested uplink bitrate of 256 kbps.

When NRT DCH uplink is successfully allocated to the requested 256 kbps bitrate.

The number of successful NRT DCH initial allocations to the requested downlink bitrate of 256 kbps.

When NRT DCH downlink is successfully allocated to the requested 256 kbps bitrate.

The number of successful NRT DCH initial allocations to the requested uplink bitrate of 384 kbps. Includes also HSDPA uplink return channel.

When NRT DCH uplink is successfully allocated to the requested 384 kbps bitrate.

The number of successful NRT DCH initial allocations to the requested downlink bitrate of 384 kbps.

When NRT DCH downlink is successfully allocated to the requested 384 kbps bitrate.

The number of successful NRT DCH upgrades to When NRT DCH uplink is successfully upgraded to 64 kbps or lower uplink bitrate. Includes also a bitrate equal to or lower than 64 kbps. HSDPA uplink return channel.

The number of successful NRT DCH upgrades to When NRT DCH downlink is successfully upgraded 64 kbps or lower downlink bitrate. to a bitrate equal to or lower than 64 kbps.

The number of successful NRT DCH upgrades to When NRT DCH uplink is successfully upgraded to 128 kbps uplink bitrate. Includes also HSDPA 128 kbps bitrate. uplink return channel. The number of successful NRT DCH upgrades to When NRT DCH downlink is successfully upgraded 128 kbps downlink bitrate. to 128 kbps bitrate.

The number of successful NRT DCH upgrades to When NRT DCH uplink is successfully upgraded to 256 kbps uplink bitrate. 256 kbps bitrate.

The number of successful NRT DCH upgrades to When NRT DCH downlink is successfully upgraded 256 kbps downlink bitrate. to 256 kbps bitrate.

The number of successful NRT DCH upgrades to When NRT DCH uplink is successfully upgraded to 384 kbps uplink bitrate. Includes also HSDPA 384 kbps bitrate. uplink return channel. The number of successful NRT DCH upgrades to When NRT DCH downlink is successfully upgraded 384 kbps downlink bitrate. to 384 kbps bitrate.

The number of successful NRT DCH upgrades to When NRT DCH uplink is successfully upgraded to the requested uplink bitrate that is equal to or the requested bitrate equal to or lower than 64 smaller than 64 kbps. Includes also HSDPA kbps. uplink return channel. The number of successful NRT DCH upgrades to When NRT DCH downlink is successfully upgraded the requested downlink bitrate that is equal to or to the requested bitrate equal to or lower than 64 smaller than 64 kbps. kbps. The number of successful NRT DCH upgrades to When NRT DCH uplink is successfully upgraded to the requested uplink bitrate of 128 kbps. Includes the requested 128 kbps bitrate. also HSDPA uplink return channel. The number of successful NRT DCH upgrades to When NRT DCH downlink is successfully upgraded the requested downlink bitrate of 128 kbps. to the requested 128 kbps bitrate.

The number of successful NRT DCH upgrades to When NRT DCH uplink is successfully upgraded to the requested uplink bitrate of 256 kbps. the requested 256 kbps bitrate.

The number of successful NRT DCH upgrades to When NRT DCH downlink is successfully upgraded the requested downlink bitrate of 256 kbps. to the requested 256 kbps bitrate.

The number of successful NRT DCH upgrades to When NRT DCH uplink is successfully upgraded to the requested uplink bitrate of 384 kbps. Includes the requested 384 kbps bitrate. also HSDPA uplink return channel. The number of successful NRT DCH upgrades to When NRT DCH downlink is successfully upgraded the requested downlink bitrate of 384 kbps. to the requested 384 kbps bitrate.

The number of DCH reconfiguration failures for interactive NRT RB due to transport resources in SRNC in UL. Includes also HSDPA uplink return channel. Note: If IP-based Iub transmission is used, uplink The number of DCH reconfiguration failures for transport congestion is seen in counter background NRT RB due to transport resources M1022C135 instead. in SRNC in UL. Note: If IP-based Iub transmission is used, uplink transport congestion is seen in counter The number of DCH reconfiguration failures for M1022C136 instead. interactive NRT RB due to transport resources in SRNC in DL.

When the DCH reconfiguration for interactive NRT RB in the uplink direction fails due to transport resources.

The number of DCH reconfiguration failures for background NRT RB due to transport resources in SRNC in DL.

When the DCH reconfiguration for background NRT RB in the downlink direction fails due to transport resources.

The number of DCH reconfiguration failures for interactive NRT RB due to BTS reasons in SRNC in UL. Note: If IP-based Iub transmission is used, uplink transport congestion is seen in this counter. The number of DCH reconfiguration failures for background NRT RB due to BTS reasons in SRNC in UL. Note: If IP-based Iub transmission is used, uplink transport congestion is seen in this counter. The number of DCH reconfiguration failures for interactive NRT RB due to BTS reasons in SRNC in DL.

When the BTS responds with NBAP: RADIO LINK RECONFIGURATION FAILURE or does not respond at all when DCH uplink reconfiguration is attempted.

The number of DCH reconfiguration failures for background NRT RB due to BTS reasons in SRNC in DL.

When the BTS responds with NBAP: RADIO LINK RECONFIGURATION FAILURE or does not respond at all when DCH downlink reconfiguration is attempted.

The number of DCH reconfiguration failures for interactive NRT RB due to Admission Control in SRNC in UL.

When the DCH reconfiguration for interactive NRT RB in the uplink direction fails due to admission control.

When the DCH reconfiguration for background NRT RB in the downlink direction fails due to transport resources. When the DCH reconfiguration for interactive NRT RB in the uplink direction fails due to transport resources.

When the BTS responds with NBAP: RADIO LINK RECONFIGURATION FAILURE or does not respond at all when DCH uplink reconfiguration is attempted. When the BTS responds with NBAP: RADIO LINK RECONFIGURATION FAILURE or does not respond at all when DCH downlink reconfiguration is attempted.

The number of DCH reconfiguration failures for When the DCH reconfiguration for background background NRT RB due to Admission Control in NRT RB in the uplink direction fails due to SRNC in UL. admission control. The number of DCH reconfiguration failures for interactive NRT RB due to Admission Control in SRNC in DL.

When the DCH reconfiguration for interactive NRT RB in the downlink direction fails due to admission control.

The number of DCH reconfiguration failures for When the DCH reconfiguration for background background NRT RB due to Admission Control in NRT RB in the downlink direction fails due to SRNC in DL. admission control. The number of DCH reconfiguration failures for interactive NRT RB due to other reasons in SRNC in UL.

When the DCH reconfiguration for interactive NRT RB in the uplink direction fails due to other reasons than AC, transport resources or BTS reasons.

The number of DCH reconfiguration failures for background NRT RB due to other reasons in SRNC in UL.

When the DCH reconfiguration for background NRT RB in the uplink direction fails due to other reasons than AC, transport resources or BTS reasons.

The number of DCH reconfiguration failures for interactive NRT RB due to other reasons in SRNC in DL.

When the DCH reconfiguration for interactive NRT RB in the downlink direction fails due to other reasons than AC, transport resources or BTS reasons.

The number of DCH reconfiguration failures for background NRT RB due to other reasons in SRNC in DL.

When the DCH reconfiguration for background NRT RB in the downlink direction fails due to other reasons than AC, transport resources or BTS reasons.

The number of attempted channel switches from When the RNC sends RRC: RADIO BEARER DCH to HS-DSCH. RECONFIGURATION message to the UE with the condition that channel switches from DCH to HSDSCH. The number of successful channel switches from When the RNC receives RRC: RADIO BEARER DCH to HS-DSCH. RECONFIGURATION COMPLETE message from the UE after a successful channel switch from DCH to HS-DSCH. The number of attempted channel switches from When the RNC sends RRC: RADIO BEARER HS-DSCH to DCH. RECONFIGURATION message to the UE with the condition that the channel switches from HS-DSCH to DCH. The number of successful channel switches from When the RNC receives RRC: RADIO BEARER HS-DSCH to DCH. RECONFIGURATION COMPLETE message from the UE after a successful channel switch from HSDSCH to DCH. The maximum duration that a user has had HSDSCH allocated. The whole duration is updated for the last HS-DSCH serving cell.

When the HS-DSCH user plane is released or reconfigured to DCH.

The maximum duration that a user has had EWhen the E-DCH user plane is released or DCH allocated. The whole duration is updated for reconfigured to DCH. the last E-DCH serving cell. The sum of the durations of the HSDPA user connections. The whole duration is updated for the last HS-DSCH serving cell.

When the HS-DSCH user plane is released or reconfigured to DCH, the duration of the HS-DSCH allocation is updated to this counter.

The number of updates done to counter Updated by one when M1022C153 is updated. M1022C153, used as a denominator for average calculation. The sum of the durations of the HSUPA user connections. The whole duration is updated for the last E-DCH serving cell.

When the E-DCH user plane is released or reconfigured to DCH, the duration of the E-DCH allocation is updated to this counter.

The number of updates done to counter Updated by one when M1022C155 is updated. M1022C155, used as a denominator for average calculation. The maximum HS-DSCH radio bearer duration for streaming.

When the HS-DSCH user plane is released or reconfigured to DCH.

The minimum HS-DSCH radio bearer duration for When the HS-DSCH user plane is released or streaming. reconfigured to DCH.

The sum of the durations of the HS-DSCH radio bearer for streaming.

When the HS-DSCH user plane is released or reconfigured to DCH, the duration of the HS-DSCH allocation is updated to this counter.

The number of updates done to counter Updated by one when M1022C159 is updated. M1022C159, used as a denominator for average calculation. The maximum HS-DSCH radio bearer duration for interactive traffic class.

When the HS-DSCH user plane is released or reconfigured to DCH.

The minimum HS-DSCH radio bearer duration for When the HS-DSCH user plane is released or interactive traffic class. reconfigured to DCH.

The sum of the durations of the HS-DSCH radio bearer for interactive traffic class.

When the HS-DSCH user plane is released or reconfigured to DCH, the duration of the HS-DSCH allocation is updated to this counter.

The number of updates done to counter Updated by one when M1022C163 is updated. M1022C163, used as a denominator for average calculation. The maximum HS-DSCH radio bearer duration for background traffic class.

When the HS-DSCH user plane is released or reconfigured to DCH.

The minimum HS-DSCH radio bearer duration for When the HS-DSCH user plane is released or background traffic class. reconfigured to DCH.

The sum of the durations of the HS-DSCH radio bearer for background traffic class.

When the HS-DSCH user plane is released or reconfigured to DCH, the duration of the HS-DSCH allocation is updated to this counter.

The number of updates done to counter Updated by one when M1022C167 is updated. M1022C167, used as a denominator for average calculation. The maximum E-DCH radio bearer duration for streaming.

When the E-DCH user plane is released or reconfigured to DCH.

The minimum E-DCH radio bearer duration for streaming.

When the E-DCH user plane is released or reconfigured to DCH.

The sum of the durations of the E-DCH radio bearer for streaming.

When the E-DCH user plane is released or reconfigured to DCH, the duration of the E-DCH allocation is updated to this counter.

The number of updates done to counter Updated by one when M1022C171 is updated. M1022C171, used as a denominator for average calculation. The maximum E-DCH radio bearer duration for interactive.

When the E-DCH user plane is released or reconfigured to DCH.

The minimum E-DCH radio bearer duration for interactive.

When the E-DCH user plane is released or reconfigured to DCH.

The sum of the durations of the E-DCH radio bearer for interactive.

When the E-DCH user plane is released or reconfigured to DCH, the duration of the E-DCH allocation is updated to this counter.

The number of updates done to counter Updated by one when M1022C175 is updated. M1022C175, used as a denominator for average calculation. The maximum E-DCH radio bearer duration for background.

When the E-DCH user plane is released or reconfigured to DCH.

The minimum E-DCH radio bearer duration for background.

When the E-DCH user plane is released or reconfigured to DCH.

The sum of the durations of the E-DCH radio bearer for background.

When the E-DCH user plane is released or reconfigured to DCH, the duration of the E-DCH allocation is updated to this counter.

The number of updates done to counter Updated by one when M1022C179 is updated. M1022C179, used as a denominator for average calculation. The number of HS-DSCH/E-DCH packet call attempts for the streaming traffic class.

When the UE-specific packet scheduler attempts to allocate an HS-DSCH/E-DCH transport channel for the PS Streaming RAB, and there are no dedicated/shared channels that are already allocated for the RAB. The number of HS-DSCH/DCH packet call When the UE-specific packet scheduler attempts to This counter is updated if the UE is HSUPA attempts for the streaming traffic class. allocate an HS-DSCH/DCH transport channel for capable, even if HSUPA would not be enabled in the PS Streaming RAB, and there are no the cell. dedicated/shared channels that are already allocated for the RAB. The number of DCH/DCH packet call attempts for When the UE-specific packet scheduler attempts to This counter is updated if the UE is HSDPA the streaming traffic class. allocate a DCH/DCH transport channel for the PS capable, even if HSDPA would not be enabled in Streaming RAB, and there are no the cell. dedicated/shared channels that are already allocated for the RAB. The number of packet call setup failures due to When the PS user plane allocation is rejected by the admission control for the streaming traffic the admission control. class. Also rejections due to "frozen BTS" are included in this counter. The number of packet call setup failures due to the BTS for the streaming traffic class.

The number of packet call setup failures due to the lack of DMCU resources for the streaming traffic class. The number of packet call setup failures due to transport for the streaming traffic class.

When the PS user plane allocation fails due to the BTS responding with an NBAP: RADIO LINK SETUP FAILURE or an NBAP: RADIO LINK RECONFIGURATION FAILURE message, or not responding at all. When the PS user plane allocation fails due to a DMCU resource allocation failure.

When the PS user plane allocation fails due to an Iub transport setup failure.

The number of packet call setup failures due to the UE for the streaming traffic class.

When the PS user plane allocation fails due to the UE responding with an RRC: RADIO BEARER RECONFIGURATION FAILURE message or not responding at all.

The number of packet call setup failures for the streaming traffic class due to other reasons than those covered by the other failure counters.

When the PS user plane allocation fails due to any other reason not covered by the other failure counters.

The number of allocations for the HS-DSCH/EDCH after an HS-DSCH/E-DCH request for the streaming traffic class.

When the user's HS-DSCH/E-DCH user plane allocation is successfully completed.

The number of HS-DSCH/DCH allocations after an HS-DCSH/E-DCH request for the streaming traffic class.

When the user is successfully allocated to the HSDSCH/DCH user plane and the request was for the HS-DSCH/E-DCH.

The number of HS-DSCH/DCH allocations after an HS-DSCH/DCH request for the streaming traffic class.

When the user is successfully allocated to the HSDSCH/DCH user plane and the request was for the HS-DSCH/DCH.

The number of DCH/DCH allocations after an HS-DSCH/E-DCH request for the streaming traffic class.

When the user is successfully allocated to the DCH/DCH user plane and the request was for the HS-DSCH/E-DCH.

The number of DCH/DCH allocations after an HS-DSCH/DCH request for the streaming traffic class.

When the user is successfully allocated to the DCH/DCH user plane and the request was for the HS-DSCH/DCH.

The number of DCH/DCH allocations after a When the user is successfully allocated to the DCH/DCH request for the streaming traffic class. DCH/DCH user plane and the request was for the DCH/DCH. The number of packet call channel switches from When the user's HS-DSCH/E-DCH user plane the HS-DSCH/E-DCH to the HS-DSCH/DCH for allocation is switched to the HS-DSCH/DCH. the streaming traffic class. The number of packet call channel switches from When the user's HS-DSCH/E-DCH user plane the HS-DSCH/E-DCH to the DCH/DCH (xx/yy) for allocation is switched to the DCH/DCH (xx/yy). the streaming traffic class. The number of packet call channel switches from When the user's HS-DSCH/DCH user plane the HS-DSCH/DCH to the DCH/DCH (xx/yy) for allocation is switched to the DCH/DCH (xx/yy). the streaming traffic class. The number of packet call channel switches from When the user's HS-DSCH/DCH user plane the HS-DSCH/DCH to the HS-DSCH/E-DCH for allocation is switched to the HS-DSCH/E-DCH. the streaming traffic class.

The number of packet call channel switches from When the user's DCH/DCH (xx/yy) user plane the DCH/DCH (xx/yy) to the HS-DSCH/DCH for allocation is switched to the HS-DSCH/DCH. the streaming traffic class. The number of packet call channel switches from When the user's DCH/DCH (xx/yy) user plane the DCH/DCH (xx/yy) to the HS-DSCH/E-DCH for allocation is switched to the HS-DCSH/E-DCH. the streaming traffic class. The number of HS-DSCH/E-DCH packet call normal releases for the streaming traffic class.

The number of HS-DSCH/DCH packet call normal releases for the streaming traffic class.

The number of DCH/DCH packet call normal releases for the streaming traffic class.

This counter indicates the number of HSDSCH/E-DCH packet call releases caused by pre-emption for the streaming traffic class.

When a packet call is released normally, for example, due to inactivity or an RAB release. The counter is also updated in case of outgoing SRNC relocations, Inter-RNC hard handovers, and Intersystem hard handovers, and due to state When a packet call is released normally, for transitions to the DCH example, due to inactivity or an RAB release. The counter is also updated in case of outgoing SRNC relocations, Inter-RNC hard handovers, and Intersystem hard handovers, and due to state When a packet call is released normally, for transitions to the DCH example, due to inactivity or an RAB release. The counter is also updated in case of outgoing SRNC relocations, Inter-RNC hard handovers, and Intersystem hard handovers, and due to state The counter is updated when a packet call is transitions to the DCH released due to pre-emption by a higher priority radio bearer.

The number of HS-DSCH/DCH packet call releases caused by pre-emption for the streaming traffic class.

When a packet call is released due to pre-emption by a higher priority radio bearer.

The number of DCH/DCH packet call releases caused by pre-emption or RT over NRT for the streaming traffic class.

When a packet call is released due to pre-emption by a higher priority radio bearer.

The number of HS-DSCH/E-DCH packet call releases caused by radio link failures for the streaming traffic class.

When a packet call is released due to a radio link failure, that is, all radio links go out of the sync state during a packet call and thus the dedicated user plane is released.

The number of HS-DSCH/DCH packet call releases caused by radio link failures for the streaming traffic class.

When a packet call is released due to a radio link failure, that is, all radio links go out of the sync state during a packet call and thus the dedicated user plane is released.

The number of DCH/DCH packet call releases caused by radio link failures for the streaming traffic class.

When a packet call is released due to a radio link failure, that is, all radio links go out of the sync state during a packet call and thus the dedicated user plane is released.

The number of HS-DSCH/E-DCH packet call releases caused by other failure reasons than a radio link failure for the streaming traffic class.

When a packet call is released for some other failure cause than a radio link failure. The most typical reason is that the UE does not respond to an RRC protocol message.

The number of HS-DSCH/DCH packet call releases caused by other failure reasons than a radio link failure for the streaming traffic class.

When a packet call is released for some other failure cause than a radio link failure. The most typical reason is that the UE does not respond to an RRC protocol message.

The number of DCH/DCH packet call releases caused by other failure reasons than a radio link failure for the streaming traffic class.

When a packet call is released for some other failure cause than a radio link failure. The most typical reason is that the UE does not respond to an RRC protocol message.

The number of HS-DSCH/DCH allocations after an HS-DCSH/E-DCH request for the interactive traffic class due to the cell not supporting HSUPA.

When the user is successfully allocated to the HSDSCH/DCH user plane and the request was for the HS-DSCH/E-DCH. The reason for selecting HSDPA instead of HSUPA was that HSUPA is not enabled in the cell. When the user is successfully allocated to the HSDSCH/DCH user plane and the request was for the HS-DSCH/E-DCH. The reason for selecting HSDPA instead of HSUPA was that HSUPA is not enabled in the cell. When the user is successfully allocated to the HSDSCH/DCH user plane and the request was for the HS-DSCH/E-DCH. The reason for selecting HSDPA instead of HSUPA was that HSUPA is not enabled in the cell. When the user is successfully allocated to the DCH/DCH user plane and the request was for the HS-DSCH/E-DCH. The reason for selecting Rel99 was that HSUPA and HSDPA are not enabled in the cell. When the user is successfully allocated to the DCH/DCH user plane and the request was for the HS-DSCH/E-DCH. The reason for selecting Rel99 was that HSUPA and HSDPA are not enabled in the cell. When the user is successfully allocated to the DCH/DCH user plane and the request was for the HS-DSCH/E-DCH. The reason for selecting Rel99 was that HSUPA and HSDPA are not enabled in the cell. When the user is successfully allocated to the DCH/DCH user plane and the request was for the HS-DSCH/DCH. The reason for selecting Rel99 was that HSDPA is not enabled in the cell.

The number of HS-DSCH/DCH allocations after an HS-DCSH/E-DCH request for the background traffic class due to the cell not supporting HSUPA. The number of HS-DSCH/DCH allocations after an HS-DCSH/E-DCH request for the streaming traffic class due to the cell not supporting HSUPA. The number of DCH/DCH allocations after an HS-DCSH/E-DCH request for the interactive traffic class due to the cell not supporting HSUPA and HSDPA. The number of DCH/DCH allocations after an HS-DCSH/E-DCH request for the background traffic class due to the cell not supporting HSUPA and HSDPA. The number of DCH/DCH allocations after an HS-DCSH/E-DCH request for the streaming traffic class due to the cell not supporting HSUPA and HSDPA. The number of DCH/DCH allocations after an HS-DCSH/DCH request for the interactive traffic class due to the cell not supporting HSDPA.

The number of DCH/DCH allocations after an When the user is successfully allocated to the HS-DCSH/DCH request for the background traffic DCH/DCH user plane and the request was for the class due to the cell not supporting HSDPA. HS-DSCH/DCH. The reason for selecting Rel99 was that HSDPA is not enabled in the cell. The number of DCH/DCH allocations after an HS-DCSH/DCH request for the streaming traffic class due to the cell not supporting HSDPA.

When the user is successfully allocated to the DCH/DCH user plane and the request was for the HS-DSCH/DCH. The reason for selecting Rel99 was that HSDPA is not enabled in the cell.

The number of successful channel switches from DC-HSDPA to single-carrier HSDPA. The counter is updated independently of possible MIMO or DC-HSUPA usage.

When the RNC receives RRC: RADIO BEARER RECONFIGURATION COMPLETE message from the UE after a successful channel switch from DCHSDPA to SC-HSDPA.

The number of successful channel switches from single-carrier HSDPA to DC-HSDPA. The counter is updated independently of possible MIMO or DC-HSUPA usage.

When the RNC receives RRC: RADIO BEARER RECONFIGURATION COMPLETE message from the UE after a successful channel switch from SCHSDPA to DC-HSDPA. The counter is not updated if the channel type The number of received user plane packets from When Iu-PS user plane IP-packet is received from switch happens during inter-frequency handover. the Iu-PS interface with DSCP marking matching the CN and the inner IP-packet DSCP code DL TCP ACK indicating low priority traffic in UL. matches with that defined by parameter RNCOnly traffic transferred over HS-DSCH is >DSCPStatisticsGroupTCPack. included. The counter is updated for the HSThe number of received user plane packets from When Iu-PS user plane IP-packet is received from DSCH serving cell. the Iu-PS interface with DSCP markings that are the CN and it is mapped to the initial SPI. This can configured to use initial SPI at BTS scheduler. happen if the packet does not have DSCP code Only traffic transferred over HS-DSCH is marking or there is no entry for the used DSCP in included. The counter is updated for the HSthe RNC configuration. The number of received user plane packets from When Iu-PS user plane IP-packet is received from DSCH serving cell. the Iu-PS interface with pre-defined DSCP the CN and the inner IP-packet DSCP code marking A. matches with that defined by parameter RNCOnly traffic transferred over HS-DSCH is >DSCPStatisticsGroupA. included. The counter is updated for the HSThe number of received user plane packets from When Iu-PS user plane IP-packet is received from DSCH serving cell. the Iu-PS interface with pre-defined DSCP the CN and the inner IP-packet DSCP code marking B. matches with that defined by parameter RNCOnly traffic transferred over HS-DSCH is >DSCPStatisticsGroupB. included. The counter is updated for the HSThe number of received user plane packets from When Iu-PS user plane IP-packet is received from DSCH serving cell. the Iu-PS interface with pre-defined DSCP the CN and the inner IP-packet DSCP code marking C. matches with that defined by parameter RNCOnly traffic transferred over HS-DSCH is >DSCPStatisticsGroupC. included. The counter is updated for the HSThe number of PS NRT user plane When channel type switch from HSxPA to Rel99 DSCH serving cell. reconfigurations to DCH 0/0 because of failed DCH x/y is triggered and for some reason the channel type switch. procedure fails and therefore DCH 0/0 is allocated instead. In multi RAB cases this counter is updated separately for every RAB. The number of PS NRT user plane When L2 indicates inactivity to L3 which triggers reconfigurations to DCH 0/0 because of user user plane release to DCH 0/0, and finally the UE plane inactivity. acknowledges the radio bearer reconfiguration. The original channel type can be HSxPA or Rel99 DCH x/y. The number of PS NRT reconfiguration attempts When the RNC initiates resource reservation for Using DCH 0/0 instead of PCH or FACH happens from HSxPA to Rel99 DCH x/y. channel type switch from HSxPA to Rel99 DCH because the UE has got another RAB whose user The difference to counter M1022C149 is that x/y. plane cannot be released, for example CS call. M1022C149 covers only the RRC signalling part after the resources are already successfully The number of successful PS NRT When the channel type switch from HSxPA to reserved, but counter M1022C232 covers also reconfigurations from HSxPA to Rel99 DCH x/y. Rel99 DCH is successful and the UE responds with the resource reservation attempt. Failures in this procedure can indirectly be Radio Bearer Reconfiguration Complete. monitored with M1022C230, but it must be noted that M1022C230 covers only such failures that The number of packet call setup failures caused When the PS user plane allocation is rejected by happened in the resource allocation phase as by admission control because of uplink power the uplink power admission control. after such situation switch to DCH 0/0 is limitation for PS NRT calls. performed. M1022C9 or M1022C10 is also updated along with this counter. The number of packet call setup failures caused When the PS user plane allocation is rejected by by admission control because of downlink power the downlink power admission control. limitation for PS NRT calls. M1022C9 or M1022C10 is also updated along with this counter.

The number of packet call setup failures caused by admission control because of downlink spreading code congestion. M1022C9 or M1022C10 is also updated along with this counter. The number of RLC protocol resets triggered by the AM RLC entity of the RNC (AM RLC protocol reset causes and channel type switch/state transition cases). Only PS user plane radio bearers are measured. The number of RLC protocol resets triggered by the AM RLC entity of the UE (AM RLC protocol reset causes). Only PS user plane radio bearers are measured.

When the PS user plane allocation is rejected by the admission control because of downlink spreading code congestion. When the RNC triggers RLC protocol reset.

When the UE triggers RLC protocol reset.

The number of DL SDU data bytes received at When the RLC protocol entity in the RNC receives PDCP/RLC for DL transmission (payload). user data in the downlink direction. Only PS user plane radio bearers are measured. The number of payload bytes sent to the CN. When the RLC protocol entity in the RNC sends Only PS user plane radio bearers are measured. uplink user data towards the CN. When Uplink Data Compression is enabled, the counter measures the number of decompressed RLC payload bytes. The number of DL SDU bytes dropped at When DL SDU is dropped in the PDCP/RLC layer PDCP/RLC due to lack of memory. in the RNC due to lack of memory. Only PS user plane radio bearers are measured. The number of PDUs dropped at RLC due to LI When RLC UL PDU is dropped due to erroneous errors, lack of memory or UL PDUs received PDU, lack of memory or PDU received outside the outside the receive window. receiving window. Only PS user plane radio bearers are measured. The number of transmitted DL PDUs at RLC. When the RNC RLC entity sends RLC DL PDU Does not include retransmissions. towards MAC layer. Only PS user plane radio bearers are measured. The number of transmitted PDUs on DL When the UE acknowledges successful reception acknowledged by the UE. of RLC DL PDU. Only PS user plane radio bearers are measured. The number of DL PDUs retransmitted to UE. When RLC DL PDU is retransmitted. Retransmissions due to polling are not included but only retransmissions related to lost PDUs. Only PS user plane radio bearers are measured. The number of DL RLC PDUs that are discarded When DL RLC PDU is discarded. in RLC. This includes the unacknowledged and unsent PDUs that are discarded because of RLC reset, re-establishment, and so on. Only the PS user plane radio bearers are measured. The number of times ACK status PDU failed to When RLC transmission window stalls triggering update VT(A) when TX window is full causing RLC reset procedure. reset procedure with reason invalid UL status PDU. Only PS user plane radio bearers are measured.

The number of successful channel switches from When the RNC receives RRC: RADIO BEARER single-carrier HSUPA to DC-HSUPA. RECONFIGURATION COMPLETE message from the UE after a successful channel switch from SCHSUPA to DC-HSUPA. The counter is not updated if the channel type The number of successful channel switches from When the RNC receives RRC: RADIO BEARER switch happens during inter-frequency handover. DC-HSUPA to single-carrier HSUPA. RECONFIGURATION COMPLETE message from the UE after a successful channel switch from DCHSUPA to SC-HSUPA. The number of successful channel switches from When the Single-Carrier HSDPA user plane Single-Carrier to Multi-Carrier HSDPA. Multiallocation is switched to Multi-Carrier HSDPA. Carrier refers to the use of 3 carriers. The number of successful channel switches from When the Multi-Carrier HSDPA user plane Multi-Carrier to Single-Carrier HSDPA. Multiallocation is switched to Single-Carrier HSDPA. Carrier refers to the use of 3 carriers. The number of successful channel switches from When the Dual-Carrier HSDPA user plane Dual-Carrier to Multi-Carrier HSDPA. Multiallocation is switched to Multi-Carrier HSDPA. Carrier refers to the use of 3 carriers. The number of successful channel switches from When the Multi-Carrier HSDPA user plane Multi-Carrier to Dual-Carrier HSDPA. Multiallocation is switched to Dual-Carrier HSDPA. Carrier refers to the use of 3 carriers. The number of successful HSUPA downgrades The HSUPA data rate was successfully based on interference reduction. The interference downgraded due to interference reduction. reduction is based on periodic reporting. The number of successful UL DCH downgrades The UL DCH data rate was successfully based on interference reduction. The interference downgraded due to interference reduction. reduction is based on periodic reporting. The number of UDC activation attempts on PS User Plane Radio Bearer.

When the RNC sends RLC PTP_MSG to the UE to request UDC activation.

The number of successful UDC activations on PS When the RNC receives RLC PTP_MSG_ACK User Plane Radio Bearer. from the UE indicating successful UDC activation.

The number of implicit UDC deactivations on PS When RLC reset / RLC re-establishment in Uplink / User Plane Radio Bearer. PS call switch to PCH state occurs and therefore UDC gets implicitly deactivated. The number of RRC connections where the UE is When the RNC receives RRC: Uplink Direct detected as supporting Uplink Data Transfer message from the UE indicating that the Compression. The detection is possible only if UE supports Uplink Data Compression. RAN3274 has been activated in the RNC. The counter is also updated when the RNC detects Uplink Data Compression support based on the Relocation Container received in RANAP: RELOCATION REQUEST during incoming relocation, and does not send query to the UE.

The number of RLC uplink payload bytes When the RNC receives uplink RLC SDU from the received by the RNC measured before UE and UDC is active for the bearer. decompression when UDC has been enabled for the radio bearer. The number of RLC uplink payload bytes produced after data decompression in the RNC when UDC has been enabled for the radio bearer.

When the RNC receives uplink RLC SDU from the UE and UDC is active for the bearer.

This counter denotes the number of prevented This counter is updated when one of the following Radio Bearer Reconfiguration procedures due to Radio Bearer Reconfigurations is prevented due to bad CPICH RSCP. bad CPICH RSCP measurement result of the active set cell: This counter denotes the number of prevented Radio Bearer Reconfiguration procedures due to bad CPICH ECNO.

This counter is updated when one of the following - DC-HSDPA allocation Radio Bearer Reconfigurations is prevented due to - Channel type switch from HSDPA to HSPA bad CPICH ECNO measurement result of the - Upgrade of NRT DCH bit rate active set cell: - Reconfiguration of a fixed RLC PDU size in DL to This counter denotes the number of prevented F- This counter updated a flexible RLCisPDU sizewhen F-DPCH or E-DCH - DC-HSDPA allocation DPCH or E-DCH TTI 2ms allocations. TTI 2ms allocationofisaprevented - Rearrangement DPCH code during code tree - Channel type switch from HSDPA to HSPA because the CPICH RSCP measurement result of optimization - Upgrade of NRT DCH bit rate the E-DCH active set cell does - Reconfiguration of a fixed RLC PDU size in DL to not exceed the threshold, which defines the this has been updated, repetitive The number of PS NRT user plane allocations for After When thecounter LTE PDU capable a flexible RLC sizeUE's user plane allocation coverage area ofcounter F-DPCH orprevented E-DCH TTI 2ms updates for this are for the RRC LTE capable UEs. PS NRT service successfully completed. -for Rearrangement of is a DPCH code during code tree within the HSPA serving cell plus the hysteresis connection until any of the above-mentioned radio optimization (dB) value for SRB reconfiguration. bearer reconfigurations or a hard handover procedure has been completed successfully for the After this counter has been updated, repetitive The amount of MAC-d PDU data transferred in The is updated at 20-second intervals, and After this counter has been updated, repetitive RRCcounter connection. updates for this counter are prevented the set RRC the signalling radio bearer in the uplink direction when theofconnection is are released or the for active is updates this counter prevented connection until any of the above-mentioned radio during the measurement interval. changed. for the RRC connection until a serving HS-DSCH bearer reconfigurations or a hard handover cell change or hard handover procedure procedure has been completed successfully for the has completed successfully for the RRC and The amount of MAC-d PDU data transferred in The been counter is updated at 20-second intervals, RRC connection. connection, or F-DPCH and/or E-DCH TTI 2ms the signalling radio bearer in the downlink when the connection is released or the active set is has been allocated successfully for the RRC direction during the measurement interval. changed. connection. The amount of MAC-d PDU data transferred in the CS Call DCH in the uplink direction during the measurement interval. This counter includes AMR, CS Streaming, and CS Conversational calls. The amount of MAC-d PDU data transferred in the CS Call DCH in the downlink direction during the measurement interval.

The counter is updated at 20-second intervals, and when the connection is released or the active set is changed. The counter is updated at 20-second intervals, and when the connection is released or the active set is changed.

The amount of MAC-d PDU data transferred in The counter is updated at 20-second intervals, and the RT PS DCH in the uplink direction during the when the connection is released or the active set is measurement interval. changed. The amount of MAC-d PDU data transferred in the RT PS DCH in the downlink direction during the measurement interval.

The counter is updated at 20-second intervals, and when the connection is released or the active set is changed.

The amount of MAC-d PDU data transferred in the NRT DCH in the uplink direction during the measurement interval, excluding HS-DSCH return channels.

The counter is updated at 20-second intervals, and when the connection is released or the active set is changed.

The amount of MAC-d PDU data transferred in The counter is updated at 20-second intervals, and the NRT DCH in the downlink direction during the when the connection is released or the active set is measurement interval. changed. The amount of MAC-d PDU data transferred with the HS-DSCH in the downlink direction during the measurement interval. When DC-HSDPA is used, this counter is updated only for the primary HS-DSCH serving The amount of MAC-d PDU data transferred in cell by a value corresponding to the total data the NRT DCH in the uplink direction during the volume transferred using both carriers. measurement interval, including only the HSDSCH return channels.

The counter is updated at 20-second intervals, and when the connection is released or the active set is changed.

The amount of MAC-es/Mac-is PDU data transferred in the E-DCH in the uplink direction during the measurement interval for non-real-time connections. The MAC-es/Mac-is PDU includes MAC-d PDU data and the 6 bits MAC-es/Mac-is The amount of MAC-d PDU AMR data header. transferred in SRNC in the uplink direction measured during the measurement interval. When DC-HSUPA is used, this counter measures separately the primary and secondary carrier EThe of MAC-d PDU AMR data in SRNC DCHamount data volume. in the downlink direction measured during the measurement interval. The data transferred by High Speed CELL_FACH Users is excluded.

The counter is updated at 20-second intervals, and when the connection is released or the active set is changed.

The amount of MAC-d PDU CS conversational data in SRNC in the uplink direction measured during the measurement interval. This counter does not include CS Voice calls, but only CS Conversational data calls (UDI). The amount of MAC-d PDU CS conversational data in SRNC in the downlink direction measured during the measurement interval. This counter does not include CS Voice calls, but only CS Conversational data calls (UDI). The amount of MAC-d PDU CS streaming data in SRNC in the uplink direction measured during the measurement interval.

The counter is updated at 20-second intervals. If the UE is in softer handover, then the counter is updated for only one cell once per each BTS.

The counter is updated at 20-second intervals, and when the connection is released or the active set is changed.

The counter is updated at 20-second intervals. If the UE is in softer handover, then the counter is updated for only one cell once per each BTS. The counter is updated at 20-second intervals. If the UE is in softer handover, then the counter is updated for only one cell once per each BTS.

The counter is updated at 20-second intervals. If the UE is in softer handover, then the counter is updated for only one cell once per each BTS. The counter is updated at 20-second intervals. If the UE is in softer handover, then the counter is updated for only one cell once per each BTS.

The amount of MAC-d PDU CS streaming data in The counter is updated at 20-second intervals. If SRNC in the uplink direction measured during the UE is in softer handover, then the counter is the measurement interval. updated for only one cell once per each BTS. The amount of MAC-d PDU PS streaming data in The counter is updated at 20-second intervals. If SRNC in the uplink direction measured during the UE is in softer handover, then the counter is the measurement interval. This counter includes updated for only one cell once per each BTS. pure Rel99 DCH connections, HS-DSCH uplink return channel and E-DCH.

The amount of MAC-d PDU PS streaming data in The counter is updated at 20-second intervals. If SRNC in the downlink direction measured during the UE is in softer handover, then the counter is the measurement interval. This counter includes updated for only one cell once per each BTS. both Rel99 DCH and HS-DSCH. The amount of MAC-d PDU Interactive data in SRNC in uplink direction measured during the measurement interval. This counter includes pure Rel99 DCH connections, HS-DSCH uplink return channel and E-DCH. The amount of MAC-d PDU Interactive data in SRNC in downlink direction measured during the measurement interval. This counter includes both Rel99 DCH and HS-DSCH.

The counter is updated at 20-second intervals. If the UE is in softer handover, then the counter is updated for only one cell once per each BTS.

The amount of MAC-d PDU Background data in SRNC in uplink direction measured during the measurement interval. This counter includes pure Rel99 DCH connections, HS-DSCH uplink return channel and E-DCH. The amount of MAC-d PDU background data in SRNC in downlink direction measured during the measurement interval. This counter includes both Rel99 DCH and HS-DSCH.

The counter is updated at 20-second intervals. If the UE is in softer handover, then the counter is updated for only one cell once per each BTS.

The counter is updated at 20-second intervals. If the UE is in softer handover, then the counter is updated for only one cell once per each BTS.

The counter is updated at 20-second intervals. If the UE is in softer handover, then the counter is updated for only one cell once per each BTS.

The amount of MAC-es PDU Streaming call data The counter is updated at 20-second intervals. If for RT E-DCH UL. the UE is in softer handover, then the counters are updated for only one cell once per each BTS. The amount of MAC-d PDU Streaming data for HSDPA UL return channel DCH.

The counter is updated at 20-second intervals. If the UE is in softer handover, then the counters are updated for only one cell once per each BTS.

The amount of MAC-d PDU Streaming data for RT HS-DSCH DL.

The counter is updated at 20-second intervals. If the UE is in softer handover, then the counters are updated for only one cell once per each BTS.

The amount of HS-DSCH MAC-d PDU CS Voice The counter is updated with 20 second intervals, data sent to Iub in SRNC. and when the connection is released or the active set is changed. The amount of E-DCH MAC-d PDU CS Voice data received from Iub in SRNC.

The counter is updated with 20 second intervals, and when the connection is released or the active set is changed.

This counter denotes the amount of MACes/Mac-is PDU data transferred in the E-DCH by High Speed CELL_FACH Users in the uplink direction during the measurement interval for non-real-time connections. The MAC-es/Mac-is This counter denotes the amount of MACPDU includes MAC-d PDU data and the 6 bits es/Mac-is PDU data transferred in the E-DCH by MAC-es/Mac-is header. High Speed CELL_FACH Users in the uplink direction during the measurement interval in the signaling radio bearer. The MAC-es/Mac-is PDU includes MAC-d PDU data and the 6 bits MACes/Mac-is header.

This counter is updated when MAC-es/MAC-is PDU data is transferred in the E-DCH by High Speed Cell_FACH Users in the uplink direction during the measurement interval for non-real-time connections. This counter is updated when MAC-es/Mac-is PDU data is transferred in the E-DCH by High Speed CELL_FACH Users in the uplink direction during the measurement interval in the signaling radio bearer.

The amount of MAC-es/Mac-is PDU data transferred in the E-DCH in the uplink direction during the measurement interval for PS NRT connections for LTE capable UEs. The MACes/Mac-is PDU includes MAC-d PDU data and The amount of MAC-d PDU data transferred with the 6 bits MAC-es/Mac-is header. the HS-DSCH in the downlink direction during the measurement interval for PS NRT connections When DC-HSUPA is used, this counter measures for LTE capable UEs. separately the primary and secondary carrier EWhen DC-HSDPA is used, this counter is The uplink Eb/No, calculated as a DCHaverage data volume. updated only for the primary HS-DSCH serving weighted average from the Eb/No values cell by a value corresponding to the total data reported OLPC. by High Speed The data by transferred volume transferred using both carriers. CELL_FACH Users is excluded.

The counter is updated by default at 20-second intervals, and when the connection is released or the active set is changed. The counter is updated by default at 20-second intervals, and when the connection is released or the active set is changed. When the UL Outer Loop PC Controller receives an activity report from the RNC OLPC Process.

The number of Eb/No samples in the Average UL When the UL Outer Loop PC Controller receives Eb/No counter. an activity report from the RNC OLPC Process.

The UL Eb/No reports that L3 entity has received When OLPC reports an Eb/No value to L3 entity, from the OLPC Controller. for example when a DCH is modified or released.

The number of received transport blocks with CRC OK in the uplink.

When the UL Outer Loop PC Controller receives an activity report from the RNC OLPC Process.

The number of transport blocks received with CRC NOK in the uplink.

When the UL Outer Loop PC Controller receives an activity report from the RNC OLPC Process.

The number of UL BLER reports received from OLPC.

When OLPC reports measured data to L3 entity.

This counter is not supported because OLPC does not process BER values reported by the BTS. The values shown by the counter do not indicate any real measured BER.

This counter is not supported.

This counter is not supported.

This counter is not supported.

The number of UL BER reports received from OLPC. Updated only when BER is used as a quality estimate for UL OLPC.

When OLPC reports a BER value to L3 entity, for example when a DCH is modified or released.

The number of bad uplink connections.

When the object is changed or removed (for example, when the connection is released or the RB is reconfigured) and if the ratio between the received transport blocks with CRC NOK and the total number of received transport blocks is the following: (CRC_nok / (CRC_ok+CRC_nok)) < x + y * sqrt( x*(1-x) / (CRC_ok+CRC_nok) ), where x = BLER-target and y = ULBLERConfInterval (RNW parameter).

The number of ideal uplink connections.

When the object is changed or removed (for example, when the connection is released or the RB is reconfigured) and neither of the equations presented in counters M1024C12 and M1024C14 is true. The number of too good uplink connections. When the object is changed or removed (for example, when the connection is released or the RB is reconfigured) and if the ratio between the received transport blocks with CRC NOK and the total number of received transport blocks is the The average downlink transmission power of the When NBAP: DEDICATED MEASUREMENT following: (CRC_nok / (CRC_ok+CRC_nok)) < x - y radio links matching the RAB parameters of the REPORT is received from the BTS. * sqrt( x*(1-x) / (CRC_ok+CRC_nok) ), where x = measurement object. BLER-target and y = ULBLERConfInterval (RNW parameter). The number of samples for the dedicated radio When NBAP: DEDICATED MEASUREMENT link power measurement counter M1024C15. REPORT is received from the BTS, this counter is updated by the number of samples used for M1024C15 calculation. The number of dedicated radio link reports received where transmission power is at the maximum value defined by the parameters PtxDLAbsMax and CPICHtoRefRABoffset.

When NBAP: DEDICATED MEASUREMENT REPORT is received from the BTS.

The number of HARQ retransmissions reported by the BTS in E-DCH FP frames.

When the UL Outer Loop PC Controller receives an activity report from the RNC OLPC Process.

The average uplink Eb/No, calculated as a weighted average from the Eb/No values reported by OLPC.

When the UL Outer Loop PC Controller receives an activity report from the RNC OLPC Process.

The number of Eb/No samples in the Average UL When the UL Outer Loop PC Controller receives Eb/No counter. an activity report from the RNC OLPC Process.

The UL Eb/No reports that L3 entity has received When OLPC reports an Eb/No value to L3 entity, from the OLPC Controller. for example when a DCH is modified or released.

The number of received transport blocks with CRC OK in the uplink.

When the UL Outer Loop PC Controller receives an activity report from the RNC OLPC Process.

The number of transport blocks received with CRC NOK in the uplink.

When the UL Outer Loop PC Controller receives an activity report from the RNC OLPC Process.

The number of UL BLER reports received from OLPC.

When OLPC reports measured data to L3 entity.

This counter is not supported because OLPC does not process BER values reported by the BTS. The values shown by the counter do not indicate any real measured BER.

This counter is not supported.

This counter is not supported.

This counter is not supported.

The number of UL BER reports received from OLPC. Updated only when BER is used as a quality estimate for UL OLPC.

When OLPC reports a BER value to L3 entity, for example when a DCH is modified or released.

The number of bad uplink connections.

When the object is changed or removed (for example, when the connection is released or the RB is reconfigured) and if the ratio between the received transport blocks with CRC NOK and the total number of received transport blocks is the The number of ideal uplink connections. When the object is changed or removed (for following: (CRC_nok / (CRC_ok+CRC_nok)) < x + example, when the connection is released or the y * sqrt( x*(1-x) / (CRC_ok+CRC_nok) ), where x = RB is reconfigured) and neither of the equations BLER-target and y = ULBLERConfInterval (RNW presented in counters M1025C12 and M1025C14 parameter). is true. The number of too good uplink connections. When the object is changed or removed (for example, when the connection is released or the RB is reconfigured) and if the ratio between the received transport blocks with CRC NOK and the total number of received transport blocks is the The average downlink transmission power of the When NBAP: DEDICATED MEASUREMENT following: (CRC_nok / (CRC_ok+CRC_nok)) < x - y radio links matching the RAB parameters of the REPORT is received from the BTS. * sqrt( x*(1-x) / (CRC_ok+CRC_nok) ), where x = measurement object. BLER-target and y = ULBLERConfInterval (RNW parameter). The number of samples for the dedicated radio When NBAP: DEDICATED MEASUREMENT link power measurement counter M1025C15. REPORT is received from the BTS, this counter is updated by the number of samples used for M1025C15 calculation. The number of dedicated radio link reports received where transmission power is at the maximum value defined by the parameters PtxDLAbsMax and CPICHtoRefRABoffset.

When NBAP: DEDICATED MEASUREMENT REPORT is received from the BTS.

The number of HARQ retransmissions reported by the BTS in E-DCH FP frames.

When the UL Outer Loop PC Controller receives an activity report from the RNC OLPC Process.

The average RLC AM DL PDU transmission buffer occupancy. Includes both first-time transmission and retransmission buffers. Does not include periods when the DL transmission buffers in the RLC entity are empty. The average PDCP buffer occupancy in RLC AM DL. Does not include periods when the DL transmission buffers in the RLC entity are empty.

When the RLC AM connection is modified or released. Based on sampling, which is done every TTI (transmission time interval) when there is data in the DL transmission buffers of the RLC entity. When the RLC AM connection is modified or released. Based on sampling, which is done every TTI (transmission time interval) when there is data in the DL transmission buffers of the RLC entity.

The number of RLC AM reports for the RLC AM DL transmission buffer and the PDCP buffer occupancy measurement.

When the RLC AM connection is modified or released.

The ratio between unsuccessfully transmitted RLC AM DL PDUs and all transmitted RLC AM DL PDUs (including retransmissions).

When the RLC AM connection is modified or released.

The number of transmitted RLC AM DL PDUs. When the RLC AM connection is modified or Includes also retransmitted DL PDUs and control released. PDUs. The number of RLC AM reports for the RLC AM DL PDU error ratio measurement.

When the RLC AM connection is modified or released.

The number of bad connections for RLC AM in downlink direction.

When the object is changed/removed (e.g. the connection is released, or the RB is reconfigured) and if the ratio between the resent RLC PDUs and the total number of sent RLC PDUs (PDUtot) > x + y * sqrt( x*(1-x) / PDUtot ), where x = BLER-target The number of too good connections for RLC AM When the object is changed/removed (e.g. the and y = DLBLERConfInterval (RNW parameter). in downlink direction. connection is released, or the RB is reconfigured) and if the ratio between the resent RLC PDUs and the total number of sent RLC PDUs (PDUtot) < x y * sqrt( x*(1-x) / PDUtot ), where x = BLER-target The number of ideal connections for RLC AM in When the object is changed/removed (e.g. the and y = DLBLERConfInterval (RNW parameter). downlink direction. connection is released, or the RB is reconfigured) and neither of the equations presented in counters M1026C9 and M1026C10 is true. The average downlink PDU gross throughput of the RLC AM connection. Includes also retransmissions. Does not include periods when the DL transmission buffers in the RLC entity are empty. The number of RLC AM reports for RLC AM DL gross and net throughput values. The throughput calculation is done so that the used downlink active data transmission time is observed with 240 millisecond sampling periods, The downlink net PDU throughput and ifaverage during such sampling period the sent of RLC AM connections. Does not3000 include downlink data volume exceeds bytes, the retransmissions. Doesis not includetoperiods entire 240 ms period summed the totalwhen the DL transmission in the are transfer time counter.buffers This 240 msRLC valueentity is used empty. even if actually the RLC buffer would not have The average number of required transmissions contained theDL. time during the entire per PDU indata RLCallAM For a perfect connection The throughput calculation is done so that the sampling interval. the value of this counter is one. used downlink active data transmission time is observed with 240 millisecond periods, If the transferred data volume issampling smaller than The PDU discard ratio downlink and during such sampling period theissent 3000ifRLC bytes, the transfer timefor counter connections AM. downlink datausing exceeds 3000there bytes, the incremented byvolume theRLC actual time that was entire is summed to the total is data in240 the ms DL period RLC buffer. Here the resolution transfer timesampling counter. period This 240 msinto value 10 ms. The falls thisis used even if actually thefor RLC buffer during would small not have category typically example contained data allsending the timecaused during the keepalive packet by entire sampling interval. smartphones. If the transferred data volume is smaller than 3000 bytes, the transfer time counter is incremented by the actual time that there was data in the DL RLC buffer. Here the resolution is 10 ms. The sampling period falls into this category typically for example during small keepalive packet sending caused by

When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

The number of downlink RLC AM PDUs added to When the RLC AM connection is modified or the RLC transmission buffer. This includes also released. PDUs retransmitted due to RLC polling procedure. The average SDU error ratio in RLC AM downlink. Defined as the ratio between discarded SDUs and the total number of SDUs received for transmission from the PDCP layer. Note that this counter does not include RLC SDUs that have The average transfer delay of transferred RLC overflowed from the PDCP buf AM SDUs in downlink. Transfer delay is the time difference between when the SDU is received from the upper layer (RRC or PDCP) and when the last PDU containing data from that SDU is The sum of average SDU transfer delay values in acknowledged by the UE as successfully RLC AM DL. transferred. If an SDU is discarded due to SDU discard function, the transfer time is then the difference between the time when SDU is The sum from of standard deviations of the the time SDUwhen received the upper layer and transfer delay values in RLC AM DL. SDU is discarded.

When the RLC AM connection is modified or released.

Measured continuously from radio bearers and updated to a counter when the RLC AM connection is modified or released. Measured continuously from radio bearers and updated to a counter when the RLC AM connection is modified or released. Measured continuously from radio bearers and updated to a counter when the RLC AM connection is modified or released.

The number of RLC AM SDUs ready for When the RLC AM connection is modified or transmission in downlink. Includes also discarded released, this counter is updated by the number of SDUs. handled DL SDUs. The total time period when the measurement was active in the RLC AM DL entity. The active time is the time between when the first RLC SDU arrives in the RLC buffer and when all the RLC PDUs of the packet call have been acknowledged. The number of SDU bytes transmitted in uplink Periods when the DL transmission buffers are using RLC AM. The RLC SDU payload empty are excluded. measuring is made for compressed bytes (before PDCP in UL) and includes RLC SDU headers.

When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

The number of SDU bytes transmitted in When the RLC AM connection is modified or downlink using RLC AM. The RLC SDU payload released. measuring is made for compressed bytes (after PDCP in DL) and includes RLC SDU headers. Discarded SDUs are included. The number of received RLC AM PDUs in uplink. When the RLC AM connection is modified or released.

The total time period when the measurement was active in the RLC AM UL entity. The active time is the time between when the first RLC SDU arrives in the RLC buffer and when all the RLC PDUs of the packet call have been acknowledged. The number of connections with 0...4 kbit/s Periods when the transmission buffers are empty downlink RLC PDU gross throughput. The range are excluded. can be adjusted by parameter RCPMtputDLCl01to02Range. The unit of counter can be changed to "1000 bytes" by setting the RNC parameter RCPMtputAggregationLevel to a value of 1, then the counter shows the amount of data volume (with throughput within the specified range) that is transferred, instead of updating the counter by the number of transfer sessions.

When the RLC AM connection is modified or released.

When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one.

The number of connections with 4...8 kbit/s downlink RLC PDU gross throughput. The range can be adjusted by parameters RCPMtputDLCl01to02Range and RCPMtputDLCl02to03Range. The unit of counter The number of connections with 8...16 kbit/s can be changed to "1000 bytes" by setting the downlink RLC PDU gross throughput. The range RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl02to03Range and data volume (with throughput within the specified RCPMtputDLCl03to04Range. The unit of counter The number connections with 16...32 kbit/s the range) that isoftransferred, instead of updating can be changed to "1000 bytes" by setting the downlink RLC gross throughput. The range counter by the PDU number of transfer sessions. RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl03to04Range and data volume (with throughput within the specified RCPMtputDLCl04to05Range. The unit of counter The number connections with 32...64 kbit/s the range) that isoftransferred, instead of updating can be changed to "1000 bytes" by setting the downlink RLC gross throughput. The range counter by the PDU number of transfer sessions. RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl04to05Range and data volume (with throughput within the specified RCPMtputDLCl05to06Range. The unit of counter The number connections with 64...128 kbit/sthe range) that isoftransferred, instead of updating can be changed to "1000 bytes" by setting the downlink RLC gross throughput. The range counter by the PDU number of transfer sessions. RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl05to06Range and data volume (with throughput within the specified RCPMtputDLCl06to07Range. The unit of counter The number connections with 128...256 kbit/s range) that isoftransferred, instead of updating the can be changed to "1000 bytes" by setting the downlink RLC gross throughput. The range counter by the PDU number of transfer sessions. RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl06to07Range and data volume (with throughput within the specified RCPMtputDLCl07to08Range. The unit of counter The number connections with 256...512 kbit/s range) that isoftransferred, instead of updating the can be changed to "1000 bytes" by setting the downlink RLC gross throughput. The range counter by the PDU number of transfer sessions. RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl07to08Range and data volume (with throughput within the specified RCPMtputDLCl08to09Range. The unit of counter The number connections with 512 kbit/s...1 the range) that isoftransferred, instead of updating can be changed to "1000 bytes" by setting the Mbit/s RLC PDU gross throughput. counterdownlink by the number of transfer sessions. The RNC parameter RCPMtputAggregationLevel to a range can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl08to09Range and data volume (with throughput within the specified RCPMtputDLCl09to10Range. The unit of counter The number connections with 1of Mbit/s...2 range) that isoftransferred, instead updating the can be changed to "1000 bytes" by setting the Mbit/s gross RLC PDU throughput. counterdownlink by the number of transfer sessions. The RNC parameter RCPMtputAggregationLevel to a range can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl09to10Range and data volume (with throughput within the specified RCPMtputDLCl10to11Range. The unit of counter The number downlink RLC AM PDUs whichthe range) that isoftransferred, instead of updating can be changed to "1000 bytes" by setting the have been successfully delivered the UE counter by the number of transfer to sessions. RNC parameter RCPMtputAggregationLevel to a without retransmissions. value of 1, then the counter shows the amount of data volume (with throughput within the specified The number downlink RLC AM PDUs whichthe range) that isoftransferred, instead of updating have been successfully delivered the UE with counter by the number of transfer to sessions. one retransmission.

When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one.

The number of downlink RLC AM PDUs which have been successfully delivered to the UE with two retransmissions.

When the RLC AM connection is modified or released.

When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

The number of downlink RLC AM PDUs which have been successfully delivered to the UE with three retransmissions.

When the RLC AM connection is modified or released.

The number of downlink RLC AM PDUs which have been successfully delivered to the UE with four retransmissions.

When the RLC AM connection is modified or released.

The number of downlink RLC AM PDUs which have been successfully delivered to the UE with five or more retransmissions or the PDU is discarded.

When the RLC AM connection is modified or released.

The number of connections with the 2 Mbit/s...4 Mbit/s downlink RLC PDU gross throughput. The range can be adjusted by parameters RCPMtputDLCl10to11Range and RCPMtputDLCl11to12Range. The unit of counter The number of connections with the 4 Mbit/s...8 can be changed to "1000 bytes" by setting the Mbit/s downlink RLC PDU gross throughput. The RNC parameter RCPMtputAggregationLevel to a range can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl11to12Range and data volume (with throughput in the specified RCPMtputDLCl12to13Range. The unit of counter The number connections with larger than the range) that isoftransferred, instead of updating the8 can be changed to "1000 bytes" by setting the Mbit/s RLC PDU gross throughput. counterdownlink by the number of transfer sessions. The RNC parameter RCPMtputAggregationLevel to a range can be adjusted by parameter value of 1, then the counter shows the amount of RCPMtputDLCl12to13Range. The unit of counter data volume (with throughput within the specified can be changed to "1000 bytes" by setting the The number connections with the 0 kbit/s...250 range) that isoftransferred, instead of updating the RNC parameter RCPMtputAggregationLevel to a kbit/s uplink SDU throughput. The sessions. range can be counter by the number of transfer value of 1, then the counter shows the amount of adjusted by parameter data volume (with throughput within the specified RCPMtputULCl01to02Range. The unit of counter range) that is transferred, instead of updating the can be changed to "1000 bytes" by setting the The number of number connections with the 250 counter by the of transfer sessions. RNC parameter RCPMtputAggregationLevel to a kbit/s...500 kbit/s uplink SDU throughput. The value of 1, then the counter shows the amount of range can be adjusted by parameters data volume (with throughput within the specified RCPMtputULCl01to02Range and range) that is transferred, instead of updating the RCPMtputULCl02to03Range. The unit of counter The number of number connections with the 500 kbit/s...1 counter by the of transfer sessions. can be changed to "1000 bytes" by setting the Mbit/s uplink SDU throughput. The range can be RNC parameter RCPMtputAggregationLevel to a adjusted by parameters value of 1, then the counter shows the amount of RCPMtputULCl02to03Range and data volume (with throughput within the specified RCPMtputULCl03to04Range. The unit of counter The number connections with the 1000 range) that isoftransferred, instead of updating the can be changed to "1000 bytes" by setting the kbit/s...1500 kbit/s uplink throughput. counter by the number of SDU transfer sessions.The RNC parameter RCPMtputAggregationLevel to a range can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputULCl03to04Range and data volume (with throughput within the specified RCPMtputULCl04to05Range. The unit of counter The number connections with larger than the range) that isoftransferred, instead of updating the can be changed to "1000 bytes" by setting the 1500 kbit/s uplink SDU of throughput. The range counter by the number transfer sessions. RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameter value of 1, then the counter shows the amount of RCPMtputULCl04to05Range. The unit of counter data volume (with throughput within the specified can be changed to "1000 bytes" by setting the The average AM DL PDU transmission range) that is RLC transferred, instead of updating the RNC parameter RCPMtputAggregationLevel to a buffer occupancy. Includes both first-time counter by the number of transfer sessions. value of 1, then the counter shows the amount of transmission and retransmission buffers. Does data volume (with throughput within the specified not include periods when the DL transmission range) that is transferred, instead of updating the buffers in the RLC entity are empty. counter by the number of transfer sessions.

When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When the RLC AM connection is modified or released. Based on sampling, which is done every TTI (transmission time interval) when there is data in the DL transmission buffers of the RLC entity.

The average PDCP buffer occupancy in RLC AM When the RLC AM connection is modified or DL. Does not include periods when the DL released. Based on sampling, which is done every transmission buffers in the RLC entity are empty. TTI (transmission time interval) when there is data in the DL transmission buffers of the RLC entity. The number of RLC AM reports for the RLC AM DL transmission buffer and the PDCP buffer occupancy measurement.

When the RLC AM connection is modified or released.

The ratio between unsuccessfully transmitted RLC AM DL PDUs and all transmitted RLC AM DL PDUs (including retransmissions).

When the RLC AM connection is modified or released.

The number of transmitted RLC AM DL PDUs. When the RLC AM connection is modified or Includes also retransmitted DL PDUs and control released. PDUs. The number of RLC AM reports for the RLC AM DL PDU error ratio measurement.

When the RLC AM connection is modified or released.

The number of bad connections for RLC AM in downlink direction.

When the object is changed/removed (e.g. the connection is released, or the RB is reconfigured) and if the ratio between the resent RLC PDUs and the total number of sent RLC PDUs (PDUtot) > x + y * sqrt( x*(1-x) / PDUtot ), where x = BLER-target The number of too good connections for RLC AM When the object is changed/removed (e.g. the and y = DLBLERConfInterval (RNW parameter). in downlink direction. connection is released, or the RB is reconfigured) and if the ratio between the resent RLC PDUs and the total number of sent RLC PDUs (PDUtot) < x y * sqrt( x*(1-x) / PDUtot ), where x = BLER-target The number of ideal connections for RLC AM in When the object is changed/removed (e.g. the and y = DLBLERConfInterval (RNW parameter). downlink direction. connection is released, or the RB is reconfigured) and neither of the equations presented in counters M1027C9 and M1027C10 is true. The average downlink PDU gross throughput of the RLC AM connection. Includes also retransmissions. Does not include periods when the DL transmission buffers in the RLC entity are empty. The number of RLC AM reports for RLC AM DL gross and net throughput values. The throughput calculation is done so that the used downlink active data transmission time is observed with 240 millisecond sampling periods, The downlink net PDU throughput and ifaverage during such sampling period the sent of RLC AM connections. Does not3000 include downlink data volume exceeds bytes, the retransmissions. Doesis not includetoperiods entire 240 ms period summed the totalwhen the DL transmission in the are transfer time counter.buffers This 240 msRLC valueentity is used empty. even if actually the RLC buffer would not have The average number of required transmissions contained theDL. time during the entire per PDU indata RLCallAM For a perfect connection The throughput calculation is done so that the sampling interval. the value of this counter is one. used downlink active data transmission time is observed with 240 millisecond periods, If the transferred data volume issampling smaller than and duringthe such sampling theissent 3000if bytes, transfer timeperiod counter downlink databyvolume exceeds 3000there bytes, the incremented the actual time that was entire is summed to the total is data in240 the ms DL period RLC buffer. Here the resolution transfer timesampling counter. period This 240 msinto value 10 ms. The falls thisis used even if actually thefor RLC buffer during would small not have category typically example contained data allsending the timecaused during the keepalive packet by entire sampling interval. smartphones. If the transferred data volume is smaller than 3000 bytes, the transfer time counter is

When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

The RLC PDU discard ratio for downlink connections using RLC AM.

When the RLC AM connection is modified or released.

The number of downlink RLC AM PDUs added to When the RLC AM connection is modified or the RLC transmission buffer. This includes also released. PDUs retransmitted due to RLC polling procedure. The average SDU error ratio in RLC AM downlink. Defined as the ratio between discarded SDUs and the total number of SDUs received for transmission from the PDCP layer. Note that this counter does not include RLC SDUs that have The average transfer delay of transferred RLC overflowed from the PDCP buf AM SDUs in downlink. Transfer delay is the time difference between when the SDU is received from the upper layer (RRC or PDCP) and when the last PDU containing data from that SDU is The sum of average SDU transfer delay values in acknowledged by the UE as successfully RLC AM DL. transferred. If an SDU is discarded due to SDU discard function, the transfer time is then the difference between the time when SDU is The sum from of standard deviations of the the time SDUwhen received the upper layer and transfer delay values in RLC AM DL. SDU is discarded.

When the RLC AM connection is modified or released.

Measured continuously from radio bearers and updated to a counter when the RLC AM connection is modified or released. Measured continuously from radio bearers and updated to a counter when the RLC AM connection is modified or released. Measured continuously from radio bearers and updated to a counter when the RLC AM connection is modified or released.

The number of RLC AM SDUs ready for When the RLC AM connection is modified or transmission in downlink. Includes also discarded released, this counter is updated by the number of SDUs. handled DL SDUs. The total time period when the measurement was active in the RLC AM DL entity. The active time is the time between when the first RLC SDU arrives in the RLC buffer and when all the RLC PDUs of the packet call have been acknowledged. The number of SDU bytes transmitted in uplink Periods when the DL transmission buffers are using RLC AM. The RLC SDU payload empty are excluded. measuring is made for compressed bytes (before PDCP in UL) and includes RLC SDU headers.

When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

The number of SDU bytes transmitted in When the RLC AM connection is modified or downlink using RLC AM. The RLC SDU payload released. measuring is made for compressed bytes (after PDCP in DL) and includes RLC SDU headers. Discarded SDUs are included. The number of received RLC AM PDUs in uplink. When the RLC AM connection is modified or released.

The total time period when the measurement was When the RLC AM connection is modified or active in the RLC AM UL entity. The active time is released. the time between when the first RLC SDU arrives in the RLC buffer and when all the RLC PDUs of the packet call have been acknowledged. Periods when the transmission buffers are empty are excluded.

The number of connections with 0...4 kbit/s downlink RLC PDU gross throughput. The range can be adjusted by parameter RCPMtputDLCl01to02Range. The unit of counter can be changed to "1000 bytes" by setting the The number of connections with 4...8 kbit/s RNC parameter RCPMtputAggregationLevel to a downlink RLC PDU gross throughput. The range value of 1, then the counter shows the amount of can be adjusted by parameters data volume (with throughput within the specified RCPMtputDLCl01to02Range and range) that is transferred, instead of updating the RCPMtputDLCl02to03Range. The unit of counter The number of number connections with 8...16 kbit/s counter by the of transfer sessions. can be changed to "1000 bytes" by setting the downlink RLC PDU gross throughput. The range RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl02to03Range and data volume (with throughput within the specified RCPMtputDLCl03to04Range. The unit of counter The number connections with 16...32 kbit/s the range) that isoftransferred, instead of updating can be changed to "1000 bytes" by setting the downlink RLC gross throughput. The range counter by the PDU number of transfer sessions. RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl03to04Range and data volume (with throughput within the specified RCPMtputDLCl04to05Range. The unit of counter The number connections with 32...64 kbit/s the range) that isoftransferred, instead of updating can be changed to "1000 bytes" by setting the downlink RLC gross throughput. The range counter by the PDU number of transfer sessions. RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl04to05Range and data volume (with throughput within the specified RCPMtputDLCl05to06Range. The unit of counter The number connections with 64...128 kbit/sthe range) that isoftransferred, instead of updating can be changed to "1000 bytes" by setting the downlink RLC gross throughput. The range counter by the PDU number of transfer sessions. RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl05to06Range and data volume (with throughput within the specified RCPMtputDLCl06to07Range. The unit of counter The number connections with 128...256 kbit/s range) that isoftransferred, instead of updating the can be changed to "1000 bytes" by setting the downlink RLC gross throughput. The range counter by the PDU number of transfer sessions. RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl06to07Range and data volume (with throughput within the specified RCPMtputDLCl07to08Range. The unit of counter The number connections with 256...512 kbit/s range) that isoftransferred, instead of updating the can be changed to "1000 bytes" by setting the downlink RLC gross throughput. The range counter by the PDU number of transfer sessions. RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl07to08Range and data volume (with throughput within the specified RCPMtputDLCl08to09Range. The unit of counter The number connections with 512 kbit/s...1 the range) that isoftransferred, instead of updating can be changed to "1000 bytes" by setting the Mbit/s RLC PDU gross throughput. counterdownlink by the number of transfer sessions. The RNC parameter RCPMtputAggregationLevel to a range can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl08to09Range and data volume (with throughput within the specified RCPMtputDLCl09to10Range. The unit of counter The number connections with 1of Mbit/s...2 range) that isoftransferred, instead updating the can be changed to "1000 bytes" by setting the Mbit/s gross RLC PDU throughput. counterdownlink by the number of transfer sessions. The RNC parameter RCPMtputAggregationLevel to a range can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl09to10Range and data volume (with throughput within the specified RCPMtputDLCl10to11Range. The unit of counter The number downlink RLC AM PDUs whichthe range) that isoftransferred, instead of updating can be changed to "1000 bytes" by setting the have been successfully delivered the UE counter by the number of transfer to sessions. RNC parameter RCPMtputAggregationLevel to a without retransmissions. value of 1, then the counter shows the amount of data volume (with throughput within the specified The number downlink RLC AM PDUs whichthe range) that isoftransferred, instead of updating have been successfully delivered the UE with counter by the number of transfer to sessions. one retransmission.

When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When the RLC AM connection is modified or released.

When the RLC AM connection is modified or released.

The number of downlink RLC AM PDUs which have been successfully delivered to the UE with two retransmissions.

When the RLC AM connection is modified or released.

The number of downlink RLC AM PDUs which have been successfully delivered to the UE with three retransmissions.

When the RLC AM connection is modified or released.

The number of downlink RLC AM PDUs which have been successfully delivered to the UE with four retransmissions.

When the RLC AM connection is modified or released.

The number of downlink RLC AM PDUs which have been successfully delivered to the UE with five or more retransmissions or the PDU is discarded.

When the RLC AM connection is modified or released.

The number of connections with the 2 Mbit/s...4 Mbit/s downlink RLC PDU gross throughput. The range can be adjusted by parameters RCPMtputDLCl10to11Range and RCPMtputDLCl11to12Range. The unit of counter The number of connections with the 4 Mbit/s...8 can be changed to "1000 bytes" by setting the Mbit/s downlink RLC PDU gross throughput. The RNC parameter RCPMtputAggregationLevel to a range can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputDLCl11to12Range and data volume (with throughput in the specified RCPMtputDLCl12to13Range. The unit of counter The number connections with larger than the range) that isoftransferred, instead of updating the8 can be changed to "1000 bytes" by setting the Mbit/s RLC PDU gross throughput. counterdownlink by the number of transfer sessions. The RNC parameter RCPMtputAggregationLevel to a range can be adjusted by parameter value of 1, then the counter shows the amount of RCPMtputDLCl12to13Range. The unit of counter data volume (with throughput within the specified can be changed to "1000 bytes" by setting the The number connections with the 0 kbit/s...250 range) that isoftransferred, instead of updating the RNC parameter RCPMtputAggregationLevel to a kbit/s uplink SDU throughput. The sessions. range can be counter by the number of transfer value of 1, then the counter shows the amount of adjusted by parameter data volume (with throughput within the specified RCPMtputULCl01to02Range. The unit of counter range) that is transferred, instead of updating the can be changed to "1000 bytes" by setting the The number of number connections with the 250 counter by the of transfer sessions. RNC parameter RCPMtputAggregationLevel to a kbit/s...500 kbit/s uplink SDU throughput. The value of 1, then the counter shows the amount of range can be adjusted by parameters data volume (with throughput within the specified RCPMtputULCl01to02Range and range) that is transferred, instead of updating the RCPMtputULCl02to03Range. The unit of counter The number of number connections with the 500 kbit/s...1 counter by the of transfer sessions. can be changed to "1000 bytes" by setting the Mbit/s uplink SDU throughput. The range can be RNC parameter RCPMtputAggregationLevel to a adjusted by parameters value of 1, then the counter shows the amount of RCPMtputULCl02to03Range and data volume (with throughput within the specified RCPMtputULCl03to04Range. The unit of counter The number connections with the 1000 range) that isoftransferred, instead of updating the can be changed to "1000 bytes" by setting the kbit/s...1500 kbit/s uplink throughput. counter by the number of SDU transfer sessions.The RNC parameter RCPMtputAggregationLevel to a range can be adjusted by parameters value of 1, then the counter shows the amount of RCPMtputULCl03to04Range and data volume (with throughput within the specified RCPMtputULCl04to05Range. The unit of counter The number connections with larger than the range) that isoftransferred, instead of updating the can be changed to "1000 bytes" by setting the 1500 kbit/s uplink SDU of throughput. The range counter by the number transfer sessions. RNC parameter RCPMtputAggregationLevel to a can be adjusted by parameter value of 1, then the counter shows the amount of RCPMtputULCl04to05Range. The unit of counter data volume (with throughput within the specified can be changed to "1000 bytes" by setting the range) that is transferred, instead of updating the RNC parameter RCPMtputAggregationLevel to a counter by the number of transfer sessions. value of 1, then the counter shows the amount of data volume (with throughput within the specified range) that is transferred, instead of updating the counter by the number of transfer sessions.

When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one. When a connection is cleared, the AM RLC entity reports the throughput measurement values to the L3 entity. Then the corresponding class of the throughput distribution is incremented by one.

Sum of linearized CPICH Ec/No values of the unidentified detected set cells reported by the UE. This counter, divided by the denominator M1028C1, provides the average CPICH Ec/No in range 0...49 defined in 3GPP TS 25.133. The number of 1A/1B/1C reports updated to After average calculation, the value can be counter M1028C0, used as a denominator for converted to the dB unit using formula average calculation. ((reporting_value/2)-24,5).

When the RNC receives 1A, 1B or 1C report from the UE. Both event triggered and possible periodic reports following after them update this counter.

Sum of CPICH RSCP values of the unidentified detected set cells reported by the UE. This counter, divided by the denominator M1028C3, provides the average CPICH RSCP in dBm.

When the RNC receives a 1A, 1B or 1C report from the UE. Both event triggered and possible periodic reports following after them update this counter.

The number of 1A/1B/1C reports updated to counter M1028C2, used as a denominator for average calculation.

When the RNC receives a 1A, 1B or 1C report from the UE, this counter is updated by value 1.

The number of IMEI inquiries sent by the RNC to UE for device detection purposes. This includes only those messages that are produced by the RNC itself, not requests originating from the core network. The number of times when the UE was allowed to use a feature or functionality based on whitelist The counter is updated for object FEAT-0, not for information in WDEV object. other feature codes. The related feature is indicated by the measurement object identifier. The number of times when the UE was blocked from using a feature or functionality based on blacklist information in WDEV object. The related feature is indicated by the measurement object identifier. The maximum number of simultaneous HSDPA users per WBTS.

When the RNC sends either MM:IDENTITY REQUEST or GMM:IDENTITY REQUEST to the UE and the message was generated by the RNC itself.

When the RNC receives a 1A, 1B or 1C report from the UE, this counter is updated by value 1.

When the UE is allowed to use a feature due to whitelist entry. The detailed counter trigger point is specific for each measured feature. The counter is updated only once per RRC connection per measurement object. When the UE is blocked from using a feature due to blacklist entry. The detailed counter trigger point is specific for each measured feature. The counter is updated only once per RRC connection per measurement object. The number of HSDPA users is sampled with onesecond interval.

In this context "HSDPA user" means a user whose HS-DSCH serving cell is located in the The maximum number of simultaneous HSUPA The number of HSUPA users is sampled with oneBTS, regardless of whether the uplink is Rel99 or users per WBTS. second interval. E-DCH. In this context "HSUPA user" means a user who has got have at least one E-DCH radio link in the The sum of sampled values for measuring the BTS, either in the serving radio link set, or in a number of simultaneous HSDPA users in the non-serving radio link set. WBTS. This counter, divided by the denominator M1031C4, provides the average number of The sum of sampled values for measuring the HSDPA users per WBTS. number of simultaneous HSUPA users in the In this context "HSDPA user" means a user WBTS. whose HS-DSCH serving cell is located in the This counter, divided by the denominator BTS, regardless of whether the uplink is Rel99 or M1031C4, provides the average number of The number of samples taken for counter E-DCH. HSUPA users per WBTS. M1031C2 and M1031C3, used as a denominator In this context "HSUPA user" means a user who for average calculation. has got have at least one E-DCH radio link in the BTS, either in the serving radio link set, or in a non-serving radio link set.

The number of HSDPA users is sampled with onesecond interval and summed to this counter.

The number of HSUPA users is sampled with onesecond interval and summed to this counter.

This counter is updated by one when the number of HSDPA or HSUPA users is summed to counters M1031C2 and M1031C3, even if the amount of users would be zero.

The number of successful cell HSPA capability reconfigurations due to cell shutdown triggered by feature Power Saving Mode for BTS.

When either HSPA0 to HSPA5 or HSPA5 to HSPA0 reconfiguration is successful and it was triggered by cell shutdown initiated by feature Power Saving Mode for BTS.

The number of unsuccessful cell HSPA capability When either HSPA0 to HSPA5 or HSPA5 to reconfigurations due to cell shutdown triggered HSPA0 reconfiguration fails and it was triggered by by feature Power Saving Mode for BTS. cell shutdown initiated by feature Power Saving Mode for BTS. The number of successful cell HSPA capability reconfigurations due to cell activation triggered by feature Power Saving Mode for BTS.

When either HSPA0 to HSPA5 or HSPA5 to HSPA0 reconfiguration is successful and it was triggered by cell activation initiated by feature Power Saving Mode for BTS.

The number of unsuccessful cell HSPA capability When either HSPA0 to HSPA5 or HSPA5 to reconfigurations due to cell activation triggered HSPA0 reconfiguration fails and it was triggered by by feature Power Saving Mode for BTS. cell activation initiated by feature Power Saving Mode for BTS. The number of 5 second sampling intervals where the average jitter for CS Voice calls over HSPA is inside Class 0 range (0 ms