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Nemo Analyze KPI List AMPS Serving system and band Recorded when channel configuration information changes.

Serving system

Recorded when channel configuration information changes.

Serving band

Recorded when channel configuration information changes.

L3 signaling

Recorded when a Layer 3 or an NAS signaling message is sent or received.

L3 message search

Searches for user-defined messages, with user-defined string in the message name

Channel number

Recorded when channel configuration information changes.

Rx level MS power level

Recorded when parameter sample is received from the device and the received sample differs from the previous result.

Channel type SAT L3 signaling parameter search

Searches for user-defined text inside decoded messages, and returns the following field for the first match. With the search start text it is possible to configure, that search starts after first occurence of another text in the decoded message

Downlink Band Handover events Handover attempt Handover success Handover failure AMPS Scanner

Rx level RX level selected channel RX level Nth best RX level top N Analysis Ec/Io active set best with geodesic BTS ref. information Information on best serving cell from the BTS reference file.

Active set best cell geodesic BTS ref. information Information on best serving cell from the BTS reference file.

CPICH Ec/N0 selected carrier with geodesic information (BTS ref.) Information on scanned pilots from the BTS reference file.

Serving cell geodesic information (BTS ref.)

Information on best serving cell from the BTS reference file.

Current region mobile

Polygon region where the datapoint at given time falls into

Problem events

The query returns all problem events in Nemo fileformat. Results can be displayed in grid, colorcoded map, and print value on the map.

Current region scanner UMTS Ec/N0 CPICH Nth best with geodesic information (BTS ref.)

Information on scanned Nth best pilot from the BTS reference file.

Rx level top N with BTS ref. geodesic information

Information on TOP N scanned BCCH channels from the BTS reference file.

RSRP Nth best selected carriers with geodesic information (BTS ref.) EC/N0 CPICH Nth best selected carriers with geodesic information (BTS ref.) Current region scanner GSM Rx level Nth best selected channels with geodesic BTS ref. information Information on Nth best scanned BCCH channel from the BTS reference file.

UMTS neighbor list optimizer

This KPI suggests neighborlist based on scanner data for all cells encountered in the measurement data. Input data is binned geographically to bins of user-definable size. Serving cell and neighboring cells are calculated for each bin based on CPICH Ec/N0. For each serving cell, neighboring cells are divided to active and monitored cells based on the user-definable threshold from the serving cell. Serving cells that do not exist in a bin for minimum distance of the user-definable threshold, are filtered out.

UMTS to UMTS missing neighbor analysis

This analysis is based on NMISS events recorded by Nemo Outdoor. Missing neighbor analysis UMTS intrafrequency provides the same analysis without relying on Nemo Outdoor missing neighbor measurements. List of all missing neighbor and best active set cell pairs where the missing neighbor is within user defined window from the best active set cell.

Missing neighbor analysis UMTS scanner only

Missing neighbour analysis using scanner only. Requires a scanner capable of decoding system information signaling messages. Output is list of all missing neighbor and serving cell pairs where the missing neighbor is within user defined window from the serving cell. Analysis is done for TOP N pilots detected by the scanner in selected channel

Missing neighbor analysis GSM inter-system

List of possible missing UMTS neighbors of GSM cell(s) found from the measurement data. Only the N best scanned UMTS cells per carrier are included in the analysis, where N is user definable. Only the missing neighbors measured for longer than user definable time threshold are reported.

Missing neighbor analysis GSM

List of possible missing GSM neighbors found from the measurement data, where only missing neighbors withing user-definable window from the serving cell are considered. Missing neighbors measured longer than user definable time threshold are reported.

Missing neighbor analysis UMTS inter-system

List of possible missing GSM neighbors of UMTS cell(s) found from the measurement data. Only the N best scanned GSM BCCH channels are included in the analysis, where N is user definable. Only the missing neighbors measured for longer than user definable time threshold are reported.

Missing neighbor analysis UMTS intra-frequency

List of possible missing neighbors found from the measurement data, where the missing neigbor Ec/N0 is within user defined window from the best active set cell Ec/N0. Only the missing neighbors measured for longer than user definable time threshold are reported.

Missing neighbor analysis UMTS inter-frequency

List of possible UMTS inter-frequency missing neighbors found from the measurement data, where the missing neigbor Ec/N0 is within user defined window from the best active set cell Ec/N0. Only the missing neighbors measured for longer than user definable time threshold are reported.

Missing neighbor analysis CDMA

List of all missing neighbor and best active set cell pairs where the missing neighbor is within user defined window from the best active set cell.

Missing neighbor analysis UMTS based on detected set

List of all missing neighbor and best active set cell pairs where the missing neighbor is within user defined window from the best active set cell. Missing neighbor detection is done by comparing mobile 1st active set cell measurements and detected set measurements. Scanner is not needed.

MOS DL analysis LTE IMS voice

Grid of all DL MOS samples, with the average value of all key RF and LTE IMS voice parameters from the time period of the MOS speech sample

MOS DL analysis GSM

Grid of all DL MOS samples, with the average value of all key RF parameters from the time period of the MOS speech sample

MOS DL analysis GSM and UMTS

Grid of all DL MOS samples, with the average value of all key RF parameters from the time period of the MOS speech sample

MOS DL analysis GSM and UMTS limited parameter set

Grid of all DL MOS samples, with the average value of the most important RF parameters from the time period of the MOS speech sample

GSM hopping channel interference analysis

Lists all hopping channels in the measurement data, ordered by the average C/I. Helps in spotting the traffic channels with interference. Drill down is possible from each channel to look the C/I on the map.

Problem survey per category Distribution of all failure events found in the measurements data, grouped by failure type. Drill down is possible to each group, and further to individual failures by double-clicking on the pie, or legend.

Problem survey per file

Number of different failure events found in the measurements data, grouped by the measurment type. Drill down is possible to each file by right-clicking on the row.

Problem survey per cell

Number of different failure events found in the measurements data, grouped by the cell. Drill down is possible to each cell by double-clicking on the row.

UMTS SHO overhead (%) RNC level

Percentage of cell level SHO overhead calculated with following formula: ((AS_size_1_count + AS_size_2_count + AS_size_3_count)/(AS_size_1_count + AS_size_2_count / 2 + AS_size_3_count / 3)1)*100

UMTS SHO overhead (%) cell level

Percentage of cell level SHO overhead calculated with following formula: ((AS_size_1_count + AS_size_2_count * 2 + AS_size_3_count * 3)/(AS_size_1_count + AS_size_2_count + AS_size_3_count)1)*100

HSUPA low throughput root cause analysis

Gives the reason for low throughput in HSUPA. Threshold for low throughput is user-definable, root causes are not give for throughputs higher than the threshold. Diagnostic is calculated only for HSUPA data collected during uplink data transfer. Applicaple for Qualcomm-chipset terminals data only.

UMTS 900 band clearance analysis

Automatically detects and lists interfering GSM channels on the UMTS 900 band. It can be drilled down with double-click from each channel to see situation in map. Input parameters: ARFCN range to be analysed and Rx level threshold. If needed ARFCN range spans over EGSM and GSM bands, then two ranges may be defined EGSM (975-1023) and GSM900 (0-124).

EVDO mobile cross-feeder/overspilling analysis

Number of samples measured in cell service area, and number of samples measured out of the service area reported per each cell. Only the samples where the cell was stongest are considered. Serving area is defined by the beam width in degrees, and cell radius in meters. Results are in descending order by number of samples out of the serving area, giving first in the list the possible cross-feeder and overspilling cases

CDMA mobile cross-feeder/overspilling analysis

Number of samples measured in cell service area, and number of samples measured out of the service area reported per each cell. Only the samples where the cell was stongest are considered. Serving area is defined by the beam width in degrees, and cell radius in meters. Results are in descending order by number of samples out of the serving area, giving first in the list the possible cross-feeder and overspilling cases

EVDO scanner cross-feeder/overspilling analysis

Number of samples measured in cell service area, and number of samples measured out of the service area reported per each cell. Only the samples where the cell was stongest are considered. Serving area is defined by the beam width in degrees, and cell radius in meters. Results are in descending order by number of samples out of the serving area, giving first in the list the possible cross-feeder and overspilling cases

CDMA scanner cross-feeder/overspilling analysis

Number of samples measured in cell service area, and number of samples measured out of the service area reported per each cell. Only the samples where the cell was stongest are considered. Serving area is defined by the beam width in degrees, and cell radius in meters. Results are in descending order by number of samples out of the serving area, giving first in the list the possible cross-feeder and overspilling cases

GSM mobile cross-feeder/overspilling analysis

Number of samples measured in cell service area, and number of samples measured out of the service area reported per each cell. Only the samples where the cell was stongest are considered. Serving area is defined by the beam width in degrees, and cell radius in meters. Results are in descending order by number of samples out of the serving area, giving first in the list the possible cross-feeder and overspilling cases

GSM scanner cross-feeder/overspilling analysis

Number of samples measured in cell service area, and number of samples measured out of the service area reported per each cell. Only the samples where the cell was stongest are considered. Serving area is defined by the beam width in degrees, and cell radius in meters. Results are in descending order by number of samples out of the serving area, giving first in the list the possible cross-feeder and overspilling cases

UMTS mobile cross-feeder/overspilling analysis

Number of samples measured in cell service area, and number of samples measured out of the service area reported per each cell. Only the samples where the cell was stongest are considered. Serving area is defined by the beam width in degrees, and cell radius in meters. Results are in descending order by number of samples out of the serving area, giving first in the list the possible cross-feeder and overspilling cases

UMTS scanner cross-feeder/overspilling analysis

Number of samples measured in cell service area, and number of samples measured out of the service area reported per each cell. Only the samples where the cell was stongest are considered. Serving area is defined by the beam width in degrees, and cell radius in meters. Results are in descending order by number of samples out of the serving area, giving first in the list the possible cross-feeder and overspilling cases

Scrambling code clash analysis

Finds Scrambling codes where the scrambling code has been among the top N of the scanned scrambling codes, and the scanner has decoded two or more different cell IDs within user-defined distance for the same scrambling code

BCCH clash analysis

Finds BCCH channels where the BCCH has been among the top N of the scanned BCCHs, and two or more different BSICs have been decoded within user-defined distance for the same BCCH

BCCH clash analysis drilldown route

Finds BCCH channels where the BCCH has been among the top N of the scanned BCCHs, and two or more different BSICs have been decoded within user-defined distance for the same BCCH

Pilot pollution analysis UMTS scanner

List of cells where pilot pollution occured. Top 10 polluter cells are also listed. Pilot pollution is defined as: Number of simultaneously measured cells within user defined window from the best cell in terms of Ec/N0 is above user defined threshold, when best cell RSCP is above user defined threshold.

Call attempt failure analysis Call drop analysis

Uses neighbour cell count, signal strength / quality between serving cell and neighbour cells to find reason dropped call.

Audio quality MOS analysis per call RRC connection drop analysis RRC connection attempt failure analysis RACH failure analysis LTE scanner cross-feeder analysis

Compares RSRP between antenna ports to find possible cross-feeders. Delta will be calculated for every PCI and the highest delta among PCIs of one event will be reported. For every PCI at least one TX port must have better RSRP than the given RSRP threshold filter, then the delta between ports is calculated and the difference is reported if it's bigger than the given difference threshold filter.

LTE scanner cell counter

Finds unique cells using location estimate.

LTE mobile cell locator

Finds unique cells using location estimate.

LTE scanner cell locator

Finds unique cells using location estimate.

UMTS scanner cell locator

Finds unique cells using location estimate.

UMTS mobile cell locator

Finds unique cells using location estimate.

CDMA Markov expected mux Recorded when the mobile reports the information.

Markov actual mux

Recorded when the mobile reports the information.

Transfer reason

Recorded when values are received from the mobile in slotted mode.

Pilot number

Recorded when values are received from the mobile in slotted mode.

Walsh code for paging indicators

Recorded when values are received from the mobile in slotted mode.

Paging indicator power offset

Power difference between paging indicator and pilot channel.

Broadcast indicator support

Recorded when values are received from the mobile in slotted mode.

Broadcast indicator walsh code

Recorded when values are received from the mobile in slotted mode.

Broadcast indicator power level

Recorded when values are received from the mobile in slotted mode.

Configuration change indicator support

Recorded when values are received from the mobile in slotted mode.

Configuration change walsh code

Recorded when values are received from the mobile in slotted mode.

Configuration change power level

Recorded when values are received from the mobile in slotted mode.

Indicator demodulation result

Recorded when values are received from the mobile in slotted mode.

Indicator type

Recorded when values are received from the mobile in slotted mode.

THB threshold for paging indicator

Recorded when values are received from the mobile in slotted mode.

THI threshold for paging indicator

Recorded when values are received from the mobile in slotted mode.

Indicator position

Recorded when values are received from the mobile in slotted mode.

Indicator amplitude on I channel Recorded when values are received from the mobile in slotted mode.

Indicator amplitude on Q channel

Recorded when values are received from the mobile in slotted mode.

Common pilot energy

Recorded when values are received from the mobile in slotted mode.

Diversity pilot energy

Recorded when values are received from the mobile in slotted mode.

RX power antenna 0 RX power antenna 1 RSCP active set Nth best RSCP active set RSCP candidate set RSCP neighbor set RSCP remainder set R-SCH1 to pilot ratio R-DCCH to pilot ratio F-SCH1 current power control subchannel outer loop setpoint F-SCH1 minimum power control subchannel outer loop setpoint F-SCH1 maximum power control subchannel outer loop setpoint F-DCCH current power control subchannel outer loop setpoint F-DCCH minimum power control subchannel outer loop setpoint F-DCCH maximum power control subchannel outer loop setpoint Active set best cell BTS ref. information Information on best serving cell from the BTS reference file

Cell name active set best (BTS ref.)

Name of the best serving cell from the BTS reference file

Measured cell list (BTS ref.)

Distincs list of measured active, candidate, neighbor, and remainder cells by the mobile

Ec/Io neighbour set with BTS ref. information Information on active set from the BTS reference file

Ec/Io candidate set with BTS ref. information Information on active set from the BTS reference file

Ec/Io active set with BTS ref. information

Information on active set from the BTS reference file

Serving system and band

Recorded when channel configuration information changes.

Serving system

Recorded when channel configuration information changes.

Serving band

Recorded when channel configuration information changes.

Number of missing CDMA neighbors PHCHI info Rake finger allocation FER

Total (fundamental channel + supplemental channel) frame error rate value reported by mobile.

FER FER FER FER

F-FCH target F-SCH0 target F-DCCH target F-FCH

FER F-SCH0 FER F-DCCH Missing neighbor Ec/I0 Missing neighbor diff. to strongest Difference between missing neighbor and the best cell seen by the terminal in dB

Missing neighbor RSCP L3 signaling

Recorded when a Layer 3 or an NAS signaling message is sent or received.

L3 message search

Searches for user-defined messages, with user-defined string in the message name

Packet technology Packet technology during data transfer

Packet technology between nemo events DAA to DAD or DAF

Ec/I0 total to active set

Ratio of total Ec/I0 over all sets to total Ec/I0 over active set in decibels. Can be used to indicate pilot pollution

Ec/I0 active set combined RSCP active set combined QPCH paging indicator rate

Recorded when values are received from the mobile in slotted mode. Data rate. Currently valid values are 4800 and 9600.

Paging slot number

Recorded when values are received from the mobile in slotted mode.

Rx power Number of measured pilots Active set size Ec/I0 active set Ec/I0 active set average Ec/I0 candidate set Ec/I0 neighbor set Ec/I0 remainder set Ec/I0 active set best RSCP selected pilot number Received pilot power (dBm)

Ec/I0 selected pilot number Ec/I0 Nth best Pilot number active set best Vocoder rate forward Recorded when vocoder rate changes.

Vocoder rate reverse

Recorded when vocoder rate changes.

RLP reverse user throughput RLP forward user throughput RLP reverse retransmission rate RLP forward retransmission rate CDMA channel type Channel number T_COMP (Comparison threshold) Active set versus candidate set comparison threshold (L3 value). To get the actual T_ADD value, divide the value by two and change the sign.

MCC MIN_P_REV (Minimum protocol revision level) Mobile network code NID (Network ID) SEARCH_WIN_A (Size of active search window)

Size of active search window. Searchers are used to find multipath signals to improve signal reception. Search_Win_A (active) is used to search active and candidate pilots. Active sets are channels that are associated with the forward channel traffic which are assigned to the mobile station. Candidate pilots are searched from additional multipaths in the same channels.

SEARCH_WIN_R (Size of remaining search window)

Searchers are used to find multipath signals to improve signal reception. Search_Win_R (remaining) is used to search the remaining pilot set. Remaining set of all possible pilots in the system that are not currently assigned to any of the other sets.

SEARCH_WIN_N (Size of neighbor search window)

Size of neighbor search window. Searchers are used to find multipath signals to improve signal reception. Search_Win_N (neighbor) is used to search adjacent pilots. Candidate set of pilots received by the mobile station whose power exceeds a certain threshold and could be demodulated.

SID (System ID) T_ADD (Pilot detection threshold)

To get the actual T_ADD value, divide the value by two and change the sign.

T_DROP (Pilot drop threshold)

To get the actual T_ADD value, divide the value by two and change the sign.

T_TDROP (Pilot drop timer threshold) Slotted mode

Slotted mode is used for power conservation while a mobile station is in idle mode. The MS monitors only selected time slots on the Paging Channel.

L3 signaling parameter search

Searches for user-defined text inside decoded messages, and returns the following field for the first match. With the search start text it is possible to configure, that search starts after first occurence of another text in the decoded message

Missing neighbor analysis CDMA

List of all missing neighbor and best active set cell pairs where the missing neighbor is within user defined window from the best active set cell.

Pilot pollution number of polluting cells

Number of (EcIo>EcIo_Tadd) > 3 and (EcIo_max -EcIo_min) within 3dB

Downlink Band Number of pilots above Ec/I0 threshold

Number of pilots where the Ec/I0 is higher than user-definable threshold

Number of cells within X dB window from the best

Number of cells where the Ec/I0 is within user-definable window from the best cell

Cell reselection Handover events Handover attempt Handover success Handover duration Markov frame error rate Markov frame rates Burst frame error rate Pilot number Nth best Searcher state Searcher queue Searcher priority Searcher frequency offset Searcher status per pilot Searcher status peak F-FCH current setpoint F-FCH minimum setpoint F-FCH maximum setpoint F-SCH0 current setpoint F-SCH0 minimum setpoint F-SCH0 maximum setpoint CDMA Scanner

RSCP selected channel RSCP selected pilot number RSCP best Delay selected channel The time difference between actual received signal and expected point in time derived from the GPS time.

Delay The time difference between actual received signal and expected point in time derived from the GPS time. This parameter is also known as time offset.

Delay profile RSSI

Wide-band carrier power including thermal noise, co-carrier and adjacent carrier interference, and noise generated in the receiver.

RSSI selected carrier Ec/Io Ec/Io selected channel Ec/Io selected pilot number Pilot number best Ec/Io best Ec/Io Nth best RSCP Nth best selected carriers Ec/I0 Nth best selected carriers L3 signaling Scanning configuration Defines scanning settings.

Number of pilots within X dB window from the best Number of cells where the Ec/I0 is within user-definable window from the best cell

RSCP Nth best Delay spread selected channel

The time between the first and the last multi-path peak component inside the search window above the PN threshold.

CDMA:Data Packet technology during data transfer Packet technology between nemo events DAA to DAD or DAF

CDMA:Finger Transmit diversity power level Subchannel Locked antennas Ec/I0 antenna 0 Ec/I0 for finger tracking RX0

Ec/I0 antenna 1

Ec/I0 for finger tracking RX1

Ec/I0

If antenna configuration is 2, then this represents Ec/Io for the paired fingers.

Reference finger Assigned finger Transmit diversity mode CDMA:Power control

Percentage of "DL power up" commands Forward power control subchannel indicator Subchannel indicator is set by the BTS to indicate to a MS if the primary inner loop estimation should be preformed on the received F-FCH or F-DCH.

Forward power control operation mode indicator

Forward Power Control (FPC) is used by the Mobile Station (MS) to control the power levels on a traffic channel to optimize the Frame Error Rate (FER). There are several different FPC modes explained in 3GPP2 C.S0011-E.

Forward power control subchannel gain

See 3GPP2 C.S0005-F subclause 3.7.2.3.2.21.

Percentage of "UL power up" commands TX power TX power control step size Upper limit on TX power Closed loop adjustment Max power limited Reports whether max power protection is in effect.

R-FCH to pilot ratio R-SCH0 to pilot ratio CDMA:RACH

Access channel number Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

PN randomization delay

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

INIT_PWR (access probe initial power)

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Initial power is a correction factor used by mobile stations in open-loop power estimation for initial transmission on an Access Channel.

Probe TX level

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

Probe count

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

Probe seq. count

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Access probe sequence count.

PWR_STEP (access probe power step)

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Mobile stations increase the transmission power in an access probe sequence.

Access nominal transmit power offset

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Nominal transmit power offset is a correction factor used by mobile stations in open-loop power estimation.

NUM_STEP (access probe number of steps)

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Access probes consist of a preamble and a message for channel access. Access probes are sent in a sequence of one or more access probes. Transmitted power is incremented in each probe. Note that the parameter value is one less than the actual maximum number of steps.

Number of persistence tests performed

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Persistence is a probability measurement done by the mobile station to determine if it should transmit on a given access channel.

Sequence backoff

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Time between access probe sequences.

Probe backoff

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Time between access probes.

Inteference correction Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

Interference correction is calculated from the Ec/I0 of the strongest active set pilot and from the interference correction threshold.

Transmit gain adjust

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

Time to complete the attempt

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

CDMA:RLP statistics Service ID Number of resets Received fill frames Received blank frames Received null frames Received new data frames Received fundamental data frames Received bytes Received RLP erasures Received multiplexer erasures Transmitted NAKs Transmitted retransmitted frames Number of NAK aborts Transmitted idle frames Transmitted new data frames Transmitted fundamental data frames Transmitted bytes Last RTT Number of 20-ms time frames for the last round-trip time measurement

Block of bytes used Received NAKs

Total number of negative acknowledgement frames received.

Largest block of consecutive erasures Number of retransmitted frames not found Received retransmitted frames Received idle frames CDMA:SHO Soft-softer handover status CDMA

Status of the soft handover. Soft:2-way HO to 2 distinct sites, Softer: 2-way HO to cells of 1 distinct site, SoftSofter: 3-way HO to cells of 2 distinct sites, Soft-Soft: 3-way HO to 3 distinct sites, Softer-Softer: 3-way handoff to cells of 1 distinct site, 4-way soft: all 4-way soft and softer HOs, 5-way soft: all 5-way soft and softer HOs, 6-way soft: all 6-way soft and softer HOs, 2-way, soft-softer status unknown: 2-way HO where there is no BTS reference available, 3-way, soft-softer status unknown: 3-way HO where there is no BTS reference available

Soft handover

Recorded when the active set changes. Event information is based on RRC signaling with UMTS FDD.

Number of pilots added

Recorded when the active set changes. Event information is based on RRC signaling with UMTS FDD.

Number of pilots removed

Recorded when the active set changes. Event information is based on RRC signaling with UMTS FDD.

Added pilot number Removed pilot number Soft handover failure

CDMA:Service configuration Service option Forward traffic type F-DCCH radio configuration R-DCCH radio configuration F-SCH multiplex option F-SCH radio configuration F-SCH coding F-SCH frame size F-SCH frame offset F-SCH maximum rate R-SCH multiplex option R-SCH radio configuration Reverse traffic type R-SCH coding R-SCH frame size R-SCH frame offset R-SCH maximum rate Encryption mode F-FCH and F-DCCH multiplex option R-FCH and R-DCCH multiplex option F-FCH bits per frame R-FCH bits per frame F-FCH radio configuration R-FCH radio configuration Circuit-switched data Requested CS bitrate Indicates the requested data call resources. Recorded when data call is initiated or reconfigured.

Channel coding Recorded when data call resources have changed.

CS data mode

Indicates the requested data call resources. Recorded when data call is initiated or reconfigured.

Modem type

Indicates the requested data call resources. Recorded when data call is initiated or reconfigured.

Number of UL timeslots

Recorded when data call resources have changed. Number of CS data timeslots uplink.

Number of DL timeslots

Recorded when data call resources have changed. Number of CS data timeslots downlink.

CS data timeslots uplink CS data timeslots downlink Data channel request UMTS

Indicates the requested data call resources. Recorded when data call is initiated or reconfigured.

Data channel request GSM

Indicates the requested data call resources. Recorded when data call is initiated or reconfigured.

RRLP signaling

Recorded when an RRLP signaling message is sent or received.

DVB-H DVB type

Recorded when DVB-H channel configuration changes.

DVB-H service state

Recorded when DVB-H channel configuration changes.

DVB-H frequency

Recorded when DVB-H channel configuration changes.

DVB-H cell ID

Recorded when DVB-H channel configuration changes.

DVB-H transmission mode

Recorded when DVB-H channel configuration changes. Also known as OFDM mode or FFT length.

DVB-H modulation

Recorded when DVB-H channel configuration changes.

DVB-H code rate low priority

Recorded when DVB-H channel configuration changes.

DVB-H code rate high priority

Recorded when DVB-H channel configuration changes.

DVB-H guard time

Recorded when DVB-H channel configuration changes.

DVB-H MPE-FEC code rate low priority

Recorded when DVB-H channel configuration changes.

DVB-H MPE-FEC code rate high priority

Recorded when DVB-H channel configuration changes.

DVB-H hierarchy

Recorded when DVB-H channel configuration changes.

DVB-H FER before FEC

Recorded when parameter sample is received from the device and the received sample differs from the previous result.

DVB-H FER after FEC

Recorded when parameter sample is received from the device and the received sample differs from the previous result.

DVB-H frame count

Recorded when parameter sample is received from the device and the received sample differs from the previous result.

DVB-H FER and MFER

Parameter show 0 when FER = 0 and MFER = 0. 1 when FER > 0 and MFER = 0. 2 when FER > 0 and MFER > 0.

DVB-H BER before viterbi

Recorded when parameter sample is received from the device and the received sample differs from the previous result.

DVB-H BER after viterbi

Recorded when parameter sample is received from the device and the received sample differs from the previous result.

DVB-H Rx level best

The best value of Rx level over the reporting period

DVB-H Rx level

Recorded when parameter sample is received from the device.

DVB-H carrier to noise ratio

Recorded when parameter sample is received from the device.

DVB-H signal quality

Recorded when parameter sample is received from the device.

DVB-H throughput

Recorded when parameter sample is received from the device.

DVB-H Scanner Frequency Carrier RSSI DVB-H MER Scanning configuration Defines scanning settings.

EVDO Random variable Random variable represents the random variable that was used to calculate the new reverse rate (Rev 0 only).

Transition probability

Transition probability that was used to calculate the new reverse rate (Rev 0 only).

Condition RRI

Condition reverse rate provides the reverse rate that was calculated based on the above factors (Rev 0 only).

Actual RRI

Actual reverse rate. This should be less than condition RRI or there is not enough data to be sent (Rev 0 only).

Padding bytes

Number of padding bytes included in the reverse link packets (Rev 0 only).

Multiuser ACK ratio DRC gain boost DSC gain boost Slot for DRC lock update ACK channel status Forced ACK/NAK ratio

Represents the ratio of forced ACK/NAKs.

ACK ratio Physical layer throughput UL per carrier Physical layer throughput DL per carrier Active users EVDO MCC See ITU-T recommendation E.212.

EVDO MNC Search window activate set Search window candidate set Search window neighbor set Pilot add Pilot drop Pilot compare Pilot drop timer Soft slope Inequality criterion for adding or dropping a pilot from the active set.

Add intercept Drop intercept Set maximum age Channel number RX power EV RSCP active set Nth best EV RSCP active set EV RSCP candidate set EV RSCP neighbor set EV RSCP remainder set Reverse activity bit DRC lock period

DRC lock period indicates which RPC bits are 'hold' (Rel 0).

TX throttle

TX throttle indicates how often TX channel gains are being throttled during the previous reporting period (Rev A).

TX max power usage

Indicates how often TX AGC was at maximum power during the previous reporting period.

TX min power usage

Indicates how often TX AGC was at minimum power during the previous reporting period.

Transmission mode

Indicates the transmission mode of the data packets being transmitted (Rev A).

Physical layer packet size.

RRI channel to pilot ratio (Rev A). DSC channel to pilot ratio (Rev A). AUX channel to data channel ratio Number of "UL power hold" commands Number of received "UL power hold" commands (BTS to mobile).

TX T2P FRAB

Fast reverse activity bit soft decision max.

QRAB

Quick reverse activity bit hard decision.

QRABps

Quick reverse activity bit value based on pilot strength.

Active set best cell BTS ref. information

Information on best serving cell from the BTS reference file

Cell name active set best EVDO (BTS ref.)

Name of the best serving cell from the BTS reference file

Measured cell list (BTS ref.)

Distincs list of measured active, candidate, neighbor, and remainder cells by the mobile

EV Ec/Io neighbour set with BTS ref. information Information on active set from the BTS reference file

EV Ec/Io candidate set with BTS ref. information Information on active set from the BTS reference file

EV Ec/Io active set with BTS ref. information Information on active set from the BTS reference file

PER single-user

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Separate measurement event is logged for each serving cell with LTE.

PER multi-user

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Separate measurement event is logged for each serving cell with LTE.

PER reverse

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Separate measurement event is logged for each serving cell with LTE.

Physical layer throughput UL

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Separate measurement event is logged for each serving cell with LTE.

Physical layer throughput DL

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Separate measurement event is logged for each serving cell with LTE.

Single-user throughput DL

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Separate measurement event is logged for each serving cell with LTE.

Multi-user throughput DL

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Separate measurement event is logged for each serving cell with LTE.

DRC set percentage

Recorded when parameter sample is received from the device.

Packet technology EV Ec/I0 total to active set

Ratio of total Ec/I0 over all sets to total Ec/I0 over active set in decibels. Can be used to indicate pilot pollution

Soft-softer handover status EVDO

Status of the soft handover. Soft:2-way HO to 2 distinct sites, Softer: 2-way HO to cells of 1 distinct site, SoftSofter: 3-way HO to cells of 2 distinct sites, Soft-Soft: 3-way HO to 3 distinct sites, Softer-Softer: 3-way handoff to cells of 1 distinct site, 4-way soft: all 4-way soft and softer HOs, 5-way soft: all 5-way soft and softer HOs, 6-way soft: all 6-way soft and softer HOs, 2-way, soft-softer status unknown: 2-way HO where there is no BTS reference available, 3-way, soft-softer status unknown: 3-way HO where there is no BTS reference available

EV Ec/I0 active set combined EV RSCP active set combined Access terminal state Packet channel type Packet carrier number DRC index Average over 16 samples.

DRC index per carrier PER instantaneous per carrier Recorded when frame error rate reports are received from the device.

PER short per carrier

Recorded when frame error rate reports are received from the device.

PER long per carrier

Recorded when frame error rate reports are received from the device.

Signal-to-interference and noise ratio Signal-to-interference and noise ratio Nth best Number of measured pilots evdo EV RSCP selected pilot number Received pilot power (dBm)

EV Ec/I0 selected pilot number Unexpected P-ARQ NACKs Number of P-ARQ NACKs received after an H-ARQ ACK was already received for same packet.

HiCap Subpacket 0 ACKs HiCap Subpacket 1 ACKs HiCap Subpacket 2 ACKs HiCap Subpacket 3 ACKs HiCapp ARQ NACKs LoLat Subpacket 0 ACKs LoLat Subpacket 1 ACKs LoLat Subpacket 2 ACKs LoLat Subpacket 3 ACKs LoLat P-ARQ NACKs TC packets good TC packes bad TC packets decoded in selected slot Multi carrier forward link packet header info Recorded when parameters change.

RX power antenna 0 RX power antenna 1 EV Active set size EV Ec/I0 active set EV Ec/I0 candidate set EV Ec/I0 neighbor set EV Ec/I0 remainder set EV Ec/I0 active set best EV Ec/I0 Nth best EV Pilot number active set best Reportable This parameter is only valid for EVDO Rev B active set cells.

Scheduler tag

This parameter is only valid for EVDO Rev B active set cells.

RLP reverse user throughput RLP forward user throughput RLP reverse retransmission rate RLP forward retransmission rate SID (System ID) EV Number of cells within X dB window from the best Number of cells where the Ec/I0 is within user-definable window from the best cell

EV Number of pilots above Ec/I0 threshold

Number of pilots where the Ec/I0 is higher than user-definable threshold

Handover events Handover attempt Handover success SNP signaling

Recorded when an SNP signaling message is sent or received.

Burst frame error rate

EV Pilot number Nth best PER instantaneous Recorded when frame error rate reports are received from the device.

PER short

Recorded when frame error rate reports are received from the device.

PER long

Recorded when frame error rate reports are received from the device.

Searcher state Searcher window size Searcher MSTR Searcher status per pilot Searcher status peak Sector ID

128-bit sector address of the serving sector.

Sector subnet identifier Hybrid mode Reverse rate limit (Rev 0 only) Recorded when parameters change.

Current rate (Rev 0 only)

Recorded when parameters change.

Combined busy bit (Rev 0 only) Recorded when parameters change. Reverse Activity Bit (RAB) is a control bit sent in regular intervals that indicates if the access network is busy or not.

Maximum PA headroom available (Rev 0 only) Recorded when parameters change.

DRC cover

Cover used to transmit DRC.

DSC value

Data source control value transmitted by the mobile (Rev A only).

MAC index DRC cover per pilot RPC cell index DRC lock Slot FRAB

Slot fast reverse activity bit.

Slot QRAB

Slot quick reverse activity bit.

EVDO Scanner EV RSCP selected channel EV RSCP selected pilot number EV RSCP best Delay selected carrier The time difference between actual received signal and expected point in time derived from the GPS time.

EV RSCP Nth best selected carriers EV Ec/I0 Nth best selected carriers SNP signaling

Recorded when an SNP signaling message is sent or received.

RSSI selected carrier Ec/I0 Ec/I0 selected carrier Ec/I0 selected pilot number Ec/I0 best EV Ec/I0 Nth best EV RSCP Nth best RSSI Delay spread selected carrier

The time between the first and the last multi-path peak component inside the search window above the PN threshold.

EVDO:Connection Connection attempt Recorded when connection layer is connected.

Connection release

Recorded when connection layer is released.

ALMP state Initialization protocol state Idle protocol state Connected protocol state Route update protocol state Overhead message protocol state EVDO:FCH packets CC38400 Good

Counter for 38.4 k control channel packets with good CRC

CC38400 Bad

Counter for 38.4 k control channel packets with bad CRC

TC307200Short Good

Counter for 302.2 (short) traffic channel packets with good CRC

TC307200Short Bad

Counter for 302.2 (short) traffic channel packets with bad CRC

TC307200Long Good

Counter for 307.2 (long) traffic channel packets with good CRC

TC307200Long Bad

Counter for 307.2 (long) traffic channel packets with bad CRC

TC614400Short Good

Counter for 614.4 k (short) traffic channel packets with good CRC

TC614400Short Bad

Counter for 614.4 k (short) traffic channel packets with bad CRC

TC614400Long Good

Counter for 614.4 k (long) traffic channel packets with good CRC

TC614400Long Bad

Counter for 614.4 k (long) packets decoded in 2 slots

TC921600 Good

Counter for 921.6 k traffic channel packets with good CRC

TC921600 Bad

Counter for 921.6 k traffic channel packets decoded with bad CRC

CC76800 Good

Counter for 76.8 k control channel packets with good CRC

TC1228800Short Good

Counter for 1228.8 k (short) traffic channel packets with good CRC

TC1228800Short Bad

Counter for 1228.8 k (short) traffic channel packets with bad

TC1228800Long Good

Counter for 1228.8 (long) traffic channel packets with good CRC

TC1228800Long Bad

Counter for 1228.8 (long) traffic channel packets with bad CRC

TC1843200 Good

Counter for 1843.2 k traffic channel packets with good CRC

TC1843200 Bad

Counter for 1843.2 k traffic channel packets with bad CRC

TC2457600 Good

Counter for 2457 k traffic channel packets with good CRC

TC2457600 Bad

Counter for 2457 k traffic channel packets with bad CRC

CC76800 Bad

Counter for 76.8 k control channel packets with bad CRC

TC38400 Good

Counter for 38.4 k traffic channel packets with good CRC

TC38400 Bad

Counter for 38.4 k traffic channel packets with bad CRC

TC76800 Good

Counter for 76.8 k traffic channel packets with good CRC

TC76800 Bad

Counter for 76.8 k traffic channel packets with bad CRC

TC153600 Good Counter for 156.6 k traffic channel packets with good CRC

TC153600 Bad

Counter for 156.6 k traffic channel packets with bad CRC

EVDO:Finger Ec/I0 If antenna configuration is 2, then this represents Ec/Io for the paired fingers.

Ec/I0 antenna 0

Ec/I0 for finger tracking RX0

Ec/I0 antenna 1

Ec/I0 for finger tracking RX1

Finger locked Absolute finger offset

Note that the accuracy can be greater than one chip.

Pilot number Finger index

Index of the demodulator finger

RPC cell index

Value/index assigned to a cell by AT.

ASP index

Value/index assigned to a sector by AT.

EVDO:Power control Power limited/Channel Power amplifier/Channel Percentage of "UL power up" commands TX power TX power (rev B) Closed loop adjustment value Closed loop adjustment value (rev B) TX pilot power TX open loop power TX power determined by the open loop adjust mechanism

TX pilot power (rev B) DRC channel to pilot ratio ACK channel to pilot ratio Data channel to pilot ratio PA max Maximum recommended headroom available (Rev A). The mobile station indicates the available Power Amplifier (PA) headroom to the access network. The access network can assign carriers based on the mobile stations available power amplifier headroom.

EVDO:RACH

Number of probes sent in last probe sequence Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

Number of probe sequences sent for this access attempt

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

Maximum number of probe sequences

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

Probe sequence result

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

Number of probes per probe sequence

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

Access PN

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. PN of the sector that sends the ACAck or the TCA message.

Access sector ID

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Sector ID on which the access probe was sent.

Access color code

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Color code on which the access probe was sent.

EVDO:RLP statistics Service ID Identifies RLP service.

Received NAKs Retransmitted bytes Transmitted new data bytes Transmitted bytes NAK timeouts Contains NAK timeouts and aborts.

Reset count

Total resets that have occurred, initiated either by the AN or the AT.

Resets requested by the AT Reset ACKs received from the AN Resets requested by the AN Received NAKs in bytes Number of retransmitted frames not found Received duplice bytes Received retransmitted bytes Received new data bytes Received bytes Transmitted NAKs Transmitted NAKs in bytes Received frames Received new frames Received retransmitted frames Received frames with first data unit Received frames with last data unit Transmitted frames Transmitted new frames Retransmitted frames Transmitted frames with first data unit

Transmitted frames with last data unit Link flow ID Route number Flow protocol Route protocol Packet stream Whether link flow is packet-based.

Sequence type

Whether link flow is doing segment-based sequencing.

Multilink Multilink Multilink Multilink

multi-flow multi-flow multi-flow multi-flow

RLP RLP RLP RLP

forward link statistics forward link QN instance statistics reverse link statistics RX processing statistics

EVDO:Session Session attempt Session state Summary session layer states

GAN Serving system and band Recorded when channel configuration information changes.

Serving system

Recorded when channel configuration information changes.

Serving band

Recorded when channel configuration information changes.

Signal quality serving Signal quality neighbours RSSI serving RSSI neighbours Location area update failure

Recorded based on MM layer3 signaling when location area update has failed. This measurement event terminates the location area update state.

Location area update attempt

Recorded when the mobile starts location area update using MM layer3 signaling message. This measurement event begins the location area update state.

Location area update success

Recorded based on MM layer3 signaling when location area update has been successful. This measurement event terminates the location area update state.

Location area update time Routing area update failure

Recorded based on GMM signaling when routing area update is successful. This measurement event terminates the routing area update attempt state.

Routing area update attempt

Recorded based on GMM signaling when routing area update is attempted. This measurement event begins the routing area update attempt state.

Routing area update success

Recorded based on GMM signaling when routing area update is successful. This measurement event terminates the routing area update attempt state.

Routing area update time Cell identification

Cell identity of the current cell. For GSM this is 16 bit value, for UMTS this is 28 bit value (RNC ID + 16 bit cell ID), and for LTE this is 28 bit value (eNB ID + 8 bit cell ID).

Location area code GAN state

Recorded when GAN-specific channel information changes.

GAN channel number Recorded when GAN-specific channel information changes.

GAN base station identification code

Recorded when GAN-specific channel information changes.

GANC IP address GANC security gateway IP address

Recorded when GAN-specific channel information changes.

L3 signaling

Recorded when a Layer 3 or an NAS signaling message is sent or received.

GAN signaling Packet technology Packet technology during data transfer

Packet technology between nemo events DAA to DAD or DAF

Packet state Routing area code LLC throughput uplink

The value of this parameter is calculated based on the SDUs that are stransferred through the LLC layer. Missing and erroneous LLC blocks are excluded from the throughput calculation.

LLC throughput downlink

The value of this parameter is calculated based on the SDUs that are successfully transferred through the LLC layer. Missing and erroneous LLC blocks are excluded from the throughput calculation.

LLC retransmission rate uplink Cell reselection Handover events Handover attempt Handover success Handover failure WLAN throughput uplink WLAN throughput downlink GSM

Serving and neighbor cell information Information on serving and neighbouring cels from the BTS reference file

Measured cell list mobile GSM (BTS ref.)

List of distinct serving and neighbouring cells measured by the mobile.

Serving cell BTS ref. information

Information on best serving cell from the BTS reference file

Cell name (BTS ref.)

Name of the best serving cell from the BTS reference file

Serving system and band

Recorded when channel configuration information changes.

Serving system

Recorded when channel configuration information changes.

Serving band

Recorded when channel configuration information changes.

BCCH and BSIC (octal)

This parameter returns BCCH and BSIC of the serving cell. BCCH and BSIC are concatenated as one integer, where two last digits represent the BSIC.

BCCH and BSIC (decimal)

This parameter returns BCCH and BSIC of the serving cell. BCCH and BSIC are concatenated as one integer, where two last digits represent the BSIC.

Base station identification code Base station identity code (octal) Network color code Base station color code RX level full

The received signal level of all TDMA frames. See 3GPP TS 145.008 subclause 8.4.

RX level sub

The received signal level of the subset of the TDMA frames. See 3GPP TS 145.008 subclause 8.4.

Rx level full selected BSIC Rx level sub selected BSIC Rx level full selected cell ID (BTS ref.) Coverage footprint of a cell with selected cell ID. Cell ID is looked upfrom associated BTS reference file.

Rx level sub selected cell ID (BTS ref.)

Coverage footprint of a cell with selected cell ID. Cell ID is looked upfrom associated BTS reference file.

Rx level full selected channel Rx level sub selected channel C1 criterion

Path loss criterion parameter C1 is used for cell selection and reselection. See 3GPP TS 145.008 subclause 6.4 (with GPRS, also subclause 10.1.2).

C2 criterion

The reselection criterion C2 is used for cell reselection. This parameter is used for cell reselection when the value of the path loss criterion C1 is over zero. See 3GPP TS 145.008 subclause 6.4.

Neighbor list

List of GSM and UMTS neighbors seen by the terminal

Number of missing GSM neighbors C31 criterion

The signal level threshold criterion parameter C31 is used to determine whether prioritized hierarchical GPRS and LSA cell re-selection shall apply. See 3GPP TS 145.008 subclause 10.1.2.

C32 criterion

The cell ranking criterion C32 is used in selecting cells from cells that have the same priority. See 3GPP TS 145.008 subclause 10.1.2.

HCS priority class

Defines the cell re-selection order of the cells. See 3GPP TS 145.008 subclause 10.1.3.

HCS threshold

See 3GPP TS 145.008 subclause 10.1.2.

RX quality full

Quality value measured on every TDMA frame. Use this value when DTX is inactive. See 3GPP TS 145.008 subclause 8.4.

RX quality sub

Quality value measured over the subset of every TDMA frame. Use this value when DTX is active. See 3GPP TS 145.008 subclause 8.4.

Frame error rate full

This calculation assumes all 25 frames of the SACCH multiframe have been sent. Just like RXQual Full, when DL DTX is on, FER FULL will become invalid. This is because only 2 or 3 frames are sent when DL DTX is on.

Frame error rate sub

FER Sub is calculated as the ratio of erroneous frames to number of sent frames. With EFR speech, only 2 out of the 25 are sent when DL DTX is on. With AMR speech, either 2 or 3 frames will be sent.

Frame error rate TCH

This calculation concentrates only on TCH frames. It is also more robust when DL DTX is changing. This is because it concentrates on the ratio of TCH frame errors to TCH frames sent.

DTX downlink

Defines if the DTX is used during the previous reporting period.

MS power level (dBm)

Recorded when parameter sample is received from the device and the received sample differs from the previous result.

MS power level

Recorded when parameter sample is received from the device and the received sample differs from the previous result.

Radiolink timeout

Recorded when the radio link timeout changes. The counter used in determining when the radio link failure condition is declared. The value of the counter is decreased by one when SACCH message decoding fails. When decoding succeeds, it is increased by two. If the value of the counter drops to zero, the radio link failure condition is declared. See 3GPP TS 145.008 subclause 5.

Timing advance

Recorded when timing advance changes. Reported timing advance.

C/I average

C/I average is calculated over the reporting period. The C/I average is the average of all C/I values per hopping channel (and timeslot with GPRS) when this information is available. If C/I per hopping channel or per timeslot is not available, the C/I average calculation method is vendor specific.

C/I per timeslot

Separate C/I result for each dedicated GRPS timeslot. C/I calculation method is vendor specific.

C/I per hopping channel C/I per hopping channel worst Channel number and C/I of the hopping channel with worst C/I

RSSI per hopping channel Distance based RX level average from scanner for serving cell RX level Nth best Nth best Rx level among serving and neighbouring cells.

RX level Nth best (dBuV/m)

Nth best Rx level among serving and neighbouring cells.

RX level Nth best neighbor Missing neighbor RX level Mobile country code

Recorded when service state or mobility information changes. See ITU-T recommendation E.212.

Operator Mobile network code

Recorded when service state or mobility information changes.

TMSI

Recorded when service state or mobility information changes. Temporary mobile subscriber identity. See 3GPP TS 124.008 subclause 10.5.1.4 and 3GPP TS 123.003 subclause 2.4.

P-TMSI

Recorded when service state or mobility information changes. Packet temporary mobile subscriber identity. See 3GPP TS 124.008 subclause 10.5.1.4 and 3GPP TS 123.003 subclause 2.7.

Location area update failure

Recorded based on MM layer3 signaling when location area update has failed. This measurement event terminates the location area update state.

Location area update attempt

Recorded when the mobile starts location area update using MM layer3 signaling message. This measurement event begins the location area update state.

Location area update success Recorded based on MM layer3 signaling when location area update has been successful. This measurement event terminates the location area update state.

Location area update time Routing area update failure

Recorded based on GMM signaling when routing area update is successful. This measurement event terminates the routing area update attempt state.

Routing area update attempt

Recorded based on GMM signaling when routing area update is attempted. This measurement event begins the routing area update attempt state.

Routing area update success

Recorded based on GMM signaling when routing area update is successful. This measurement event terminates the routing area update attempt state.

Routing area update time Cell identification

Cell identity of the current cell. For GSM this is 16 bit value, for UMTS this is 28 bit value (RNC ID + 16 bit cell ID), and for LTE this is 28 bit value (eNB ID + 8 bit cell ID).

Cell identifications measured RX level neighbor Location area code DTX uplink Radiolink timeout maximum

Defines the maximum value for the radio link timeout counter.

Extended channel type BCCH channel Timeslot number Hopping status HSN

Hopping sequence number. See 3GPP TS 144.018 subclause 10.5.2.5.

MAIO Mobile allocation index offset. See 3GPP TS 144.018 subclause 10.5.2.5.

Hopping channels

L3 signaling Recorded when a Layer 3 or an NAS signaling message is sent or received.

L3 message search

Searches for user-defined messages, with user-defined string in the message name

L2 signaling

Recorded when a Layer 3 or an NAS signaling message is sent or received.

L3 signaling parameter search

Searches for user-defined text inside decoded messages, and returns the following field for the first match. With the search start text it is possible to configure, that search starts after first occurence of another text in the decoded message

Measured cells GSM

Unique combinations of BSIC and BCCH.

Downlink Band Cell reselection GSM to UMTS Cell reselection inter-system Cell reselection UMTS to GSM Cell reselection Handover events Handover attempt Handover success Handover duration Handover attempt inter-system Handover attempt GSM to UMTS Handover success inter-system Handover success GSM to UMTS Handover attempt UMTS to GSM Handover success UMTS to GSM Handover failure Handover failure inter-system Handover failure UMTS to GSM Handover failure GSM to UMTS Average serving cell RX level per BCCH C/A measurement RSSI Signal strength for center channel.

C/A minimum

Carrier to adjacent channel ratio between center channel and the strongest adjacent channel.

C/A measurement RSSI -1

The RSSI value of the adjacent channel. The adjacent channel is 200 kHz lower than the frequency of the center channel.

C/A -1

The value of C/A -1 parameter is the ratio between center channel RSSI and adjacent channel RSSI. The adjacent channel frequency is 200 kHz lower than the frequency of the center channel.

C/A measurement RSSI -2

The RSSI value of the adjacent channel. The adjacent channel is 400 kHz lower than the frequency of the center channel.

C/A -2

The value of C/A -2 parameter is the ratio between center channel RSSI and adjacent channel RSSI. The adjacent channel frequency is 400 kHz lower than the frequency of the center channel.

C/A measurement RSSI +1

The RSSI value of the adjacent channel. The adjacent channel is 200 kHz higher than the frequency of the center channel.

C/A +1

The value of C/A +1 parameter is the ratio between center channel RSSI and adjacent channel RSSI. The adjacent channel frequency is 200 kHz higher than the frequency of the center channel.

C/A measurement RSSI +2

The RSSI value of the adjacent channel. The adjacent channel is 400 kHz higher than the frequency of the center channel.

C/A +2

The value of C/A +2 parameter is the ratio between center channel RSSI and adjacent channel RSSI. The adjacent channel frequency is 400 kHz higher than the frequency of the center channel.

Modulation 2G/3G

GSM Scanner Measured cell list scanner GSM (BTS ref.) List of distinct cells measured by the scanner.

C/I selected channel C/I Nth best C/I selected NCC C/I SCH RX level selected channel SCH RX level Nth best SCH RX level selected NCC SCH RX level RX level RX level selected NCC RX level selected cell ID (BTS ref.) BSIC (octal) selected channel RX level selected channel Rx level top N with BTS ref. information RX level top N Rx level top N selected channels with BTS ref. info Number of BCCHs within X dB from the best Number of cells where the RSRP is within user-definable window from the best cell

RX level top N selected channels RX level top N selected NCC RX level Nth best selected channels RX level Nth best selected channels MNC RX level MNC RX level Nth best selected channels (dBuV/m) RX level Nth best selected NCC Cell name Nth best selected channels Cell identification Nth best selected channels Cell name Nth best Cell identification Nth best Rx level Nth best selected channels with BTS ref. information Rx level Nth best selected NCC with BTS ref. information RX level Nth best RX level distance based average selected carriers RX level Nth best distance based average selected carriers Rx level Nth best with BTS ref. information BSIC Nth best BSIC Nth best (octal) Channel and BSIC Nth best

This parameter returns channel number and BSIC of the Nth best channel in terms of Rx level. Channel number and BSIC are concatenated as one integer, where two last digits represent the BSIC.

BCCH Nth best

This parameter returns BCCH of the Nth best channel in terms of Rx level.

BCCH Nth best selected channels

This parameter returns BCCH of the Nth best channel in terms of Rx level.

ARFCN Nth best selected channels

This parameter returns ARFCN (channel number) of the Nth best channel in terms of Rx level.

Frequency Nth best selected channels

This parameter returns ARFCN (channel number) of the Nth best channel in terms of Rx level.

Channel and BSIC (octal) Nth best

This parameter returns channel number and BSIC of the Nth best channel in terms of Rx level. Channel number and BSIC are concatenated as one integer, where two last digits represent the BSIC.

Channel and BSIC (octal) Nth best selected channels

This parameter returns channel number and BSIC of the Nth best channel in terms of Rx level. Channel number and BSIC are concatenated as one integer, where two last digits represent the BSIC.

L3 signaling L3 message search Searches for user-defined messages, with user-defined string in the message name

Cellscan and Scan events combined L3 signaling parameter search

Searches for user-defined text inside decoded messages, and returns the following field for the first match. With the search start text it is possible to configure, that search starts after first occurence of another text in the decoded message

Scanning configuration Defines scanning settings.

C/A

Ratio between channel and adjacent channels (dB)

C/A selected NCC

Ratio between channel and adjacent channels (dB)

Cellscan

Recorded when parameter sample is received from the device. With GSM the system information messages, and with UMTS and LTE the system information blocks, are decoded to produce the information required for this measurement event.

Interference analysis GSM:GPRS/EDGE Packet RX quality

Recorded when parameter sample is received from the device and the received sample differs from the previous result. See 3GPP TS 145.008 subclause 8.2.3.1. This parameter is only recorded for GPRS.

C value

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Received signal level of each paging block monitored by the MS according to its current DRX mode and its paging group. See 3GPP TS 145.008 subclause 10.2.3.1. This parameter is only recorded for GPRS.

Signal variance

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Average variance of signal level (C value). See 3GPP TS 145.008 subclause 10.2.3.1. This parameter is only recorded for GPRS.

Timeslot interference

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Timeslot interference level relative to C value. See 3GPP TS 145.008 subclause 10.3. This parameter is only recorded for GPRS.

Downlink signaling counter current

Recorded when downlink signaling counter value changes. The counter used in determining when the downlink signaling failure condition is declared. Whenever the message is decoded in the paging subchannel; if the message decoding is successful, the DSC counter is increased by one; if the message decoding fails, the DSC counter is decreased by four. The downlink signaling failure condition is declared if the DSC counter drops to zero or below. See 3GPP TS 145.008 subclause 6.5.

Downlink signaling counter maximum

Recorded when downlink signaling counter value changes. The maximum value of the DSC counter.

BEP mean class GMSK

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Recorded only when EGPRS is used. See 3GPP TS 145.008 subclause 8.2.3.2.

BEP CV class GMSK

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Recorded only when EGPRS is used. See 3GPP TS 145.008 subclause 8.2.3.2.

BEP mean class 8-PSK

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Recorded only when EGPRS is used. See 3GPP TS 145.008 subclause 8.2.3.2.

BEP CV class 8-PSK

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Recorded only when EGPRS is used. See 3GPP TS 145.008 subclause 8.2.3.2.

RLC/MAC and L3 signaling RLC/MAC/L3/RRC signaling DL and UL separated RLC/MAC/L3/RRC signaling RLC/MAC message search

Searches for user-defined messages, with user-defined string in the message name

RLC/MAC signaling LLC signaling

Recorded when an LLC signaling message is sent or received.

Packet technology Packet technology during data transfer

Packet technology between nemo events DAA to DAD or DAF

Packet state Routing area code Radio priority

The RLC/MAC radio priority level for uplink user data transmission.

Priority access THR

Priority access threshold.

Split PG cycle The split PG cycle parameter defines the DRX period.

Packet channel coding uplink Packet channel coding downlink Number of packet timeslots uplink Number of packet timeslots downlink Number of packet timeslots downlink and uplink Network mode of operation Network control order Incremental redundancy status uplink This is same as resegment bit in RLC/MAC signaling messages and also known as ARQ mode. See 3GPP TS 144.060 subclause 8.1.1.

PBCCH status GPRS cell reselection hysteresis GPRS cell reselection penalty time Packet timeslots downlink Packet timeslots uplink BLER DL RLC blocks total

The total number of received RLC layer PDUs.

RLC blocks erroneous

The number of erroneously received RLC layer PDUs.

RLC throughput uplink

The value of this parameter is calculated based on the SDUs that are successfully transferred through the RLC layer. Missing and erroneous RLC blocks are excluded from the throughput calculation.

RLC throughput downlink

The value of this parameter is calculated based on the SDUs that are successfully transferred through the RLC layer. Missing and erroneous RLC blocks are excluded from the throughput calculation.

RLC retransmission rate uplink LLC throughput uplink

The value of this parameter is calculated based on the SDUs that are stransferred through the LLC layer. Missing and erroneous LLC blocks are excluded from the throughput calculation.

LLC throughput downlink

The value of this parameter is calculated based on the SDUs that are successfully transferred through the LLC layer. Missing and erroneous LLC blocks are excluded from the throughput calculation.

LLC retransmission rate uplink Temporary logical link identity

Recorded when TBF allocation is modified. This information can be based on RLC/MAC and layer3 signaling, or on trace messages received from the device.

TBF uplink establishment failed Recorded after TBF uplink establishment attempt. The recorded information is based on RLC/MAC and layer3 signaling messages.

TBF uplink establishment aborted Recorded after TBF uplink establishment attempt. The recorded information is based on RLC/MAC and layer3 signaling messages.

TBF uplink establishment rejected

Recorded after TBF uplink establishment attempt. The recorded information is based on RLC/MAC and layer3 signaling messages.

Number of uplink TBFs

Recorded when TBF allocation is modified. This information can be based on RLC/MAC and layer3 signaling, or on trace messages received from the device.

Number of downlink TBFs

Recorded when TBF allocation is modified. This information can be based on RLC/MAC and layer3 signaling, or on trace messages received from the device.

TFI uplink RLC window size uplink TFI downlink RLC window size downlink RLC/MAC signaling parameter search

Searches for user-defined text inside decoded messages, and returns the following field for the first match. With the search start text it is possible to configure, that search starts after first occurence of another text in the decoded message

EDGE coding DL distribution EDGE coding UL distribution GPRS coding DL distribution GPRS coding UL distribution Uplink TBF establishment cause

Recorded after TBF uplink establishment attempt. The recorded information is based on RLC/MAC and layer3 signaling messages.

TBF UL establishment status

Recorded after TBF uplink establishment attempt. The recorded information is based on RLC/MAC and layer3 signaling messages.

LTE Cell reselection U-plane interruption time The time from the last packet in the old cell to the first packet in the new cell. This parameter is only recorded during the data transfer and only for LTE to LTE, LTE to HSPA, and HSPA to LTE cell reselections and redirections.

RLC downlink throughput

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Total downlink RLC throughput is calculated over all radio bearers. The value of this parameter is calculated based on the SDUs that are successfully transferred through the RLC layer. Missing and erroneous RLC blocks are excluded from the throughput calculation.

RLC downlink block rate

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Total number of correctly or incorrectly received RLC PDUs calculated from all active radio bearers.

RLC downlink BLER

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Total downlink RLC BLER calculated from all activate radio bearers.

RLC downlink throughput per RB

The value of this parameter is calculated based on the SDUs that are successfully transferred through the RLC layer. Missing and erroneous RLC blocks are excluded from the throughput calculation.

RLC downlink block rate per RB

The number of correctly or incorrectly received RLC PDUs from the defined radio bearer.

RLC downlink BLER per RB RLC uplink throughput

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Total uplink RLC throughput. The value of this parameter is calculated based on the SDUs that are successfully transferred through the RLC layer. Missing and erroneous RLC blocks are excluded from the throughput calculation.

RLC uplink block rate Recorded when parameter sample is received from the device and the received sample differs from the previous result. Total number of correctly or incorrectly transmitted RLC PDUs calculated from all active radio bearers.

RLC uplink retransmission rate

Total uplink RLC retransmission rate calculated from all active radio bearers.

RLC uplink throughput per RB

Recorded when parameter sample is received from the device and the received sample differs from the previous result. The value of this parameter is calculated based on the SDUs that are successfully transferred through the RLC layer. Missing and erroneous RLC blocks are excluded from the throughput calculation.

RLC uplink block rate per RB

Recorded when parameter sample is received from the device and the received sample differs from the previous result. The number of correctly or incorrectly transmitted RLC PDUs from the defined radio bearer.

RLC uplink retransmission rate per RB

Recorded when parameter sample is received from the device and the received sample differs from the previous result.

PDCP downlink throughput

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Total downlink PDCP throughput is calculated over all radio bearers. The value of this parameter is calculated based on the SDUs that are successfully transferred through the PDCP layer. Missing and erroneous PDCP blocks are excluded from the throughput calculation.

PDCP downlink block rate

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Total number of correctly or incorrectly received PDCP PDUs calculated from all active radio bearers.

PDCP downlink throughput per RB

The value of this parameter is calculated based on the SDUs that are successfully transferred through the PDCP layer. Missing and erroneous PDCP blocks are excluded from the throughput calculation.

PDCP downlink block rate per RB

The number of correctly or incorrectly received PDCP PDUs from the defined radio bearer.

PDCP uplink throughput

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Total uplink PDCP throughput. The value of this parameter is calculated based on the SDUs that are successfully transferred through the PDCP layer. Missing and erroneous PDCP blocks are excluded from the throughput calculation.

PDCP uplink block rate

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Total number of correctly or incorrectly transmitted PDCP PDUs calculated from all active radio bearers.

PDCP uplink throughput per RB

The value of this parameter is calculated based on the SDUs that are successfully transferred through the PDCP layer. Missing and erroneous PDCP blocks are excluded from the throughput calculation.

PDCP uplink block rate per RB

The number of correctly or incorrectly transmitted PDCP PDUs from the defined radio bearer.

PDSCH scheduled throughput/PRB

Scheduled throughput per PRB is the average throughput per PRB over the TTIs where PRB resources are allocated. This is calculated by summing PDSCH throughput per PRB during the reporting period and this is divided by number of allocated PRBs during the reporting period.

Channel number Tracking area code

Tracking area code of the current serving cell. See 3GPP TS 124.301 subclause 9.9.3.32.

Max TX power Physical cell identity Transmission mode

See 3GPP TS 136.213 subclase 7.1.

TTI bundling

See 3GPP TS 136.321 subclause 5.4.2.

Detected TX antenna ports DL bandwidth TDD UL/DL configuration

TDD UL/DL configuration defines the symbols that are allocated for uplink and downlink. See 3GPP 36.211 subclause 4.2.

Cyclic prefix UL This is uplink cyclic prefix. Extended cyclic prefix can reduce inter-symbol-interference when multipath components have significant arrival time deviation from each other.

C-RNTI

Cell Radio Network Temporary Identifier. A dynamic identity assigned by eNodeB and is valid as long as the UE is connected to that eNB.

RSRP Nth best

RSRP of the Nth strongest cell, where the strongest cell is selected in terms of RSRP

Distance based RSRP average from scanner for serving cell RSRP Nth best selected set

RSRP of the Nth strongest cell of selected set (active/monitored/detected), where the strongest cell is selected in terms of RSRP

RSRP Nth best selected set (dBuV/m)

RSRP of the Nth strongest cell of selected set (active/monitored/detected), where the strongest cell is selected in terms of RSRP

RSRP selected PCI RSRP serving cell primary and secondary carriers RSRQ serving cell primary and secondary carriers RSRQ serving cell delta primary vs. secondary carrier

Difference between primary and secondary cell measured RSRQ (dB)

RSRP serving cell delta primary vs. secondary carrier

Difference between primary and secondary cell measured RSRP (dBm)

RSRP serving cell primary RSRP serving cell secondary 0 RSRP serving cell secondary 1 RSRP listed set RSRP detected set RSRP serving cell primary with BTS ref. information RSRP serving cell secondary with BTS ref. information RSRP listed set with BTS ref. information RSRP detected set with BTS ref. information RSRQ Nth best

RSRQ of the Nth strongest cell, where strongest cell is selected in terms of RSRP

RSRQ Nth best selected set

RSRQ of the Nth strongest cell of selected set (active/monitored/detected), where strongest cell is selected in terms of RSRP

RSRQ selected PCI RSRQ serving cell primary RSRQ serving cell secondary 0 RSRQ serving cell secondary 1 RSRQ listed set RSRQ detected set E-UTRAN carrier RSSI E-UTRAN carrier RSSI Nth best selected set

E-UTRAN carrier RSSI of the Nth strongest cell of selected set (active/monitored/detected), where the strongest cell is selected in terms of RSRP

RS SNR

The calculation method for this parameter is device specific and can change between the devices.

Timing advance

Recorded when timing advance changes. Timing advance is used to adjust uplink transmission timing in a way that allows node B to receive transmissions from all UEs simultanously. The timing advance is relative to downlink radio frame received by UE. This parameter is the same as N_TA parameter divided by 16. See 3GPP TS 36.213 subclause 4.2.3 and 3GPP TS 36.211 subclause 8.

TX power PUCCH

The average transmit power for PUCCH calculated over the reporting period. See 3GPP TS 36.213 subclause 5.1.2.1.

TX power PUSCH

The average transmit power for PUSCH calculated over the reporting period. See 3GPP TS 36.213 subclause 5.1.1.1.

TX power headroom (PUSCH)

The average UE power headroom reported from the same reporting period as PUSCH TX power. See 3GPP TS 36.213 subclause 5.1.1.2.

TX power PUSCH adjustment The average PUSCH power control adjustment during the last reporting period. Same as f(i) parameter in 3GPP TS 36.213 subclause 5.1.1.1.

TX power PUCCH adjustment

The average PUCCH power control adjustment during the last reporting period. Same as g(i) parameter in 3GPP TS 36.213 subclause 5.1.2.1.

PUSCH TPC count

The number of times this TPC command is received since the previous report.

PUSCH TPC

This is the same as delta_PUSCH. See 3GPP TS 136.213 subclause 5.1.1.

PUCCH TPC count

The number of times this TPC command is received since the previous report.

PUCCH TPC

This is the same as delta_PUCCH. See 3GPP TS 136.123 subclause 5.1.2.

PBCH block rate PBCH BLER

Physical Downlink Shared Channel (PDSCH) block error rate. Block error rate (BLER) is the number of received erroneous blocks per total number of sent blocks. Erroneous blocks are found with the cyclic redundancy check (CRC), see 3GPP TS 34.121-1 subclause F.6.1.1.

PDSCH throughput

The throughput is calculated from all received transport blocks including TBs with CRC failure.

PDSCH throughput delta primary vs. secondary carrier

Difference between measured PDSCH throughput of the primary and secondary LTE carrier aggregation componen carriers

PDSCH throughput for codeword 0 PDSCH throughput for codeword 1 PDSCH block rate

The number of received transport blocks since the last report including TBs with CRC failure.

PDSCH BLER

The ratio of transport blocks with CRC check accepted to all received TBs.

PDCCH BLER estimation

This parameter estimates PDCCH BLER by calculating number of undetected and missed downlink grants. The parameter does not contain all possible PDCCH errors so it is more of an indicative rathern than an absolute ratio of errors in the PDCCH channel. Note that the exact calculation method of the parameter can change in the future.

PUSCH throughput

This is calculated from all transmitted transport blocks including TBs that are not delivered succesfully or are delivered redundantly.

Measurement event

Recorded when a UMTS measurement event is transmitted to the network based on signaling messages. See 3GPP TS 136.331 subclause 5.5.4.

Measurement ID

Recorded when a UMTS measurement event is transmitted to the network based on signaling messages. See 3GPP TS 136.331 subclause 5.5.

Serving cell BTS ref. information

Information on best serving cell from the BTS reference file

Cell name (BTS ref.)

Name of the best serving cell from the BTS reference file

Serving system and band

Recorded when channel configuration information changes.

Serving system

Recorded when channel configuration information changes.

Mobile country code

Recorded when service state or mobility information changes. See ITU-T recommendation E.212.

Operator Mobile network code

Recorded when service state or mobility information changes.

TMSI

Recorded when service state or mobility information changes. Temporary mobile subscriber identity. See 3GPP TS 124.008 subclause 10.5.1.4 and 3GPP TS 123.003 subclause 2.4.

P-TMSI

Recorded when service state or mobility information changes. Packet temporary mobile subscriber identity. See 3GPP TS 124.008 subclause 10.5.1.4 and 3GPP TS 123.003 subclause 2.7.

MME group ID

Recorded when service state or mobility information changes. Mobility Management Entity (MME) group identification is used to differentiate between pools of MMEs. See 3GPP TS 123.003.

Automatic neighbour relation information

Recorded when the CGI is configured to measure or reported by the mobile.

MME code

Recorded when service state or mobility information changes. Identifies Mobility Management Entities (MME) within the MME pool areas. See 3GPP TS 123.003.

M-TMSI

Recorded when service state or mobility information changes. M-Temporary Moblie subscriber Identity. See 3GPP TS 123.003.

Tracking area update attempt

Recorded based on EMM signaling when tracking area update is attempted. For more information about the tracking area update procedure, see 3GPP TS 124.301 subclause 5.5.3. This measurement event begins the tracking area update attempt state.

Tracking area update success

Recorded based on EMM signaling when tracking area update is successful. For more information about the tracking area update procedure, see 3GPP TS 124.301 subclause 5.5.3. This measurement event terminates the tracking area update attempt state.

Tracking area update failure

Recorded based on EMM signaling when tracking area update is successful. For more information about the tracking area update procedure, see 3GPP TS 124.301 subclause 5.5.3. This measurement event terminates the routing area update attempt state.

Tracking area update time

Time from tracking area update attempt (Nemo event TUA) to success (Nemo event TUS)

Cell identification

Cell identity of the current cell. For GSM this is 16 bit value, for UMTS this is 28 bit value (RNC ID + 16 bit cell ID), and for LTE this is 28 bit value (eNB ID + 8 bit cell ID).

Location area code LTE carrier aggregation status

Indicates whether LTE CA is in use at given time. CA is differentiated for different amounts of composite carriers (CCs)

L3 signaling

Recorded when a Layer 3 or an NAS signaling message is sent or received.

Packet technology Packet technology during data transfer

Packet technology between nemo events DAA to DAD or DAF

Packet state L3 signaling parameter search

Searches for user-defined text inside decoded messages, and returns the following field for the first match. With the search start text it is possible to configure, that search starts after first occurence of another text in the decoded message

Pilot pollution number of polluting cells

Number of cells that are within user defined window from the active set best cell in terms of RSRQ, when active set best RSRP is above, and active set best RSRQ is below use defined threshold.

EPS bearer allocation attempt

Recorded when the EPS bearer allocation is attempted. This is based on the NAS signaling or information received from the trace interface. Also this can be logged to the beginning of the measurement file to indicate already established EPS bearer.

EPS bearer allocation success

Recorded when the EPS bearer allocation succeeded. This is based on NAS signaling or information received from the trace interface. Also this can be logged to the beginning of the measurement file to indicate already established EPS bearer.

EPS bearer release

Recorded when the EPS bearer is released. This is based on NAS signaling or information received from the trace interface.

EPS bearer allocation failure F-factor mobile (CINR estimate)

Estimate of SNR/CINR assuming all cells are fully loaded. Calculation: best cell RSCP / (2nd best RSRP + 3rd best RSRP + ... + Thermal noise (-132dBm)). Expressed in decibels

Number of cells within X dB window from the best

Number of cells where the RSRP is within user-definable window from the best cell

Cell reselection inter-system Cell reselection Handover events Handover attempt Handover success Handover failure Handover duration With the LTE this defines the handover duration containing handover processing and interrupt time. Time from the handover initiating RRC signaling message to the succesfully completed RACH procedure in the new cell.

Handover to preamble time

Time from handover attempt (RRC signaling message) to the first random access preamble (MSG1) in the target cell. Only support for LTE to LTE handovers.

Handover U-plane interruption time

Defines the time from the last packet in the old cell to the first packet in the new cell.

Handover attempt inter-system Handover success inter-system Handover failure inter-system RSRP/Antenna port

Currently the recording interval is about two times per second. This measurement event is currently only logged for serving cells.

RSRQ/Antenna port

Currently the recording interval is about two times per second. This measurement event is currently only logged for serving cells.

E-UTRAN carrier RSSI/Antenna port

Currently the recording interval is about two times per second. This measurement event is currently only logged for serving cells.

RS SNR/Antenna port LTE cell frame timing PDCCH CFI 1 percentage

Defines how many percent of subframes are using CFI 1 meaning that 1 symbol (2 when 1.4 MHz bandwidth) is allocated for PDCCH. See 3GPP TS 36.212 subclause 5.3.4.

PDCCH CFI 2 percentage

Defines how many percent of subframes are using CFI 2 meaning that 2 symbols (3 when 1.4 MHz bandwidth) are allocated for PDCCH. See 3GPP TS 36.212 subclause 5.3.4.

PDCCH CFI 3 percentage

Defines how many percent of subframes are using CFI 3 meaning that 3 symbols (4 when 1.4 MHz bandwidth) are allocated for PDCCH. See 3GPP TS 36.212 subclause 5.3.4.

LTE secondary serving cells LTE pathloss LTE Scanner P-SCH CINR

The ratio between synchronization channel received power and interference and noise from the same synchronization signal set.

LTE RRC signaling RSRP Nth best distance based average selected carriers RSRP distance based average selected carriers Carrier RSSI (frequency scanning mode) selected channel Carrier RSSI (frequency scanning mode) Carrier RSSI (OFDM scanning mode) selected channel Carrier RSSI (OFDM scanning mode) RS CINR Nth strongest cell selected carriers RS CINR top N cell selected carriers with BTS ref. info RS CINR top N cell selected carriers RS Carrier RSSI Nth strongest cell selected carriers RSRQ Nth best selected carriers with BTS ref. info RSRQ Nth best selected carriers RSRQ distance based average selected carriers

RSRQ top N selected carriers with BTS ref. info RSRQ top N selected carriers RSRP Nth best selected carriers with BTS ref. info RSRP Nth best selected carriers RSRP Nth best selected carriers MNC RSRP MNC RSRP Nth best selected carriers (dBuV/m) RSRP top N selected carriers with BTS ref. info RSRP top N selected carriers L3 signaling LTE RRC signaling parameter search Searches for user-defined text inside decoded messages, and returns the following field for the first match. With the search start text it is possible to configure, that search starts after first occurence of another text in the decoded message

Scanning configuration Defines scanning settings.

F-factor scanner (CINR estimate) Estimate of SNR/CINR assuming all cells are fully loaded. Calculation: best cell RSCP / (2nd best RSRP + 3rd best RSRP + ... + Thermal noise (-132dBm)). Expressed in decibels

F-factor scanner

F-factor indicates the interference conditions assuming all cells are fully loaded (worst case scenario). Calculation: (2nd best RSRP + 3rd best RSRP + ... + Thermal noise (-132dBm))/best cell RSCP.

Number of pilots within X dB window from the best

Number of cells where the RSRP is within user-definable window from the best cell

Cellscan

Recorded when parameter sample is received from the device. With GSM the system information messages, and with UMTS and LTE the system information blocks, are decoded to produce the information required for this measurement event.

Cyclic prefix DL Detected TX antenna ports RSRP selected PCI scanner RS Carrier RSSI selected PCI scanner Scanning result indication

The parameter contains the status of the measurement result. This is a bit field so the value of the parameter is the sum of all simultaneouns measurement statuses, e.g. if the antenna power imbalance and frequency offset too large conditions happen simultaneously the recorded value would be three.

2x2 MIMO rank estimation/PRB (Rohde & Schwarz) 2x2 MIMO rank estimation/PRB (Nemo FSR1) 2x2 MIMO condition number/PRB (Rohde & Schwarz) 2x2 MIMO condition number/PRB (Nemo FSR1) 2x4 MIMO rank estimation/PRB (Rohde & Schwarz) 2x4 MIMO rank estimation/PRB (Nemo FSR1) 2x4 MIMO condition number/PRB (Rohde & Schwarz) 2x4 MIMO condition number/PRB (Nemo FSR1) RSRP/PRB CINR/PRB 2x2 MIMO condition number (PCTel) Physical resource block scanning results (PCTel) Physical resource block OLSM CQI (PCTel) RS scanning results per antenna port RSRP, RSRQ, and CINR reported per cell per antenna port

RSRP selected antenna port

RSRPs readings of selected antenna port

RS Carrier RSSI selected antenna port RSSI readings of selected antenna port

RSRQ selected antenna port

RSRQ readings of selected antenna port

RS CINR selected antenna port

RSRQ readings of selected antenna port

RSRP

Reference signal received power is the linear average of the power contributions of the resource elements that carry cell-specific reference signals within the considered measurement frequency. 3GPP TS 36.214 subclause 5.1.1.

RS CINR Nth strongest cell

CINR of the Nth strongest cell in terms of RSRP

RSRQ Nth strongest cell

RSRQ of the Nth strongest cell in terms of RSRP

S-SCH received CINR Nth strongest cell S-SCH received CINR of the Nth strongest cell

P-SCH received quality Nth strongest cell P-SCH received quality of the Nth strongest cell

S-SCH received quality Nth strongest cell S-SCH received quality of the Nth strongest cell

S-SCH received power Nth strongest cell S-SCH received power of the Nth strongest cell

P-SCH received power Nth strongest cell P-SCH received power of the Nth strongest cell

RSRP Nth strongest cell

RSRP of the Nth strongest cell

Physical cell ID Nth strongest cell PCI of the Nth strongest cell in terms of RSRP

RS Carrier RSSI Nth strongest cell

RSSI of the Nth strongest cell in terms of RSRP

RSRQ selected PCI scanner RSRQ

Reference signal received quality is the ratio N * RSRP / E-UTRA carrier RSSI, where N is the number of resource blocks of the E-UTRA carrier RSSI measurement bandwidth. The measurements in the numerator and denominator are made over the same set of resource blocks. 3GPP TS 36.214 subclause 5.1.3.

RS CINR selected PCI scanner CINR

Ratio between the reference signal received power (RSRP) and the interference and noise from the same reference signal set.

Time offset RS Delay spread

The unit of the parameter is 32.552ns that is the same as the Ts parameter defined by 3GPP TS 136.211 subclause 4.

P-SCH RSRP

Linear average over the power contributions of the resource elements that carry primary synchronization signal.

P-SCH RSRQ

The ratio between P-SCH reference power (P-SCH RP) and linear average of total received power measured over OFDM symbols and resource blocks, including primary synchronization (P-SCH) signal. The measurements in the numerator and denominator are made over the same set of resource blocks.

S-SCH RSRP

Linear average over the power contributions of the resource elements that carry secondary synchronization signal.

S-SCH RSRQ

The ratio between S-SCH reference power (S-SCH RP) and linear average of total received power measured over OFDM symbols and resource blocks, including secondary synchronization (S-SCH) signal. The measurements in the numerator and denominator are made over the same set of resource blocks.

S-SCH CINR

The ratio between synchronization channel received power and interference and noise from the same synchronization signal set.

Time offset SCH PBCH RSRP

Currently support for this parameter has not been implemented.

PBCH RSRQ

Currently support for this parameter has not been implemented.

PBCH CINR

Currently support for this parameter has not been implemented.

Time offset PBCH

LTE:Link adaptation

Requested throughput Requested rank distribution Requested rank (mode) The most common requested rank over the reporting period

Wideband CQI for codeword 0

This is the average wideband CQI calculated over the reporting period. See 3GPP TS 36.213 subclause 7.2.

Wideband CQI for codeword 1

This is the average wideband CQI calculated over the reporting period. See 3GPP TS 36.213 subclause 7.2.

Subband CQI for codeword 0

The subband CQI is the average calculated over the subbands defined by higher layer or selected by mobile. This reported subband CQI value is furthermore averaged over the reporting period before it is logged to the measurement event. More information about CQI see 3GPP TS 36.213 subclause 7.2.

Subband CQI for codeword 1

The subband CQI is the average calculated over the subbands defined by higher layer or selected by mobile. This reported subband CQI value is furthermore averaged over the reporting period before it is logged to the measurement event. More information about CQI see 3GPP TS 36.213 subclause 7.2.

Wideband PMI

The logged value is the most commonly used value during the reporting period. A user equipment uses Precoding Matrix Indicator (PMI) to inform the eNodeB which precoding matrix should be used for downlink transmission according to the rank indication. See 3GPP TS 136.213 subclause 7.2.4.

CQI for codeword 0 per subband

The average channel quality index value over the reporting period for defined subband. Not available when the best M select mode is used. More information about CQI see 3GPP TS 36.213 subclause 7.2.

CQI for codeword 1 per subband

The average channel quality index value over the reporting period for defined subband. Not available when the best M select mode is used. More information about CQI see 3GPP TS 36.213 subclause 7.2.

PRB utilization DL delta primary vs. secondary carrier

Difference between DL PRB utilization percentage of primary and secondary carriers in LTE carrier aggregation (%)

PRB utilization DL

Downlink PRB utilization proportional to bandwidth and reporting period.

PRB utilization DL/Index PRB utilization UL

Uplink PRB utilization proportional to bandwidth and reporting period.

PRB utilization UL/Index PDSCH average transport block size PDSCH maximum transport block size PUSCH average transport block size PUSCH maximum transport block size LTE link adaptation parameter distribution downlink LTE PDSCH PRBs allocated (mode)

The most common number of PRBs allocated over the reporting period

LTE PDSCH PRBs allocated (avg)

Average number of PRBs allocated over the reporting period

LTE PUSCH PRBs allocated (mode)

The most common number of PRBs allocated over the reporting period

LTE PUSCH PRBs allocated (avg)

Average number of PRBs allocated over the reporting period

LTE PDSCH PRBs allocated distribution LTE PUSCH PRBs allocated distribution PDSCH modulation codeword 0 (mode)

The most common value of the PDSCH modulation codeword 0 over the reporting period

PDSCH MCS index for codeword 0 (mode)

The most common value of the PDSCH MCS index for codeword 0 over the reporting period

PDSCH modulation codeword 1 (mode)

The most common value of the PDSCH modulation codeword 1 over the reporting period

PDSCH MCS index for codeword 1 (mode)

The most common value of the MCS index for codeword 1 over the reporting period

PDSCH rank 2 percentage

Percentage of Rank 2 (2x2 MIMO) over the reporting period

PDSCH rank (mode)

The most common value of the PDSCH rank over the reporting period

LTE link adaptation parameter distribution uplink

PUSCH MCS index for codeword 0 (mode) The most common value of the PUSCH MCS index for codeword 0 over the reporting period

PUSCH modulation codeword 0 (mode)

The most common value of the PUSCH modulation codeword 0 over the reporting period

PUSCH rank (mode)

The most common value of the PUSCH rank over the reporting period

LTE DL active TTIs rate

Percentage of TTIs over the reporting periond (200ms or 100ms depending on the terminal) when there has been data allocated to the terminal.

LTE:MAC MAC downlink block rate Recorded when measurement sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session. Separate measurement event is logged for each serving cell with LTE. Number of succesfully received transport blocks excluding redundant TBs.

MAC downlink BLER 3rd+

Recorded when measurement sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session. Separate measurement event is logged for each serving cell with LTE. The ratio of 3rd or more retransmission to all received TBs.

MAC downlink BLER 1st

Recorded when measurement sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session. Separate measurement event is logged for each serving cell with LTE. The ratio of 1st retransmissions to all received TBs.

MAC downlink BLER 2nd

Recorded when measurement sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session. Separate measurement event is logged for each serving cell with LTE. The ratio of 2nd retransmissions to all received TBs.

MAC downlink BLER

Recorded when measurement sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session. Separate measurement event is logged for each serving cell with LTE. The ratio of erroneously received transport blocks to all received transport blocks.

MAC downlink residual BLER

Recorded when measurement sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session. Separate measurement event is logged for each serving cell with LTE. Defines the ratio of transport blocks that HARQ was not able to correct and RLC layer has to fix. The ratio of HARQ failed transport blocks to new transmissions.

MAC downlink throughput

Recorded when measurement sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session. Separate measurement event is logged for each serving cell with LTE. MAC throughput that is calculated from succesfully received SDUs. With the devices that do not support MAC throughput parameter the estimation of MAC throughput is calculated from succesfully received transport blocks. The estimation is a little bit higher than the real MAC throughput since it includes MAC header, MAC control data, and padding to the throughput.

MAC downlink new blocks

Recorded when measurement sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session. Separate measurement event is logged for each serving cell with LTE. The number of received new (1st attempt) transport blocks since the last report.

MAC downlink redundant retransmission

Recorded when measurement sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session. Separate measurement event is logged for each serving cell with LTE. The ratio of transport blocks that were already correctly received and have unnecessarily been retransmitted (duplicated transmission). This happens when the ACK message sent by the mobile is decoded or received incorrectly, or not received at all, by the the base station.

MAC uplink retransmission rate 3rd+

Recorded when measurement sample is received from the device. The ratio of 3rd or more retransmissions to all transmitted TBs.

MAC uplink retransmission rate 1st

Recorded when measurement sample is received from the device. The ratio of 1st retransmissions to all transmitted TBs.

MAC uplink retransmission rate 2nd

Recorded when measurement sample is received from the device. The ratio of 2nd retransmissions to all transmitted TBs.

MAC uplink retransmission rate

Recorded when measurement sample is received from the device. The ratio of retransmitted transport blocks to all transmitted TBs.

MAC uplink residual BLER

Recorded when measurement sample is received from the device. Defines the ratio of transport blocks that HARQ was not able to correct and RLC layer have to fix. The ratio of HARQ failed transport blocksk to new transmissions.

MAC uplink block rate

Recorded when measurement sample is received from the device. The number of successfully transmitted transport blocks since previous report.

MAC uplink throughput

Recorded when measurement sample is received from the device. The throughput that is calculated from succesfully transmitted MAC SDUs. With the devices that do not support MAC throughput parameter the estimation of MAC throughput is calculated from succesfully delivered transport blocks. The estimation is a little bit higher than the real MAC throughput since it includes MAC headers, MAC control data, and padding.

LTE:RACH RACH PUSCH power Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. For successful RACH procedures this contains the TX power used for message sending in PUSCH.

RACH preamble initial TX power Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. TX power used for the first preamble. See 3GPP TS 36.321 subclause 5.1.3.

RACH type

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. More information about RACH procedure in LTE see 3GPP TS 36.213 subclause 6 and 3GPP TS 36.321 subclause 5.1.

RACH preamble responses with PUSCH resource

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

RACH preamble responses with backoff time

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

RACH result

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

RACH contention resolution failures

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

RACH pathloss An estimate of the radio condition for the RACH procedure. Pathloss is used for initial TX power. See 3GPP TS 36.213 subclause 6.1.

RACH preamble count

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Defines the number of preambles that were sent during the RACH procedure. This is the same as PREAMBLE_TRANSMISSION_COUNTER after end of the RACH procedure.

RACH maximum preamble count

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. This is the same as preambleTransMax. See 3GPP TS 136.133 subclause 6.3.2 and 136.321 subclause 5.1.

RACH reason

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Reason for the RACH procedure.

RACH preamble step

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. This parameter is the same as power ramping step. 3GPP TS 36.321 subclause 5.1.

RACH preamble index

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. The preamble index of the last successfully transmitted preamble. This is only valid for successful RACH procedures. This parameter is same as preamble sequence or random access preamble ID (RAPID). See 3GPP TS 136.321 subclause 5.

RACH access delay

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Time from initial MSG1 to MSG2 for non-contention based RACH procedures and time from initial MSG1 to MSG4 for contention based RACH procedures. Valid only for succesful RACH procedures.

RACH logical root sequence index

Logical root Zadoff-Chu sequence order number. See 3GPP 136.211 subclause 5.7.2.

TDD special subframe configuration

This parameter defines the duration of special subframes between uplink and downlink switching. See 3GPP 136.211 subclause 4.2.

EMM substate

See 3GPP 124.301 subclause 5.1.3.

CQI periodic reporting mode

See 3GPP TS 136.213 subclause 7.2.2.

CQI aperiodic reporting mode

This is the same as cqi-ReportModeAperiodic parameter in CQI-ReportConfig. More information see 3GPP TS 136.213 subclause 7.2.1.

LTE:RRC LTE RRC signaling RRC state See 3GPP TS 136.331 subclause 4.2.1.

RLC/MAC/L3/RRC signaling DL and UL separated RLC/MAC/L3/RRC signaling LTE RRC signaling parameter search Searches for user-defined text inside decoded messages, and returns the following field for the first match. With the search start text it is possible to configure, that search starts after first occurence of another text in the decoded message

RRC connection attempt RRC connection connected

Recorded based on RRC signaling when RRC connection is established. This measurement event begins the RRC connection state.

RRC connection disconnected

Recorded based on RRC signaling when RRC connection is released. This measurement event terminates the RRC connection state.

LTE RRC connection dropped

Recorded based on RRC signaling when RRC connection is released. This measurement event terminates the RRC connection state.

RRC connection attempt failure

Recorded based on RRC signaling when RRC connection attempt fails. This measurement event terminates the RRC connection attempt state.

RRC re-establishment

Recorded based on RRC signaling after successful or failed RRC connection re-establishment.

Messages REMS:Standard and REMS:CSelBSInfo RxLevAccess

Messages REMS:Standard and REMS:DMNMActivation Band Messages REMS:Standard and REMS:DMNMDetection Result Messages REMS:Standard and REMS:InvalidFrames Number Messages REMS:Standard and REMS:LostChannel ChannelType Criteria Messages REMS:Standard and REMS:RSelCharacteristics CurrentCCH CurrentThreshold CurrentPreferentialCriteria CCH PreferentialCriteria Threshold BN Messages REMS:Standard and REMS:TCHParameters DownLinkScrambling UpLinkScrambling Nortel RRC signaling Other All events Event IDs of all occured Nemo file format Events

Selected events

Selected event IDs of all occured Nemo file format events

Measurement duration All BTS reference cells BTS custom parameter

This query returns custom column from the BTS file for the currently serving cell as specified by the user. Ht

Service off Recorded when service state or mobility information changes.

Service on

Recorded when service state or mobility information changes.

Service info status

Recorded when service state or mobility information changes.

Date Geographical bin area Measurement file info Measurement time Modem message

Recorded when modem message is sent to or received from the device. At the moment this message is only logged when Send Modem Message functionality is used from Nemo Outdoor.

Textual note

Recorded when textual note is recorded by the user.

Voice note Marker

Recorded when the user adds a marker to the measurement.

Error text Lock radio off Lock channel Lock sector Lock system Lock band Lock cell barring LTE lock sector Invex backplane health information Invex UIC health information Invex HIM health information Other:GPS

Velocity Height Distance GPS fix quality Number of satellites Latitude and longitude Latitude and longitude binned (MGRS) Returns coordinates binned to squares of 1, 10, 100,1000, 10 000, or 100 000 meter side length, binned accorgin to MGRS grid system.

Packet-switched data Packet data activation attempt Packet data activation success Packet data deactivation Packet data connection dropped Packet data activation failure Access point name Packet-switched data:Attach Attach session

Information per attach session, time range between Nemo events GAA and GAD/GAF. Can be used as input in KPI workbench to group other data per attach session

Attach attempt Attach attempt success Attach attempt failure Detach Attach setup time Detach distribution PS status

Packet-switched data:PDP context PDP context session Information per PDP context session, time range between Nemo events PAA and PAD/PAF. Can be used as input in KPI workbench to group other data per PDP context session

PDP context activation attempt PDP context activation success PDP context deactivation PDP context dropped PDP context activation failure Access point name Packet protocol address Received IP address.

Header compression Data compression PDP context activation time PS status Packet-switched data:QoS Minimum accepted QoS Recorded when new QoS profile is requested or reconfigured. Information is based on configured QoS settings and NAS signaling.

Requested QoS

Recorded when new QoS profile is requested or reconfigured. Information is based on configured QoS settings and NAS signaling.

Negotiated QoS

Recorded when the first QoS configuration is received or the current one is reconfigured. This information is based on NAS signaling.

Services Problem events The query returns all problem events in Nemo fileformat. Results can be displayed in grid, colorcoded map, and print value on the map.

Services:CEM Observer CEM Observer problem report survey Recorded when a service quality note is recorded by the user. This is an answer to a predefined question presented to the user.

CEM Observer individual problem reports

Recorded when a service quality note is recorded by the user. This is an answer to a predefined question presented to the user.

Services:Data transfer Data transfer threads Number of concurrent data transfers.

Data transfer attempt number Transferred bytes uplink total Transferred bytes downlink total Download progress (%) Percentage of bytes transferred over the total file size

Upload progress (%)

Percentage of bytes transferred over the total file size

Application protocol

Shows the currently active application protocol, can be used to be plotted on the map

Data transfer session

Information per file transfer session, time range between Nemo events DREQ and DCOMP. Can be used as input in KPI workbench to group other data per file transfer

Data server session

Information per data server session, time range between Nemo events DAA and DAD/DAF. Can be used as input in KPI workbench to group other data per data server session

Data transfer cycle information

List of all data transfer cycles with information on each session trigger point

Data Data Data Data Data Data

server connection attempt server disconnect server connect server connect failure server connection dropped transfer host address

Connection address. With MMS this is the MMS service center address.

Data transfer host port IP port.

File transfer request File transfer complete DNS host name resolution time Recorded after DNS query. See 3GPP TS 102.25 subclause 5.11.

DNS resolved address

Recorded after DNS query. The DNS query result in the IP format. When multiple IP addresses is received for the domain name the first recorded IP address is used by the recording tool.

Data transfer IP service access time

Time from DREQ to moment when socket connection has been established and first data packet is send.

Data transfer IP termination time

Time from last data packet to the DCOMP when all connections has been terminated and data transfer is finished.

File transfer dropped File size

Amount of data to be transferred.

File transfer upload time

Time delay in seconds from file transfer request (DREQ nemo event) to file transfer complete (DCOMP nemo event). At the precence of "IP access time" and "IP termination time" information elements in the DCOMP event,the transfer time is according to ETSI TS 102 250-2 specification.

File transfer download time

Time delay in seconds from file transfer request (DREQ nemo event) to file transfer complete (DCOMP nemo event) At the precence of "IP access time" and "IP termination time" information elements in the DCOMP event,the transfer time is according to ETSI TS 102 250-2 specification.

Data server session time Time delay in seconds from data server connection success (DAC nemo event) to data server disconnect (DAD nemo event)

Data connection setup time

Time from data server connection attempt to successfull connection (time from DAA to DAC events)

Data time to connect

File transfer success/failure distribution Data disconnect distribution PS status Data transfer status Data transfer session statistics Key radio and application metrics per data transfer. All the radio metrics are aggregated for the duration of the data transfer, between DREQ and DCOMP Nemo events.

Services:Data transfer:Jitter Packet jitter uplink Recorded semi-periodically when application layer data is transferred to or received from the server. The measurement event is written simultaneously with the DRATE measurement.

Packet jitter downlink

Recorded semi-periodically when application layer data is transferred to or received from the server. The measurement event is written simultaneously with the DRATE measurement.

Services:Data transfer:PPP PPP throughput uplink PPP throughput downlink Transferred PPP bytes uplink Cumulative amount of data transferred in uplink direction during the packet session.

Transferred PPP bytes downlink

Cumulative amount of data transferred in downlink direction during the packet session.

Services:Data transfer:Throughput Application throughput uplink per session Application throughput uplink Application throughput uplink average per file transfer Average application throughput per each uplink file transfer (Average between DREQ and DCOMP Nemo events). At the precence of "IP access time" and "IP termination time" information elements in the DCOMP event, this average is according to ETSI TS 102 250-2 specification.

Application throughput downlink per session Application throughput downlink Application throughput downlink average per file transfer

Average application throughput per each downlink file transfer (Average between DREQ and DCOMP Nemo events). At the precence of "IP access time" and "IP termination time" information elements in the DCOMP event, this average is according to ETSI TS 102 250-2 specification.

Transferred bytes uplink

This is a cumulative byte count from the beginning of the transfer.

Transferred bytes downlink

This is a cumulative byte count from the beginning of the transfer.

Services:Dropbox Dropbox Dropbox Dropbox Dropbox

transaction transaction transaction transaction

attempt success failure time

Delay from DAA event (user initiates the transaction) to DCOMP event (transaction is successfully completed)

Services:FTP FTP FTP FTP FTP FTP FTP FTP FTP

server connection attempt server disconnect server connect server connect failure server connection dropped file transfer attempt file transfer success file transfer dropped

Services:Facebook Facebook access attempt Checks validity of User Access Token.

Facebook access success User Access Token is valid.

Facebook access failure User Access Token is invalid or expired.

Facebook Facebook Facebook Facebook

transaction transaction transaction transaction

attempt success failure time

Delay from DAA event (user initiates the transaction) to DCOMP event (transaction is successfully completed)

Facebook operation Facebook timeout Facebook connection time

Time delay in seconds from Facebook connection attempt (DAA nemo event) to Facebook connection connect (DAC nemo event)

Facebook transfer time Services:HTTP HTTP HTTP HTTP HTTP

attempt success failure content

Recorded after data transfer has been completed and WAP/HTML content has been parsed.

Services:HTTP browsing HTTP browsing attempt HTTP browsing success HTTP browsing failure Services:IMAP IMAP IMAP IMAP IMAP

server server server server

connection attempt disconnect connect connect failure

IMAP IMAP IMAP IMAP

server connection dropped file transfer attempt file transfer success file transfer dropped

Services:Instagram Instagram Instagram Instagram Instagram

transaction transaction transaction transaction

attempt success failure time

Delay from DAA event (user initiates the transaction) to DCOMP event (transaction is successfully completed)

Instagram connection time

Time delay in seconds from Instagram connection attempt (DAA nemo event) to Instagram connection connect (DAC nemo event)

Instagram Instagram Instagram Instagram

transfer time connection attempt connection success connection failure

Services:Iperf File size TCP Amount of data to be transferred. For time based transfers this information is not available.

File size UDP

Amount of data to be transferred. For time based transfers this information is not available.

Data transfer threads TCP

Number of concurrent data transfers.

Data transfer threads UDP

Number of concurrent data transfers.

Packet error rate downlink

Recorded semi-periodically when application layer data is transferred to or received from the server. The measurement event is written simultaneously with the DRATE measurement event for the documented UDPbased protocols. The ratio of erroneously received packets to total number of received packets.

Packet error rate uplink

Recorded semi-periodically when application layer data is transferred to or received from the server. The measurement event is written simultaneously with the DRATE measurement event for the documented UDPbased protocols. The ratio of erroneously transferred packets to total number of transferred packets.

Transferred packets downlink

Recorded semi-periodically when application layer data is transferred to or received from the server. The measurement event is written simultaneously with the DRATE measurement event for the documented UDPbased protocols.

Transferred packets uplink

Recorded semi-periodically when application layer data is transferred to or received from the server. The measurement event is written simultaneously with the DRATE measurement event for the documented UDPbased protocols.

Erroneous packets uplink Recorded semi-periodically when application layer data is transferred to or received from the server. The measurement event is written simultaneously with the DRATE measurement event for the documented UDPbased protocols.

Erroneous packets downlink

Recorded semi-periodically when application layer data is transferred to or received from the server. The measurement event is written simultaneously with the DRATE measurement event for the documented UDPbased protocols.

Services:Kodiak IPA

Kodiak Kodiak Kodiak Kodiak Kodiak Kodiak Kodiak

IPA send attempt IPA receive attempt IPA send success IPA receive success IPA send failure IPA receive failure server registration attempt

Recorded when the user initiates the SIP server (or similar) registration attempt. This measurement event begins the SIP server registration attempt state.

Kodiak server registration failed

Recorded when registration to the SIP server (or similar) fails. This measurement event terminates the SIP server registration attempt state.

Kodiak server registration completed

Recorded when registration to the SIP server (or similar) succeeded and the connection is now established to the SIP server. This measurement event begins the SIP server registerion state.

Kodiak server deregistered

Recorded when the device is deregistered from the SIP server (or similar). This measurement event terminates the SIP server registration state.

Kodiak server deregistered abnormally

Recorded when the device is deregistered from the SIP server (or similar). This measurement event terminates the SIP server registration state.

Services:LTE IMS voice LTE IMS voice server registration attempt Recorded when the user initiates the SIP server (or similar) registration attempt. This measurement event begins the SIP server registration attempt state.

LTE IMS voice server registration failed

Recorded when registration to the SIP server (or similar) fails. This measurement event terminates the SIP server registration attempt state.

LTE IMS voice server registration completed

Recorded when registration to the SIP server (or similar) succeeded and the connection is now established to the SIP server. This measurement event begins the SIP server registerion state.

LTE IMS voice server deregistered

Recorded when the device is deregistered from the SIP server (or similar). This measurement event terminates the SIP server registration state.

LTE IMS voice server deregistered abnormally

Recorded when the device is deregistered from the SIP server (or similar). This measurement event terminates the SIP server registration state.

RTP jitter DL

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Sampling period is approximately about 500ms.

RTP packet error rate

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Sampling period is approximately about 500ms.

RTP interarrival time downlink

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Sampling period is approximately about 500ms. During the reporting period the maximum duration between two received voice RTP packets.

RTP bytes downlink

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Sampling period is approximately about 500ms. Number of RTP downlink bytes transferred after last update.

RTP bytes uplink

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Sampling period is approximately about 500ms. Number of RTP uplink bytes transferred after last update.

RTP packets downlink

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Sampling period is approximately about 500ms. Number of RTP downlink packets transferred after last update.

RTP packets uplink

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Sampling period is approximately about 500ms. Number of RTP uplink packets transferred after last update.

Talk rate

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Sampling period is approximately 500ms. Ratio of talk frames to all frames.

Dequeue underflow

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Sampling period is approximately 500ms. The number of the audio frames that have not been available in the de-jitter buffer during the playback.

Consecutive dequeue underflow

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Sampling period is approximately 500ms. The longest consecutive missed audio frames during the playback. The audio interruption time is this parameter mupltiplied by frame length that is currently 20 ms.

Queue size (talk)

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Sampling period is approximately 500ms. The maximum size of the dejitter buffer during the reporting period.

Queue size (silence)

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Sampling period is approximately 500ms. The maximum size of the dejitter buffer during the reporting period.

Frame delay (talk)

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Sampling period is approximately 500ms. During the reporting period the maximum duration the RTP packet has been in the dejitter buffer before the usage.

Frame delay (silence)

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Sampling period is approximately 500ms. During the reporting period the maximum duration the RTP packet has been in the dejitter buffer before the usage.

Robust header compression DL Robust header compression UL LTE IMS voice codec

Recorded when VoIP information changes.

LTE IMS voice SIP handshake time Services:LinkedIn LinkedIn LinkedIn LinkedIn LinkedIn

transaction transaction transaction transaction

attempt success failure time

Delay from DAA event (user initiates the transaction) to DCOMP event (transaction is successfully completed)

LinkedIn connection time

Time delay in seconds from LinkedIn connection attempt (DAA nemo event) to LinkedIn connection connect (DAC nemo event)

LinkedIn LinkedIn LinkedIn LinkedIn

transfer time connection attempt connection success connection failure

Services:MMS MMS filename For send MMS message type this is a name of the MMS message file. For retrieved and notification MMS types this a MMS message reference (that is in a practice a content location in a URI form).

MMS send failure

MMS MMS MMS MMS MMS MMS MMS MMS

receive failure receive success send success send attempt notification received delivery report received receive attempt retrieval time

Definition according to ETSI TS 102 250-2: MMS retrieval time (MT) [s]. The time elapsing between the WAP get request and the completion of the download of the MMS is be described by this parameter. Computation: MMS retrieval time (MT) [s] = t2 - t1. t1: time when WAP get request is initiated by the terminal. t2: MMS is completely received, The m-notifyResp.Ind is sent by the terminal (MT). Only those MMS are counted where the MMS receive attempt is included in the measurement data.

MMS send time

Time elapsing from pushing the send button after the editing of a MMS-message to the completion of the data transfer is described by this parameter. Computation: MMS send time (MO) [s] = t2 - t1. t1: send button is pushed (PDP context activation is initiated by the terminal, followed by connection to WAP gateway. t2: MMS is completely sent to the MMSC, m-send.conf (where Response Status: $80 = M_RS_OK) is received by the terminal (MO). Only those MMS are counted where the MMS send attempt is included in the measurement data.

MMS notification time

Definition according to ETSI TS 102 250-2: MMS notification time (MO/MT) [s]. The time elapsing from the complete submission of the Multimedia-Message to the MMSC to the reception of the Notification (MT). Computation: MMS notification time [s] = t2 ? t1. t1: MMS is completely sent to the MMSC, m-send.conf (where Response Status: $80 = M_RS_OK) is received by the terminal (MO). t2: Notification is received by the terminal (m-Notif.ind is received by the terminal). NOTE: make sure that during the measurement, time sync between MO and MT test terminals exists, either by measuring with single Outdoor and two measurement terminals, or by using GPS time in both measurement units.

MMS end to end delivery time

Definition according to ETSI TS 102 250-2: MMS End-to-end Delivery Time (MO/MT) [s]. The time elapsing from pushing of the send button to the reception of the MMS by the b-parties mobile. Computation: MMS endto-end delivery time [s] = t2 ? t1. t1: send button is pushed in terminal (MO). t2: MMS is received completely by the terminal (MT), The M-resp.ind is received completely by the MS (MT), and the MS (MT) sends the mnotify-resp.ind. NOTE: make sure that during the measurement, time sync between MO and MT test terminals exists.

Services:POP3 POP3 POP3 POP3 POP3 POP3 POP3 POP3 POP3

server connection attempt server disconnect server connect server connect failure server connection dropped mail transfer attempt mail transfer success mail transfer dropped

Services:Packet session Session state Summary session layer states

ALMP state Initialization protocol state Idle protocol state Connected protocol state Route update protocol state Overhead message protocol state

Services:Ping Ping round trip time Ping lost packet Ping session settings Ping session-level settings inlcluding host address, packet size, and ping timeout setting. All the following individual ping attempts belonging to the session are transmitted with settings as indicated here.

Services:PoC Push-to-talk communication type Recorded when the push-to-talk state changes.

RTP signaling

Recorded when an RTP signaling message is sent or received.

RTP jitter downlink

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Sampling period is approximately about 500ms.

PoC session attempt

Recorded when the user initiates the push-to-talk session activation attempt. This measurement event begins the push-to-talk session activation attempt state.

PoC session connected

Recorded when push-to-talk session activation is successful. This measurement event begins the push-to-talk session state.

PoC session disconnected

Recorded when push-to-talk session is terminated. This measurement event terminates the push-to-talk session state.

PoC session attempt failure

Recorded when push-to-talk session activation fails. This measurement event terminates the push-to-talk session activation attempt state.

Group attach time

Recorded when push-to-talk session activation is successful. This measurement event begins the push-to-talk session state. Time from POC server connection to successful group attach.

POC login time

Recorded when push-to-talk session activation is successful. This measurement event begins the push-to-talk session state. Time from POC server login attempt to connection.

Push-to-talk state

Recorded when the push-to-talk state changes.

POC server address

Recorded when push-to-talk session activation is successful. This measurement event begins the push-to-talk session state.

Push-to-talk user identity

Recorded when the push-to-talk state changes.

Services:SFTP SFTP SFTP SFTP SFTP SFTP SFTP SFTP SFTP

server connection attempt server disconnect server connect server connect failure server connection dropped file transfer attempt file transfer success file transfer dropped

Services:SMS SMS send time Definition according to ETSI TS 102 250-2: Access Delay SMS MO (AD SMS-MO). Time between sending a Short Message to a Short Message Centre (SMC) and receiving the notification from the Short Message Centre. Computation: Access Delay SMS MO (AD SMS-MO) = t2 - t1. t1: time when "send" button is pushed in terminal (MO). t2: point of time when the terminal (MO) receives confirmation from the SMS centre. Only those SMS are counted where the SMS receive attempt is included in the measurement data.

SMS end to end delivery time

Definition according to ETSI TS 102 250-2: SMS End-to-end Delivery Time (MO/MT) [s]. The time elapsing from pushing of the send button to the reception of the MMS by the b-parties mobile. NOTE: make sure that during the measurement, time sync between MO and MT test terminals exists.

SMS SMS SMS SMS SMS

send failure status report received receive success send success send attempt

Services:SMTP SMTP SMTP SMTP SMTP SMTP SMTP SMTP SMTP

server connection attempt server disconnect server connect server connect failure server connection dropped mail transfer attempt mail transfer success mail transfer dropped

Services:Streaming\YouTube YouTube video state Recorded when the data stream state changes.

Data transfer stream bandwidth

Recorded when the data stream state changes. Non-measured stream throughput that have to be used to be able to receive data stream without breaks.

YouTube video resolution

Recorded when the data stream state changes. The string format is XxY, e.g. 1920x1080.

YouTube video total duration

Recorded when the data stream state changes.

YouTube video current position

Recorded when the data stream state changes.

Data transfer stream content type

Recorded when the data stream state changes.

Data transfer stream video codec

Recorded when the data stream state changes.

Data transfer stream audio codec

Recorded when the data stream state changes.

Data transfer stream file size Amount of data to be transferred.

Video quality MOS Video quality BVQA MOS (PEVQ-S) Audio quality MOS streaming Average quality value during one audio sample.

Packet error rate downlink

Recorded semi-periodically when application layer data is transferred to or received from the server. The measurement event is written simultaneously with the DRATE measurement event for the documented UDPbased protocols. The ratio of erroneously received packets to total number of received packets.

Transferred packets downlink

Recorded semi-periodically when application layer data is transferred to or received from the server. The measurement event is written simultaneously with the DRATE measurement event for the documented UDPbased protocols.

Transferred packets uplink

Recorded semi-periodically when application layer data is transferred to or received from the server. The measurement event is written simultaneously with the DRATE measurement event for the documented UDPbased protocols.

Erroneous packets uplink

Recorded semi-periodically when application layer data is transferred to or received from the server. The measurement event is written simultaneously with the DRATE measurement event for the documented UDPbased protocols.

Erroneous packets downlink

Recorded semi-periodically when application layer data is transferred to or received from the server. The measurement event is written simultaneously with the DRATE measurement event for the documented UDPbased protocols.

YouTube video request failed (Video reproduction not started) Streaming sessions where the video reproductino never started.

YouTube video request failed (Initial buffering not started) Streaming sessions where the video buffering never started.

YouTube video dropped

Streaming sessions where the video reproduction started but was dropped in the middle.

YouTube video request YouTube video successfully completed

Streaming sessions where the whole video was successfully reproduced. Sessions with interruptions in the middle of the stream are included in the metric

YouTube video successfully started (buffering started)

Streaming request that successfully reached the buffering state (Nemo event DSS with buffering status).That is, the streaming client started to download and buffer the data but streaming reproduction did not yet start.

YouTube video rebuffering

Event for interrupted video stream, where stream is frozen and streaming client starts rebuffering

YouTube video rebuffering rate

Percentage of the total streaming session time where stream is frozen and streaming client starts rebuffering

YouTube session time

Time from stream start to stream end (From DREQ event to DCOMP event). Only successful streams are included.

YouTube video initial buffering time

Delay between the point when buffering is indicated by the streaming client, to the point of time when streaming reproducing is started by the streaming client.

YouTube video access time to buffering

Time from requesting the stream, to the point when buffering is indicated by the streaming client.

YouTube video access time

Time from requesting the stream, to the point when stream reproducion is indicated by the streaming client.

YouTube video player initialization time

Time per streaming session from the first Nemo DREQ event with streaming protocol to the first Nemo DSS event with status "Stopped". Indicates the time to initialize the video player software.

YouTube video access time

Time per streaming session from the first Nemo DSS event with status "Stopped" to the following Nemo DSS event with status "Buffering". Indicates the time the elapsed when the video player finds the stream, excluding the intial buffering time before reprduction starts.

YouTube video download time

Total time per streaming session the video was downloaded in.

Services:Trace route Traceroute attempt Recorded when data transfer is requested to or from the server. Begins the data transfer state.

Trace route One measurement event is recorded for each trace route host.

Services:Twitter Twitter Twitter Twitter Twitter

transaction transaction transaction transaction

attempt success failure time

Delay from DAA event (user initiates the transaction) to DCOMP event (transaction is successfully completed)

Twitter connection time

Time delay in seconds from Twitter connection attempt (DAA nemo event) to Twitter connection connect (DAC nemo event)

Twitter Twitter Twitter Twitter

transfer time connection attempt connection success connection failure

Services:USSD USSD send attempt Recorded when SMS, MMS, or USSD message sending is attempted or a message is received. This measurement event begins the SMS, MMS, and USSD transmission state.

USSD USSD USSD USSD USSD

receive attempt send success receive success send failure receive failure

Services:VoIP Skype server registration attempt Recorded when the user initiates the SIP server (or similar) registration attempt. This measurement event begins the SIP server registration attempt state.

Skype server registration failed

Recorded when registration to the SIP server (or similar) fails. This measurement event terminates the SIP server registration attempt state.

Skype server registration completed

Recorded when registration to the SIP server (or similar) succeeded and the connection is now established to the SIP server. This measurement event begins the SIP server registerion state.

Skype server deregistered

Recorded when the device is deregistered from the SIP server (or similar). This measurement event terminates the SIP server registration state.

Skype server deregistered abnormally

Recorded when the device is deregistered from the SIP server (or similar). This measurement event terminates the SIP server registration state.

SIP server registration attempt SIP server registration failed

Recorded when registration to the SIP server (or similar) fails. This measurement event terminates the SIP server registration attempt state.

SIP server registration completed

Recorded when registration to the SIP server (or similar) succeeded and the connection is now established to the SIP server. This measurement event begins the SIP server registerion state.

SIP server deregistered

Recorded when the device is deregistered from the SIP server (or similar). This measurement event terminates the SIP server registration state.

SIP server deregistered abnormally

Recorded when the device is deregistered from the SIP server (or similar). This measurement event terminates the SIP server registration state.

RTP jitter DL

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Sampling period is approximately about 500ms.

RTP round-trip-time

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Sampling period is approximately about 500ms.

RTP packet error rate

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Sampling period is approximately about 500ms. Ratio of missing RTP packets to all RTP packets that should have been received during the reporting period. Number of lost and total number of RTP packets are derived from RTP sequence number (packets are either lost or arrive too late).

VoIP codec

Recorded when VoIP information changes. Currently used VoIP codec that can change during the VoIP call. This is the same as what is configured as audio media (m=audio) in the SDP part of the SIP message. See more RFC 4566.

Push-to-talk state (QChat)

Recorded when voice call configuration or state changes.

Push-to-talk state (Kodiak)

Recorded when voice call configuration or state changes.

SIP signaling

Recorded when an SIP signaling message is sent or received.

SIP signaling parameter search

Searches for user-defined text inside decoded messages, and returns the following field for the first match. With the search start text it is possible to configure, that search starts after first occurence of another text in the decoded message

Services:Voice/video call Nemo event call attempt Call attempt (CAA) event with Nemo logfiles. Call initiation event with TEMS logfiles

Call type Nemo event call connected

Call connected (CAC) event with Nemo logfiles. TEMS events map to this parameter as follows: TEMS event "Call Attempt" equals to Nemo event "Call connected" with status value "Traffic channel", TEMS event "Call Setup" equals to Nemo event Call connected with status value "Alerting", TEMS event "Call established" equals to Nemo event "Call connected" with status value "Called party answered"

Nemo event call disconnected

Corresponds to Call disconnect (CAD) event in Nemo logfiles. With TEMS logfiles, corresponds to "Call End" and "Dropped Call" events

Nemo event call dropped

Corresponds to Call disconnected (CAD) event in Nemo logfiles with status value inequal to "Normal disconnect". With TEMS logfiles, corresponds to "Dropped call" event, and "Blocked call" event, if it was written before Alerting was reached.

Nemo event call attempt failure

"Call attempt failure" (CAF) event with Nemo logfiles. With TEMS logfiles corresponds to "Blocked call" events appearing before Alerting.

Call session

Definition according to ETSI TS 102 250-2. Applicaple for UMTS and GSM only. List of all calls with relevant information. Can be used as input in KPI workbench to group other data pr call

E2E Call session

List of all calls with relevant end to end information from both A and B side of the call. Works only with E2E call data made with nemo collection tools. Query must be executed across both A and B side logfiles.

Non-LTE Nemo event call attempt

Call attempt, definition according to Nemo events, CAA event with measured system not LTE.

Non-LTE Nemo event call connected

Call connected (CAC) event with Nemo logfiles. TEMS events map to this parameter as follows: TEMS event "Call Attempt" equals to Nemo event "Call connected" with status value "Traffic channel", TEMS event "Call Setup" equals to Nemo event Call connected with status value "Alerting", TEMS event "Call established" equals to Nemo event "Call connected" with status value "Called party answered"

Non-LTE Nemo event call disconnected

Corresponds to Call disconnect (CAD) event in Nemo logfiles, where the corresponding call attempt event (CAA) has measured system not LTE. With TEMS logfiles, corresponds to "Call End" and "Dropped Call" events

Non-LTE Nemo event call dropped

Corresponds to Call disconnected (CAD) event in Nemo logfiles with status value inequal to "Normal disconnect" and corresponding call attemt (CAA) event not having measured system LTE. With TEMS logfiles, corresponds to "Dropped call" event, and "Blocked call" event, if it was written before Alerting was reached.

Non-LTE Nemo event call attempt failure

"Call attempt failure" (CAF) event with Nemo logfiles where the corresponding call attempt event (CAA) has not measured system LTE. With TEMS logfiles corresponds to "Blocked call" events appearing before Alerting.

Call attempt

Definition according to ETSI TS 102 250-2. Event for voice and video call attempts, excluding attempts where terminal was out of service, call was failed due to test system. With TEMS logfiles, corresponds to "Call Initiation" event with the exclusions mentioned above.

Call attempt excluded

Calls excluded according to call testing definition in ETSI TS 102 250-2. That is, call attempts where terminal was out of service, or call was failed due to test system. With TEMS files excluded "Call Initiation" events.

Call connected

Definition according to ETSI TS 102 250-2. Connected voice and video calls (Nemo event CAC). Trigger point for the event is user-definable. if user selects Alerting as the trigger point, event is written from any of the three following events, whichever occurs first: L3 ALERTING message is received, B-party user busy is detected, or if call is connected (ALERTING message not used). if user selectes Called party answered as trigger point, event is written when called party answers the call. Calls where disconnect or failure event is not found from the measurement data are filtered out. TEMS events map to this parameter as follows: TEMS event "Call Setup" equals to Nemo event Call connected with status value "Alerting", TEMS event "Call established" equals to Nemo event "Call connected" with status value "Called party answered"

Call disconnected Definition according to ETSI TS 102 250-2. Event for disconnected voice and video calls. Trigger point for the call connected is user-definable, definition of call connected affects also the disconnect . if user selects Alerting as the trigger point for call connected, event is written for calls intentionally disconnected by A-party after L3 ALERTING message is received,. if user selects Called party answered as trigger point for call connected, event is written for calls intentionally disconnected by A-party after called party has answered the call. With TEMS logfiles, corresponds to "Call End" event.

Call dropped

Definition according to ETSI TS 102 250-2. Applicaple for UMTS and GSM only. Event for dropped voice and video calls. Trigger point for the event is user-definable. if user selects Alerting as the trigger point for call connected, event is written for calls dropped after L3 ALERTING message is received. if user selects Called party answered as trigger point for call connected, event is written for calls dropped after called party has answered the call. Dropped calls due to test system failure are excluded. With TEMS logfiles, corresponds to "Dropped call" events and "Blocked call" events written before Alerting was reached.

Call re-establishment

Definition according to ETSI TS 102 250-2. Applicaple for UMTS and GSM only. Event for dropped voice and video calls. Trigger point for the event is user-definable. if user selects Alerting as the trigger point for call connected, event is written for calls dropped after L3 ALERTING message is received. if user selects Called party answered as trigger point for call connected, event is written for calls dropped after called party has answered the call. Dropped calls due to test system failure are excluded.

Call attempt failure

Definition according to ETSI TS 102 250-2. Applicaple for UMTS and GSM only. Event for failed voice and video call attempts. Trigger point for the event is user-definable. if user selects Alerting as the trigger point for call connected, event is written for calls failed before L3 ALERTING message is received. if user selects Called party answered as trigger point for call connected, event is written for calls failed before called party has answered the call. Failed calls due to test system failure are excluded. With TEMS logfiles corresponds to "Blocked call" events appearing before Alerting.

Call setup time selected trigger

Time from call attempt (Nemo event CAA) to selected trigger point in seconds. Only mobile originated calls considered.

E2E Call setup time to B-party ALERTING

Time from call attempt (Nemo event CAA) in A-side to L3 ALERTING message in B-side in seconds. Works only with E2E call data made with nemo collection tools. Query must be executed across both A and B side logfiles.

Call setup time to ALERTING

Time from call attempt (Nemo event CAA) to L3 ALERTING message in seconds.

Call setup time to CONNECTED

Time from call attempt (Nemo event CAA) to call connected (Nemo event CAC3) in seconds.

Call setup time to ALERTING WCDMA

Time from call attempt (Nemo event CAA) to L3 ALERTING message in seconds. Only mobile originated calls started in WCDMA considered.

Call setup time to ALERTING GSM

Time from call attempt (Nemo event CAA) to L3 ALERTING message in seconds. Only mobile originated calls started in GSM considered.

Call setup time to PROGRESS

Time from call attempt (Nemo event CAA) to L3 PROGRESS message in seconds. Only mobile originated calls considered.

MO Call setup time from RRC_CONNECTION_REQUEST to ALERTING Call setup time from RRC_CONNECTION_REQUEST message to ALERTING message in seconds. Only mobile originated calls considered.

Call setup time to traffic ch accessed

Time from call attempt (Nemo event CAA) to point where traffic channel accessed (Nemo event CAC1). Only mobile originated calls considered.

MO Call setup time to called party answered

Time from call attempt (Nemo event CAA) to point of time when call is answered by B-party (Nemo event CAC3 in seconds. Only mobile originated calls considered.

Voice quality server call end to end time

Time from call attempt (Nemo event CAA) to point of time when call is alerting (answered in CDMA) at B-party in seconds

CS status Call attempt failure signaling matrix

List of failed call attempts and indication of the occurance of each signaling message belonging to the procedure

Voice call session statistics

Key metrics per voice call. All the radio metrics are aggregated for the duration of the call, between CAA and CAD Nemo events.

Voice codec distribution in 2G/3G

Services:Voice/video call:CSFB CSFB call attempt Definition according to ETSI TS 102 250-2. Event for voice and video call attempts, excluding attempts where terminal was out of service, call was failed due to test system. With TEMS logfiles, corresponds to "Call Initiation" event with the exclusions mentioned above.

CSFB call connected

Definition according to ETSI TS 102 250-2. Connected voice and video calls (Nemo event CAC). Trigger point for the event is user-definable. if user selects Alerting as the trigger point, event is written from any of the three following events, whichever occurs first: L3 ALERTING message is received, B-party user busy is detected, or if call is connected (ALERTING message not used). if user selectes Called party answered as trigger point, event is written when called party answers the call. Calls where disconnect or failure event is not found from the measurement data are filtered out. TEMS events map to this parameter as follows: TEMS event "Call Setup" equals to Nemo event Call connected with status value "Alerting", TEMS event "Call established" equals to Nemo event "Call connected" with status value "Called party answered"

CSFB call disconnected

Definition according to ETSI TS 102 250-2. Event for disconnected voice and video calls. Trigger point for the call connected is user-definable, definition of call connected affects also the disconnect . if user selects Alerting as the trigger point for call connected, event is written for calls intentionally disconnected by A-party after L3 ALERTING message is received,. if user selects Called party answered as trigger point for call connected, event is written for calls intentionally disconnected by A-party after called party has answered the call. With TEMS logfiles, corresponds to "Call End" event.

CSFB call dropped

Definition according to ETSI TS 102 250-2. Applicaple for UMTS and GSM only. Event for dropped voice and video calls. Trigger point for the event is user-definable. if user selects Alerting as the trigger point for call connected, event is written for calls dropped after L3 ALERTING message is received. if user selects Called party answered as trigger point for call connected, event is written for calls dropped after called party has answered the call. Dropped calls due to test system failure are excluded. With TEMS logfiles, corresponds to "Dropped call" events and "Blocked call" events written before Alerting was reached.

CSFB call attempt failure

Definition according to ETSI TS 102 250-2. Applicaple for UMTS and GSM only. Event for failed voice and video call attempts. Trigger point for the event is user-definable. if user selects Alerting as the trigger point for call connected, event is written for calls failed before L3 ALERTING message is received. if user selects Called party answered as trigger point for call connected, event is written for calls failed before called party has answered the call. Failed calls due to test system failure are excluded. With TEMS logfiles corresponds to "Blocked call" events appearing before Alerting.

CSFB Nemo event call attempt

CSFB call attempt, definition according to Nemo events, CAA event with measured system LTE and call type voice.

CSFB Nemo event call connected

Call connected (CAC) event with Nemo logfiles. TEMS events map to this parameter as follows: TEMS event "Call Attempt" equals to Nemo event "Call connected" with status value "Traffic channel", TEMS event "Call Setup" equals to Nemo event Call connected with status value "Alerting", TEMS event "Call established" equals to Nemo event "Call connected" with status value "Called party answered"

CSFB Nemo event call disconnected Corresponds to Call disconnect (CAD) event in Nemo logfiles, where the corresponding call attempt event (CAA) has LTE measured system and call type is voice. With TEMS logfiles, corresponds to "Call End" and "Dropped Call" events

CSFB Nemo event call dropped

Corresponds to Call disconnected (CAD) event in Nemo logfiles with status value inequal to "Normal disconnect" and corresponding call attemt (CAA) event having LTE measured system and call type voice. With TEMS logfiles, corresponds to "Dropped call" event, and "Blocked call" event, if it was written before Alerting was reached.

CSFB Nemo event call attempt failure

"Call attempt failure" (CAF) event with Nemo logfiles where the corresponding call attempt event (CAA) has LTE measured system and call type voice. With TEMS logfiles corresponds to "Blocked call" events appearing before Alerting.

Call setup time to ALERTING CSFB

LTE CS Fallback call setup time. Time from call attempt (Nemo event CAA) to L3 ALERTING message in seconds. Only mobile originated calls considered.

Call setup time to CONNECTED CSFB

LTE CS Fallback call setup time. Time from call attempt (Nemo event CAA) to L3 CONNECTED message in seconds.

Services:Voice/video call:LTE IMS voice Call setup time to ALERTING LTE IMS voice Call setup time for LTE IMS voice. Time from call attempt (Nemo event CAA, SIP:Invite) to alerting tone (SIP:Ringing, Nemo event: CAC2) in seconds. Only mobile originated calls considered.

Call setup time to ALERTING LTE IMS voice (RRC connected)

Call setup time for LTE IMS voice. Time from call attempt (Nemo event CAA, SIP:Invite) to alerting tone (SIP:Ringing, Nemo event: CAC2) in seconds. Only mobile originated calls considered where call was initiated in RRC state connected.

Call setup time to ALERTING LTE IMS voice (RRC idle)

Call setup time for LTE IMS voice. Time from call attempt (Nemo event CAA, SIP:Invite) to alerting tone (SIP:Ringing, Nemo event: CAC2) in seconds. Only mobile originated calls considered where call was initiated in RRC state idle.

LTE IMS voice call attempt

Definition according to ETSI TS 102 250-2. Event for voice and video call attempts, excluding attempts where terminal was out of service, call was failed due to test system. With TEMS logfiles, corresponds to "Call Initiation" event with the exclusions mentioned above.

LTE IMS voice call connected

Definition according to ETSI TS 102 250-2. Connected voice and video calls (Nemo event CAC). Trigger point for the event is user-definable. if user selects Alerting as the trigger point, event is written from any of the three following events, whichever occurs first: L3 ALERTING message is received, B-party user busy is detected, or if call is connected (ALERTING message not used). if user selectes Called party answered as trigger point, event is written when called party answers the call. Calls where disconnect or failure event is not found from the measurement data are filtered out. TEMS events map to this parameter as follows: TEMS event "Call Setup" equals to Nemo event Call connected with status value "Alerting", TEMS event "Call established" equals to Nemo event "Call connected" with status value "Called party answered"

LTE IMS voice call disconnected

Definition according to ETSI TS 102 250-2. Event for disconnected voice and video calls. Trigger point for the call connected is user-definable, definition of call connected affects also the disconnect . if user selects Alerting as the trigger point for call connected, event is written for calls intentionally disconnected by A-party after L3 ALERTING message is received,. if user selects Called party answered as trigger point for call connected, event is written for calls intentionally disconnected by A-party after called party has answered the call. With TEMS logfiles, corresponds to "Call End" event.

LTE IMS voice call dropped

Definition according to ETSI TS 102 250-2. Applicaple for UMTS and GSM only. Event for dropped voice and video calls. Trigger point for the event is user-definable. if user selects Alerting as the trigger point for call connected, event is written for calls dropped after L3 ALERTING message is received. if user selects Called party answered as trigger point for call connected, event is written for calls dropped after called party has answered the call. Dropped calls due to test system failure are excluded. With TEMS logfiles, corresponds to "Dropped call" events and "Blocked call" events written before Alerting was reached.

LTE IMS voice call attempt failure

Definition according to ETSI TS 102 250-2. Applicaple for UMTS and GSM only. Event for failed voice and video call attempts. Trigger point for the event is user-definable. if user selects Alerting as the trigger point for call connected, event is written for calls failed before L3 ALERTING message is received. if user selects Called party answered as trigger point for call connected, event is written for calls failed before called party has answered

the call. Failed calls due to test system failure are excluded. With TEMS logfiles corresponds to "Blocked call" events appearing before Alerting.

Services:Voice/video call:Video Video protocol Video call quality index Video FER Number of erroneous frames received.

Video Video Video Video

frame rate uplink frame rate downlink rate downlink rate uplink

Services:Voice/video call:VoLTE:AMR AMR mode downlink LTE AMR mode uplink LTE Services:Voice/video call:Voice:AMR AMR initial codec mode Recorded when AMR information is modified based on the trace messages of the device.

AMR initial codec mode indicator

Recorded when AMR information is modified based on the trace messages of the device.

AMR first hysteresis AMR first threshold

Recorded when AMR information is modified based on the trace messages of the device.

AMR second threshold AMR second hysteresis

Recorded when AMR information is modified based on the trace messages of the device.

AMR third threshold AMR third hysteresis

Recorded when AMR information is modified based on the trace messages of the device.

AMR number of active codecs

Recorded when AMR information is modified based on the trace messages of the device.

AMR active codecs

Recorded when AMR information is modified based on the trace messages of the device.

AMR mode uplink GSM

Recorded when AMR information is modified based on the trace messages of the device.

AMR mode uplink UMTS

Recorded when AMR information is modified based on the trace messages of the device.

AMR mode downlink GSM

Recorded when AMR information is modified based on the trace messages of the device.

AMR mode downlink UMTS

Recorded when AMR information is modified based on the trace messages of the device.

AMR last mode command

Recorded when AMR information is modified based on the trace messages of the device. Last mode command within mode set.

AMR last mode request

Recorded when AMR information is modified based on the trace messages of the device. Last mode request within mode set.

AMR channel type

Recorded when AMR information is modified based on the trace messages of the device.

AMR link quality estimate

Recorded when parameter sample is received from the device and the received sample differs from the previous result.

AMR UL codec mode distribution AMR DL codec mode distribution Services:Voice/video call:Voice:Voice quality Audio quality echo sample type Recorded after voice quality sample is transmitted and the echo of the sample is calculated. This measurement event is recorded only during voice quality measurements.

Audio quality echo annoyance

Recorded after voice quality sample is transmitted and the echo of the sample is calculated. This measurement event is recorded only during voice quality measurements.

Audio quality echo level

Recorded after voice quality sample is transmitted and the echo of the sample is calculated. This measurement event is recorded only during voice quality measurements. This is same as echo return loss parameter.

Audio quality echo delay

Recorded after voice quality sample is transmitted and the echo of the sample is calculated. This measurement event is recorded only during voice quality measurements.

Audio quality echo occurrence

Recorded after voice quality sample is transmitted and the echo of the sample is calculated. This measurement event is recorded only during voice quality measurements. Defines the ratio of echo in the reported echo sample.

Audio quality diff to tolerance

Recorded after voice quality sample is transmitted and the echo of the sample is calculated. This measurement event is recorded only during voice quality measurements. Defines the measured echo level difference to the tolerance curve defined by ITU-T record G.131.

Audio reception RX state

Recorded during audio reception.

Audio quality MOS (PESQ-LQ) DL PESQ audio quality score mapped to PESQ-LQ Mean Opinion Score (MOS) scale. PESQ-LQ is a non-standard mapping.

Audio quality MOS (PESQ-LQ) UL

PESQ audio quality score mapped to PESQ-LQ Mean Opinion Score (MOS) scale. PESQ-LQ is a non-standard mapping.

Audio quality sample filename UL

Recorded after voice quality sample is received and the MOS score of the sample is calculated. This measurement event is recorded only during voice quality measurements.

Audio quality reference sample filename UL

Recorded after voice quality sample is received and the MOS score of the sample is calculated. This measurement event is recorded only during voice quality measurements.

Audio sample duration UL

Recorded after voice quality sample is received and the MOS score of the sample is calculated. This measurement event is recorded only during voice quality measurements.

Audio quality test type

Recorded when the measurement tool achieves synchronization with the transferred voice quality sample. This measurement event is recorded only during voice quality measurements.

Audio quality synchronization status

Recorded when the measurement tool achieves synchronization with the transferred voice quality sample. This measurement event is recorded only during voice quality measurements.

Audio quality MOS DL with channel type/speech codec

MOS DL samples with the GSM and UMTS speech codec at the beginning of the MOS score assessing period

Audio quality MOS DL (PSM mobile) with channel type/speech codec MOS DL samples with the GSM and UMTS speech codec at the beginning of the MOS score assessing period

Audio quality MOS (PSM mobile) DL

Recorded after voice quality sample is received and the MOS score of the sample is calculated. This measurement event is recorded only during voice quality measurements.

Audio quality MOS DL

Recorded after voice quality sample is received and the MOS score of the sample is calculated. This measurement event is recorded only during voice quality measurements. Average quality value during one audio sample.

Audio quality speech activity

Recorded after voice quality sample is received and the MOS score of the sample is calculated. This measurement event is recorded only during voice quality measurements.

Audio quality delay mean Recorded after voice quality sample is received and the MOS score of the sample is calculated. This measurement event is recorded only during voice quality measurements.

Audio quality delay min

Recorded after voice quality sample is received and the MOS score of the sample is calculated. This measurement event is recorded only during voice quality measurements. See description for audio quality delay mean -parameter.

Audio quality delay max

Recorded after voice quality sample is received and the MOS score of the sample is calculated. This measurement event is recorded only during voice quality measurements. See description for audio quality delay mean -parameter.

Audio quality delay std

Recorded after voice quality sample is received and the MOS score of the sample is calculated. This measurement event is recorded only during voice quality measurements. See description for audio quality delay mean -parameter.

Audio quality SNR

Recorded after voice quality sample is received and the MOS score of the sample is calculated. This measurement event is recorded only during voice quality measurements.

Audio quality SQI

Speech quality index. Only available with TEMS measurements.

Audio quality SQI MOS

Speech quality index expressed on the MOS scale. Only available with TEMS measurements.

Audio quality sample filename DL

Recorded after voice quality sample is received and the MOS score of the sample is calculated. This measurement event is recorded only during voice quality measurements. Name of the audio sample file stored on disk during measurement. Empty if the file is not saved.

Audio quality reference sample filename DL

Recorded after voice quality sample is received and the MOS score of the sample is calculated. This measurement event is recorded only during voice quality measurements.

Audio quality sample duration DL

Recorded after voice quality sample is received and the MOS score of the sample is calculated. This measurement event is recorded only during voice quality measurements.

Audio quality insertion gain

Recorded after voice quality sample is received and the MOS score of the sample is calculated. This measurement event is recorded only during voice quality measurements. Gain calculated for active signal in active periods. dB difference between active signal of reference and degraded signals (calculated as of degraded minus of reference signal). Typical value is 0 dB for digital signal.

Audio quality noise gain

Recorded after voice quality sample is received and the MOS score of the sample is calculated. This measurement event is recorded only during voice quality measurements.

Audio quality signal status

Recorded when the measurement tool achieves synchronization with the transferred voice quality sample. This measurement event is recorded only during voice quality measurements. This parameter has never been logged and it is deprecated.

Avg. audio quality MOS DL per 1st active scr Avg. audio quality MOS DL per BCCH Audio quality MOS UL with channel type/speech codec

Audio quality MOS values from the server logfile, and the coordinates from corresponding mobile logfile. The query has to be executed for the mobile logfile, and the server side logfilehas to be in the database. Server side UL MOS values are automatically correlated with the mobile file. When run with filters, the filtering is based on attributes, such as system, scrambling code, etc, from the corresponding mobile logfile. Note that there needs to be time sync between the server and mobile logfiles. Also, the phone number of the server line has to be configured to the server so that it appears in the server logfile header.

Audio quality MOS UL

Audio quality MOS values from the server logfile, and the coordinates from corresponding mobile logfile. The query has to be executed for the mobile logfile, and the server side logfilehas to be in the database. Server side UL MOS values are automatically correlated with the mobile file. When run with filters, the filtering is based on attributes, such as system, scrambling code, etc, from the corresponding mobile logfile. The parameter needs to be executed over a folder containing both server file, and corresponding mobile logfile. Note that there needs to be time sync between the server and mobile logfiles. Also, the phone number of the server line has to be configured to the server so that it appears in the server logfile header. Audio quality mean Average quality value during one audio sample.

Audio quality MOS UL with time offset

Audio quality MOS values from the server logfile, and the coordinates from corresponding mobile logfile. The query has to be executed for the mobile logfile, and the server side logfilehas to be in the database. Server side UL MOS values are automatically correlated with the mobile file. When run with filters, the filtering is based on attributes, such as system, scrambling code, etc, from the corresponding mobile logfile. The

parameter needs to be executed over a folder containing both server file, and corresponding mobile logfile. Note that there needs to be time sync between the server and mobile logfiles. Also, the phone number of the server line has to be configured to the server so that it appears in the server logfile header. Time offset of the UL MOS samples is adjustable in case the server and mobile times were not aligned at the time of the test.

Audio quality type DL Audio quality type UL Services:WAP WAP WAP WAP WAP

attempt success failure content

Recorded after data transfer has been completed and WAP/HTML content has been parsed.

Spectrum scanner Resolution bandwidth To be able to scan large bandwidth spectrums, the total sweep bandwidth must be divided into smaller parts. The resolution bandwidth defines the size of the smaller parts, each of which is scanned separately.

Sweep bandwidth

The total scanned bandwidth that is divided into smaller parts before the scanning.

Sweep minimum RX level

Minimum RX levels measured over bandwidth of 'resolution bandwidth'.

Sweep maximum RX level

Maximum RX levels measured over bandwidth of 'resolution bandwidth'.

Sweep center frequency Sweep average RX level selected frequency Sweep average RX level

The linear average of RX levels measured over bandwidth of 'resolution bandwidth'.

Spectrum scan Scanning configuration Defines scanning settings.

TD-SCDMA TD-SCDMA uplink repetition length TD-SCDMA uplink repetition period Valid values are 1, 2, 4, 8, 16, 32, and 64

TD-SCDMA downlink repetition length TD-SCDMA downlink repetition period Valid values are 1, 2, 4, 8, 16, 32, and 64

TD-SCDMA physical channel type Physical channel direction Timeslot TD-SCDMA spreading factor TD-SCDMA channelisation code Midamble configuration

Valid values are 2, 4, 6, 8, 10, 12, 14, and 16.

Midamble shift PCCPCH C/I Number of "UL power up" commands

Number of received "UL power up" commands (BTS to mobile).

Number of "UL power down" commands

Number of received "UL power down" commands (BTS to mobile).

Percentage of "UL power up" commands

In percentage the number of "UL power up" commands from all commands. If this value is 100%, all commands request to increase power.

Number of "DL power up" commands

Number of sent "DL power up" commands (mobile to BTS).

Number of "DL power down" commands

Number of sent "DL power down" commands (mobile to BTS).

Percentage of "DL power up" commands

In percentage the number of "DL power up" commands from all commands. If this value is 100%, all commands request to increase power.

Neighborlist

List of neighbors seen by the terminal

Radio bearer info

Recorded when UMTS radio bearer allocation is modified. Currently based on information received from the trace interface of the device.

Transport channel info

Recorded when UMTS transport channel allocation is modified. Currently based on information received from the trace interface of the device.

BLER selected transport channel BLER transport channels Frame error rate Mobile country code

Recorded when service state or mobility information changes. See ITU-T recommendation E.212.

Operator Mobile network code

Recorded when service state or mobility information changes.

TMSI

Recorded when service state or mobility information changes. Temporary mobile subscriber identity. See 3GPP TS 124.008 subclause 10.5.1.4 and 3GPP TS 123.003 subclause 2.4.

P-TMSI

Recorded when service state or mobility information changes. Packet temporary mobile subscriber identity. See 3GPP TS 124.008 subclause 10.5.1.4 and 3GPP TS 123.003 subclause 2.7.

Location area update failure

Recorded based on MM layer3 signaling when location area update has failed. This measurement event terminates the location area update state.

Location area update attempt

Recorded when the mobile starts location area update using MM layer3 signaling message. This measurement event begins the location area update state.

Location area update success

Recorded based on MM layer3 signaling when location area update has been successful. This measurement event terminates the location area update state.

Location area update time Cell identification

Cell identity of the current cell. For GSM this is 16 bit value, for UMTS this is 28 bit value (RNC ID + 16 bit cell ID), and for LTE this is 28 bit value (eNB ID + 8 bit cell ID).

Location area code RRC state RRC state during data transfer

RRC state filtered from the tim instants where data transfer is active (between DREQ and DCOMP nemo events

DRX cycle length

Defines how often paging indications are monitored.

L3 signaling

Recorded when a Layer 3 or an NAS signaling message is sent or received.

RRC and L3 signaling L3 message search

Searches for user-defined messages, with user-defined string in the message name

Packet technology Packet technology during data transfer

Packet technology between nemo events DAA to DAD or DAF

Packet state Routing area code Network mode of operation

BLER DL RLC throughput uplink The value of this parameter is calculated based on the SDUs that are successfully transferred through the RLC layer. Missing and erroneous RLC blocks are excluded from the throughput calculation.

RLC throughput downlink

The value of this parameter is calculated based on the SDUs that are successfully transferred through the RLC layer. Missing and erroneous RLC blocks are excluded from the throughput calculation.

TX power control step size Signal-to-interference ratio target Current target SIR at update time.

Signal-to-interference ratio

See 3GPP TS 125.215 subclause 5.2.2.

TX power Channel number TD-SCDMA pilot pollution

Number of cells that are within user defined window from the best cell in terms of RSCP, when best RSCP is above user defined threshold.

Treselection

The time which the new cell has had to be ranked better than the old cell before cell reselection is possible. See 3GPP TS 25.304 subclause 5.2.6.1.4.

Measurement event

Recorded when a UMTS measurement event is transmitted to the network based on signaling messages.

Cell reselection Handover events Handover attempt Handover success Handover failure Timing advance Timeslot ISCP Timeslot RSCP Cell parameters ID Max TX power DPCH channel number RSCP serving cell RSCP neighbour cells Pathloss serving cell Pathloss neighbour cells Carrier RSSI RLC throughput uplink per radio bearer

Uplink RLC throughput for specified radio bearer.

RLC throughput downlink per radio bearer Downlink RLC throughput for specified radio bearer.

RLC retransmission rate uplink per radio bearer TD-SCDMA Scanner Carrier RSSI (frequency scanning mode) selected channel Ec/I0 PCCPCH selected channel The received energy per chip divided by the relevant measured power density (noise and signal) in the wide band.

Ec/I0 SYNC DL selected channel

The received energy per chip divided by the relevant measured power density (noise and signal) in the wide band.

Time offset PCCPCH selected channel Position of a selected pilot.

Time offset SYNC DL selected channel Position of a selected pilot.

SIR PCCPCH selected channel SIR SYNC DL selected channel

RSCP PCCPCH selected channel RSCP SYNC DL selected channel Carrier RSSI (pilot scanning mode) PCCPCH selected channel Carrier RSSI (pilot scanning mode) SYNC DL selected channel TD-SCDMA:Cell reselection criteria Srxlev active set Srxlev monitored set Srxlev detected set Hrxlev active set Hrxlev monitored set Hrxlev detected set Rrxlev active set Rrxlev monitored set Rrxlev detected set TD-SCDMA:HSDPA MAC number of ACK/NACK messages sent Recorded when parameter sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session.

MAC-hs block error rate downlink

Recorded when parameter sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session.

MAC-hs residual block error rate Recorded when parameter sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session.

HSDPA MAC-hs block rate

Recorded when measurement sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session. Separate measurement event is logged for each serving cell with LTE.

HSDPA MAC-hs throughput

Recorded when measurement sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session. Separate measurement event is logged for each serving cell with LTE.

HSDPA MAC-hs 1st retransmission rate

Recorded when measurement sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session. Separate measurement event is logged for each serving cell with LTE. Number of blocks retransmitted after the first transmission attempt.

HSDPA MAC-hs 2nd retransmission rate

Recorded when measurement sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session. Separate measurement event is logged for each serving cell with LTE. Number of blocks retransmitted after the second transmission attempt.

HSDPA MAC-hs 3rd+ retransmission rate

Recorded when measurement sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session. Separate measurement event is logged for each serving cell with LTE. Number of blocks retransmitted after the third or later transmission attempt.

HSDPA UE category

Defines the current maximum possible HSDPA UE category. This is limited by cell configuration and UE capabilities.

HSDPA physical layer requested throughput HSDPA CQI distribution CQI (mode)

The most common CQI value over the reporting period

HS-SCCH usage

Recorded every 200 milliseconds to indicate HS-SCCH channel usage based on the trace messages of the mobile. This measurement event is recorded simultaneously with the PLAID measurement event.

HARQ Throughput

Recorded every 200 milliseconds to indicate HSDPA HARQ throughput based on the trace messages of the mobile. This measurement event is recorded simultaneously with the PLAID measurement event.

HARQ BLER

Recorded every 200 milliseconds to indicate HSDPA HARQ throughput based on the trace messages of the mobile. This measurement event is recorded simultaneously with the PLAID measurement event.

HARQ number of packets transferred

Recorded every 200 milliseconds to indicate HSDPA HARQ throughput based on the trace messages of the mobile. This measurement event is recorded simultaneously with the PLAID measurement event.

HSDPA HS-SCCH C/I

Recorded when the information is received from the device.

HSDPA HS-SCCH ISCP

Recorded when the information is received from the device.

HSDPA HS-SCCH RSCP

Recorded when the information is received from the device.

HSDPA HS-SCCH SIR

Recorded when the information is received from the device.

HSDPA HS-PDSCH SIR Recorded when the information is received from the device.

HSDPA HS-PDSCH ISCP

Recorded when the information is received from the device.

HSDPA HS-PDSCH RSCP

Recorded when the information is received from the device.

HSDPA HS-PDSCH C/I

TD-SCDMA:HSDPA:Link adaptation HSDPA HSDPA HSDPA HSDPA HSDPA HSDPA HSDPA

HS-PDSCH throughput retransmission rate percentage number of codes percentage modulation percentage transport block size percentage transport block size statistics transport block size (mode)

The most common value of the transport block size over the reporting period

HSDPA number of codes (mode)

The most common value of number of multicodes over the reporting period

HSDPA modulation (mode)

The most common value of modulation over the reporting period

HSDPA link adaptation parameter distribution TD-SCDMA:RACH RACH message length

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

RACH SYNC UL initial TX power

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Initial transmission power.

RACH SYNC UL power

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Power of last SYNC UL.

RACH TX power

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Total transmission power used in RACH message part (control + data).

RACH SYNC UL step

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

RACH SYNC UL count

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Transmitted preamble transmission count.

RACH SYNC UL maximum count

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Valid values are 1, 2, 4, and 8. This is the same as _Max SYNC_UL Transmissions_ parameter signaled by network in RRC layer and it defines the maximum number of preamble attempts.

RACH PCCPCH pathloss

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

RACH FPACH status

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

RACH desired UpPCH RX power

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

RACH desired UpRACH RX power

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

RACH max preamble cycles

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Maximum number of preamble cycles.

TD-SCDMA:RRC RRC and L3 signaling RRC message search Searches for user-defined messages, with user-defined string in the message name

RRC signaling RRC connection attempt

Recorded based on RRC signaling when RRC connection is attempted. This measurement event begins the RRC connection attempt state.

RRC connection connected

Recorded based on RRC signaling when RRC connection is established. This measurement event begins the RRC connection state.

RRC connection disconnected RRC connection attempt failure

Recorded based on RRC signaling when RRC connection attempt fails. This measurement event terminates the RRC connection attempt state.

TDMA Serving system and band Recorded when channel configuration information changes.

Serving system

Recorded when channel configuration information changes.

Serving band

Recorded when channel configuration information changes.

L3 signaling

Recorded when a Layer 3 or an NAS signaling message is sent or received.

L3 message search

Searches for user-defined messages, with user-defined string in the message name

Channel number Recorded when channel configuration information changes.

Timeslot number

In case of HSCSD data test call, used timeslots are listed in a DCHI event.

Rx level Neighbor RX levels BER class

Recorded when parameter sample is received from the device and the received sample differs from the previous result. BER class value reported by mobile.

Timing alignment

Reported timing alignment.

MS power level

Recorded when parameter sample is received from the device and the received sample differs from the previous result.

Channel type NW type PSID2

PSID (private system identification) value 2.

PSID4

PSID (private system identification) value 4.

REG PERIOD

If not available, set to -1.

RNUM

If LAREG parameter has the value of 1, RNUM parameter will have a value.

LAREG PSID3

PSID (private system identification) value 3.

Digital color code L3 signaling parameter search

Searches for user-defined text inside decoded messages, and returns the following field for the first match. With the search start text it is possible to configure, that search starts after first occurence of another text in the decoded message

Downlink Band Handover events Handover attempt Handover success Handover failure TDMA Scanner

Rx level RX level selected channel RX level Nth best RX level top N TETRA Call type Serving system Recorded when channel configuration information changes.

Serving band

Recorded when channel configuration information changes.

Band Channel number Subchannel Extended subchannel Slot number

BER Recorded when parameter sample is received from the device and the received sample differs from the previous result. Bit error rate that is calculated with training sequence algorithm.

Message error rate

Recorded when parameter sample is received from the device and the received sample differs from the previous result.

TX power

MS transit power.

TX power change TX power control algorithm RSSI best RSSI selected channel RSSI serving cell RSSI neighbor cells RSSI Nth best neighbor Push-to-talk communication type Recorded when the push-to-talk state changes.

Push-to-talk state L3 signaling

Recorded when a Layer 3 or an NAS signaling message is sent or received.

L3 message search

Searches for user-defined messages, with user-defined string in the message name

LLC signaling

Recorded when an LLC signaling message is sent or received.

L3 signaling parameter search

Searches for user-defined text inside decoded messages, and returns the following field for the first match. With the search start text it is possible to configure, that search starts after first occurence of another text in the decoded message

CS status

TETRA:Encryption Encryption Air interface encryption Recorded when ciphering information is modified.

Ciphering KSG

Recorded when ciphering information is modified.

Ciphering SCK

Recorded when ciphering information is modified.

TETRA:Mobility management LAC Location area update failure Recorded based on MM layer3 signaling when location area update has failed. This measurement event terminates the location area update state.

Location area update attempt

Recorded when the mobile starts location area update using MM layer3 signaling message. This measurement event begins the location area update state.

Location area update success

Recorded based on MM layer3 signaling when location area update has been successful. This measurement event terminates the location area update state.

Location area update time Cell reselection Handover events Handover attempt Handover success

Handover failure Tetrapol:Custom attributes:Mode Test BestServerRxLev BestServerChannel BestServerFrequency 2ndBestServerRxLev 2ndBestServerChannel 2ndBestServerFrequency ExtendBestServerRxLev ExtendBestServerChannel ExtendBestServerFrequency Tetrapol:Custom attributes:Specific REMS Speech Rx Duration Speech Tx Duration PTT Duration ST Transmitted Power Tetrapol:Custom attributes:Standard and REMS CCH Selection RB Selection Nominal Frame Error Rate MeanRxLevCCHx MeanRxLevCCHx with BTS ref. information RxLev_CCH39k CurrentMeanRxLev EstimatedTxPower NborMeanRxLev_X BestNborCellRxLev BestNborCellCCH 2ndBestNborCellRxLev 2ndBestNborCellCCH FrameErrorRate Level ChannelMonitoring TrafficChannel Tetrapol:Dedicated Radio Link InvalidFrames_Number Tetrapol:Event Data:Common and Standard, REMS and Test Terminal_Mode TemperatureAlarm InvalidMessage Text_Message

Tetrapol:Event Data:Specific REMS CommSuspended CommReestablishment CommServiceDenied CommReady STAlarm CommEnter CommLeave PTTRequest PTTRelease Tetrapol:Event Data:Standard and REMS CSelStart CSelDistribTKGList CSelDistribEmergencyList CSelDistribMOCHList DMNMActivation DMNMDetection LostChannel RSelGMSKDetection_NOK RSelBestNeighbourCell CSelRegistration_OK CSelRegistration_NOK Fast_Registration Tunnel_Out Tunnel_In EventNewTRState Cell_Memorization Tetrapol:Independent:GPS Data Distance Latitude and longitude Tetrapol:Messages REMS:Messages common and Standard, REMS and Test:GPSInfo NbSat Speed Tetrapol:Messages REMS:Messages common and Standard, REMS and Test:Info Source Level Code Label

Tetrapol:Messages REMS:Messages common and Standard, REMS and Test:STInfo HardwareType SecondaryHardwareType LinkType ProjectType SoftwareVersion MaxNominalTxPower Tetrapol:Messages REMS:Messages common and Standard, REMS and Test:STSetup SerialPort UseInterfaceBox ProjectName ChannelSpacing DuplexSpacing InitChannel XVCO ChannelOffset SerialBaudRate Tetrapol:Messages REMS:Messages common and Standard, REMS and Test:STState Power STMode Tetrapol:Messages REMS:Messages common and Standard, REMS and Test:TemperatureAlarm State Tetrapol:Messages REMS:Mode Test:AvRLinkQual AvRLinkQual BERCl1 AvRLinkQual BERCl2 AvRLinkQual BER AvRLinkQual FER TotalNbFrames Tetrapol:Messages REMS:Mode Test:RLinkQual RLinkQual BERCl1 RLinkQual BERCl2 RLinkQual BER RLinkQual FER TotalNbFrames

Tetrapol:Messages REMS:Mode Test:RxLev Channel RxLev Tetrapol:Messages REMS:REMS Specific:CommInit InterfaceVersion STAddress SerialNumber SoftwareService NominalOG ResetOrigin Trap1 Trap2 Alarm DebugFlag DebugClass ForwardState HostAddress STRange STType LoudSpeakerState SpeechVolume ToneVolume PTTPriority Tetrapol:Messages REMS:REMS Specific:CommLeave CallType Tetrapol:Messages REMS:REMS Specific:CommReady CipheringKeyIndex Tetrapol:Messages REMS:REMS Specific:CommSuspended CommType Tetrapol:Messages REMS:REMS Specific:ConfigTypeCallBehaviour AcceptIncomingCall Tetrapol:Messages REMS:REMS Specific:ConfigTypeCommBehaviour AutoEntryInFallBackMOCH AutoEntryInBroadcastCall

LocalManualKey PTTInBroadcastCall OutgoingExternGroupCall AutoIncomingCallAnswer PriorityScanMode DMNM Tetrapol:Messages REMS:REMS Specific:ConfigTypeDataBehaviour DataImplicitAddressing Tetrapol:Messages REMS:REMS Specific:ConfigTypeMonitoring MOCH Emergency COV EmergencyNotification CrisisNotification BroadcastNotification CallCompositionNotification OverloadNotification CellActivationInd StatusInd Tetrapol:Messages REMS:REMS Specific:CrisisList CrisisId Tetrapol:Messages REMS:REMS Specific:EmergencyList EmergencyId Tetrapol:Messages REMS:REMS Specific:EncryptionState CipheringType OverCipheringKeyIndex Tetrapol:Messages REMS:REMS Specific:FrameErrorRate Frame Error Rate Tetrapol:Messages REMS:REMS Specific:MOCHList Priority MOCHId

Tetrapol:Messages REMS:REMS Specific:ParamCellForcing CellForcingType Tetrapol:Messages REMS:REMS Specific:ParamDMEncription AccessType Activated Tetrapol:Messages REMS:REMS Specific:ParamDMTransmitPower Value Tetrapol:Messages REMS:REMS Specific:ParamGatheringComm Reference Tetrapol:Messages REMS:REMS Specific:STAlarm AlarmType Tetrapol:Messages REMS:REMS Specific:SignalStrengh SignalStrength_BarLevel Tetrapol:Messages REMS:REMS Specific:SpeechState EndCause Tetrapol:Messages REMS:REMS Specific:TKGList Available Merged TKGId Tetrapol:Messages REMS:REMS Specific:TalkingParty CallerId Tetrapol:Messages REMS:REMS Specific:VoiceRecord RecordedFilename ReferenceFilename

ListeningQual EffortQual Tetrapol:Messages REMS:REMS Specific:WriteParamFailure ParameterType CauseType CauseParamWriteFailure Tetrapol:Messages REMS:Standard and REMS:CSelBSInfo CCRConfig CCRParam BNNb ChannelId Tetrapol:Messages REMS:Standard and REMS:CSelCCHAnalysis SynchroCCH SystemInfoMode BCH ROAM ECCH ATTA MuxType Sim CountryCode Network Version SystemIdMode LocId Scrambling TxMax RadioTimeOut PwrAdjust SystemTime MinRegClass MinServClass Tetrapol:Messages REMS:Standard and REMS:CSelDistribMOCHList CellRadioType Revision DC CSO CSG CellDistribMode Index COVId CallPriority GroupId

MOCHType AdditionalParticipants NeighbourCellId Tetrapol:Messages REMS:Standard and REMS:CSelOGDeliv OGType OG Tetrapol:Messages REMS:Standard and REMS:CSelRegistration CurrentCellId SelRegType Tetrapol:Messages REMS:Standard and REMS:CSelStart SelType Restriction BNId RSW BS PreferentialBN CSelStart Cause CSelStart Type CSelRegistration Result Tetrapol:Messages REMS:Standard and REMS:CSelTKGDeliv TKGType OGId Tetrapol:Messages REMS:Standard and REMS:DTGClose Cause Tetrapol:Messages REMS:Standard and REMS:DTGOpen AppId ContextReference Tetrapol:Messages REMS:Standard and REMS:NeighbourCell BNType Loc Exp

Tetrapol:Messages REMS:Standard and REMS:RSelBestNeighbourCell SelectionCriteria Tetrapol:Messages REMS:Standard and REMS:RSelMeans MeansType C1 C2 Tetrapol:Messages REMS:Standard and REMS:TxPower TxPower Level Tetrapol:Queries Nominal FER RxLev selected channel RxLev min RxLev max RxLev average Tetrapol:Statistics data RSelDuration FastRSelDuration CSelDuration UMTS Cell reselection U-plane interruption time The time from the last packet in the old cell to the first packet in the new cell. This parameter is only recorded during the data transfer and only for LTE to LTE, LTE to HSPA, and HSPA to LTE cell reselections and redirections.

Softer handover

Number of cells in handover from same site

Ec/N0 and RSCP active set with BTS ref. information Information on active set from the BTS reference file

Measured cell list UMTS (BTS ref.)

List of distinct measured active, monitored, detecte, and undetected cells.

Ec/N0 and RSCP monitored set with BTS ref. information Information on monitored set from the BTS reference file

Serving cell BTS ref. information

Information on best serving cell from the BTS reference file

Cell name (BTS ref.)

Name of the best serving cell from the BTS reference file

Serving system and band

Recorded when channel configuration information changes.

Serving system

Recorded when channel configuration information changes.

Serving band

Recorded when channel configuration information changes.

Neighbor list

List of GSM and UMTS neighbors seen by the terminal

Radio bearer info

Recorded when UMTS radio bearer allocation is modified. Currently based on information received from the trace interface of the device.

Transport channel info

Recorded when UMTS transport channel allocation is modified. Currently based on information received from the trace interface of the device.

Number of missing UMTS neighbors Finger Ec/N0

The received energy per chip divided by the power density of the band.

Finger RSCP

The received signal code power of single code.

Ec/N0 active set Ec/N0 monitored set Ec/N0 detected set Ec/N0 undetected set BLER selected transport channel BLER transport channels Active, monitored and detected set cells information Distance based RSCP CPICH average from scanner for serving cell RSCP active set RSCP monitored set RSCP detected set RSCP undetected set RSCP vs. Ec/N0 Scatter or colorgrid of Ec/N0 vs RSCP for active set cells

Missing neighbor Ec/N0 Missing neighbor diff. to strongest

Difference between missing neighbor and the best cell seen by the terminal in dB

Missing neighbor RSCP Mobile country code

Recorded when service state or mobility information changes. See ITU-T recommendation E.212.

Operator Mobile network code

Recorded when service state or mobility information changes.

TMSI

Recorded when service state or mobility information changes. Temporary mobile subscriber identity. See 3GPP TS 124.008 subclause 10.5.1.4 and 3GPP TS 123.003 subclause 2.4.

P-TMSI

Recorded when service state or mobility information changes. Packet temporary mobile subscriber identity. See 3GPP TS 124.008 subclause 10.5.1.4 and 3GPP TS 123.003 subclause 2.7.

Location area update failure

Recorded based on MM layer3 signaling when location area update has failed. This measurement event terminates the location area update state.

Location area update attempt

Recorded when the mobile starts location area update using MM layer3 signaling message. This measurement event begins the location area update state.

Location area update success

Recorded based on MM layer3 signaling when location area update has been successful. This measurement event terminates the location area update state.

Location area update time Routing area update failure

Recorded based on GMM signaling when routing area update is successful. This measurement event terminates the routing area update attempt state.

Routing area update attempt

Recorded based on GMM signaling when routing area update is attempted. This measurement event begins the routing area update attempt state.

Routing area update success

Recorded based on GMM signaling when routing area update is successful. This measurement event terminates the routing area update attempt state.

Routing area update time Cell identification

Cell identity of the current cell. For GSM this is 16 bit value, for UMTS this is 28 bit value (RNC ID + 16 bit cell ID), and for LTE this is 28 bit value (eNB ID + 8 bit cell ID).

Carrier number Neighbor Srxlev criterion

Cell selection criterion S based on RX level. This value is only available during the UMTS mode. See 3GPP TS 25.304 subclause 5.2.3 cell selection process.

RX level neighbor Location area code Addition window

Addition window for event 1A. Cells within addition window range from the best serving CPICH will be added to the active set. The value is calculated using the following formula: R1A - H1A / 2 where R1A is reporting range constant for event 1A and H1A is hysteresis parameter for event 1A. See 3GPP TS 25.331.

Time to trigger 1A

Indicates the period of time during which the event condition must be satisfied before sending a Measurement Report with event 1A. See 3GPP TS 25.331.

Drop window

Drop window for event 1B. Cell is removed from the active set if it falls below the drop window range from the best cell in the active set. The value is calculated using the following formula: R1 B + H1 B / 2 where R1B is reporting range constant for event 1B and H1B is hysteresis parameter for event 1B. See 3GPP TS 25.331.

Time to trigger 1B

Indicates the period of time during which the event condition must be satisfied before sending a Measurement Report with event 1B. See 3GPP TS 25.331.

Replacement window

If a monitored-set cell becomes better than a cell in the active set, the active set cell will be replaced with the better one. See 3GPP TS 25.331.

Time to trigger 1C

Indicates the period of time during which the event condition must be satisfied before sending a Measurement Report with event 1C. See 3GPP TS 25.331.

Spreading factor downlink

If multiple CCTrCh channels are used, the reported spreading factor is for CCTrCh with physical control channel.

Min spreading factor uplink

Minimum allowed uplink spreading factor.

DRX cycle length

Defines how often paging indications are monitored.

Max TX power

Maximum allowed uplink power.

L3 signaling

Recorded when a Layer 3 or an NAS signaling message is sent or received.

RRC and L3 signaling RLC/MAC/L3/RRC signaling DL and UL separated RLC/MAC/L3/RRC signaling L3 message search

Searches for user-defined messages, with user-defined string in the message name

RLC message search

Searches for user-defined messages, with user-defined string in the message name

RLC signaling

Recorded when an RLC signaling message is sent or received.

Routing area code Network mode of operation Avg. Tx power per 1st active scr code BLER DL Soft-softer handover status

Status of the soft handover. Soft:2-way HO to 2 distinct sites, Softer: 2-way HO to cells of 1 distinct site, SoftSofter: 3-way HO to cells of 2 distinct sites, Soft-Soft: 3-way HO to 3 distinct sites, Softer-Softer: 3-way handoff to cells of 1 distinct site, 4-way soft: all 4-way soft and softer HOs, 5-way soft: all 5-way soft and softer HOs, 6-way soft: all 6-way soft and softer HOs, 2-way, soft-softer status unknown: 2-way HO where there is no BTS reference available, 3-way, soft-softer status unknown: 3-way HO where there is no BTS reference available

RLC throughput uplink

The value of this parameter is calculated based on the SDUs that are successfully transferred through the RLC layer. Missing and erroneous RLC blocks are excluded from the throughput calculation.

RLC throughput downlink

The value of this parameter is calculated based on the SDUs that are successfully transferred through the RLC layer. Missing and erroneous RLC blocks are excluded from the throughput calculation.

RLC retransmission rate uplink TX power

The total UE transmitted power on one carrier. See 3GPP TS 125.215 subclause 5.1.7.

TX power control algorithm TX power control step size Compressed mode Percentage of "UL power up" commands

In percentage the number of "UL power up" commands from all commands. If this value is 100%, all commands request to increase power.

Percentage of "DL power up" commands

In percentage the number of "DL power up" commands from all commands. If this value is 100%, all commands request to increase power.

Signal-to-interference ratio target Current target SIR at update time.

Signal-to-interference ratio

See 3GPP TS 125.215 subclause 5.2.2.

BS diversity state

Base Station TX closed loop diversity state.

DL Power control mode BER pilot bit

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Bit error rate of downlink DPCCH (dedicated physical control channel) pilot bits.

BER TFCI

Recorded when parameter sample is received from the device and the received sample differs from the previous result. Estimated raw BER before channel coding based on TFCI bits.

Carrier RSSI

Wide-band carrier power including thermal noise, co-carrier and adjacent carrier interference, and noise generated in the receiver.

Number of active set cells CFN-SFN difference in frames (OFF) active set CFN-SFN difference in frames (OFF) monitored set CFN-SFN difference in frames (OFF) detected set CFN-SFN difference in chips (Tm) active set CFN-SFN difference in chips (Tm) monitored set CFN-SFN difference in chips (Tm) detected set Scrambling codes active set Scrambling codes monitored set Scrambling codes detected set Scrambling codes undetected set Number of monitored set cells Number of detected set cells Number of undetected set cells Uplink DPDCH bitrate L3 signaling parameter search

Searches for user-defined text inside decoded messages, and returns the following field for the first match. With the search start text it is possible to configure, that search starts after first occurence of another text in the decoded message

Number of scrambling codes added

Recorded when the active set changes. Event information is based on RRC signaling with UMTS FDD.

Number of scrambling codes removed

Recorded when the active set changes. Event information is based on RRC signaling with UMTS FDD.

Added scrambling code number Removed scrambling code number Soft handover event

Recorded when the active set changes. Event information is based on RRC signaling with UMTS FDD.

Time being 1st active scr Percentage of time out from the total, when a scrambling code has been the best in active set

Dropped RRC connections per 1st active scr

Dropped RRC connections by best active set scrambling code

Dropped call due ISHO failure per 1st active scr

Dropped calls due inter system handover failure grouped by first active set scrambling code

UMTS to UMTS missing neighbor analysis

This analysis is based on NMISS events recorded by Nemo Outdoor. Missing neighbor analysis UMTS intrafrequency provides the same analysis without relying on Nemo Outdoor missing neighbor measurements. List of all missing neighbor and best active set cell pairs where the missing neighbor is within user defined window from the best active set cell.

Time being missing neighbor

Percentage of time for each missing neighbor scrambling code out from the total elapsed time for all missing neighbors

Missing GSM neighbor per 1st active scr

Missing GSM neighbors per best active set scrambling code

Number of missing GSM neighbors per 1st active scr Number of missing GSM neighbors per best active set scrambling code

CPICH Ec/N0 and RSCP table Pilot pollution number of polluting cells

Number of cells that are within user defined window from the active set best cell in terms of Ec/N0, when active set best RSCP is above, and active set best Ec/N0 is below use defined threshold.

Pilot pollution number of polluting cells per channel

Number of cells that are within user defined window from the active set best cell in terms of Ec/N0, when active set best RSCP is above, and active set best Ec/N0 is below use defined threshold.

Pilot pollution cells

Cells that are within user defined window from the active set best cell in terms of Ec/N0, when active set best RSCP is above, and active set best Ec/N0 is below use defined threshold.

Measured cells UMTS

Unique combinations of channel number and scrambling code. Note that scrambling codes may overlap.

Treselection

The time which the new cell has had to be ranked better than the old cell before cell reselection is possible. See 3GPP TS 25.304 subclause 5.2.6.1.4.

Measurement event

Recorded when a UMTS measurement event is transmitted to the network based on signaling messages.

Downlink Band Scr. code active set best Ec/N0 best active set RSCP best active set Ec/N0 Nth best selected set RSCP Nth best selected set RSCP Nth best selected set (dBuV/m) Ec/N0 selected Cell ID (BTS ref.) Ec/N0 selected scrambling code RSCP selected cell ID (BTS ref.) RSCP selected scrambling code Ec/N0 Nth best active set Ec/N0 Nth best RSCP Nth best G-factor estimate

Calculation: Best serving cell RSCP/(2nd best RSCP + 3rd best RSCP + ... + Thermal noise (-101dBm)) estimates the G-factor with the assumption that all cells are equally loaded

Number of cells within X dB window from the best

Number of cells where the CPICH Ec/N0 is within user-definable window from the best cell

Spreading factor downlink during downlink data transfer

Spreading factor filtered from the time instants where data transfer is active (between DREQ and DCOMP nemo events)

Min spreading factor uplink during uplink data transfer

Spreading factor filtered from the time instants where data transfer is active (between DREQ and DCOMP nemo events)

Cell reselection GSM to UMTS Cell reselection inter-system Cell reselection UMTS to GSM

Cell reselection Handover events Handover attempt Handover success Handover duration Handover attempt inter-system Handover attempt GSM to UMTS Handover success inter-system Handover success GSM to UMTS Handover attempt UMTS to GSM Handover success UMTS to GSM Soft handover failure Handover failure Handover failure inter-system Handover failure UMTS to GSM Handover failure GSM to UMTS Monitored set size distribution Average RSCP and Ec/N0 per 1st active scr code Scr. code Nth best Frame error rate Calculated from the speech frames.

Pathloss active set Pathloss monitored set Pathloss detected set Pathloss undetected set Pathloss best active set Pathloss selected scrambling code Pathloss Nth best RLC throughput uplink per radio bearer Uplink RLC throughput for specified radio bearer.

RLC throughput downlink per radio bearer Downlink RLC throughput for specified radio bearer.

RLC retransmission rate uplink per radio bearer Modulation 2G/3G UMTS Scanner Delay CPICH Delay P-SCH Delay S-SCH Delay profile CPICH Delay spread CPICH Timeslot scan P-SCH Wideband RSSI Wideband RSSI selected carrier RSCP CPICH RSCP CPICH distance based average selected carriers RSCP CPICH Nth best distance based average selected carriers RSCP CPICH selected carrier RSCP CPICH selected cell ID (BTS ref.) RSCP CPICH selected scrambling code RSCP CPICH best RSCP CPICH Nth best RSCP P-SCH RSCP S-SCH RSCP CPICH (Tx diversity)

RSCP PPCH Ec/N0 CPICH Ec/N0 CPICH selected carrier Ec/N0 CPICH selected cell ID (BTS ref.) Ec/N0 CPICH selected scrambling code Scrambling code best Ec/N0 CPICH best Ec/N0 CPICH Nth best Ec/N0 CPICH distance based average selected carriers Ec/N0 CPICH Nth best with BTS ref. information Ec/N0 CPICH selected carrier with BTS ref. information Measured CPICH list selected carrier (BTS ref.) Ec/N0 P-SCH Ec/N0 S-SCH Ec/N0 CPICH (Tx diversity) Ec/N0 PPCH SIR CPICH SIR CPICH selected scrambling code SIR CPICH best RSCP CPICH top N selected carriers RSCP CPICH Nth best selected carriers RSCP CPICH Nth best selected carriers MNC RSCP CPICH MNC RSCP CPICH Nth best selected carriers (dBuV/m) Channel number Nth best selected carriers SC Nth best selected carriers EC/N0 CPICH Nth best selected carriers EC/N0 CPICH top N selected carriers L3 signaling Cellscan and Scan events combined Carrier RSSI (frequency scanning mode) Carrier power including thermal noise, co-carrier and adjacent carrier interference, and noise generated in the receiver.

RRC signaling parameter search

Searches for user-defined text inside decoded messages, and returns the following field for the first match. With the search start text it is possible to configure, that search starts after first occurence of another text in the decoded message

RRC signaling Scanning configuration Defines scanning settings.

Pilot pollution

Number of cells that are within user defined window from the active set best cell in terms of Ec/N0, when active set best RSCP is above, and active set best Ec/N0 is below use defined threshold.

G-factor estimate

Calculation: Best cell RSCP/(2nd best RSCP + 3rd best RSCP + ... + Thermal noise (-101dBm)) estimates the G-factor with the assumption that all cells are equally loaded

Number of CPICH within X dB window from the best

Number of cells where the CPICH Ec/N0 is within user-definable window from the best cell

Cellscan Recorded when parameter sample is received from the device. With GSM the system information messages, and with UMTS and LTE the system information blocks, are decoded to produce the information required for this measurement event.

UMTS:Cell reselection criteria Hqual active set Hqual monitored set Hqual detected set

Hrxlev active set Hrxlev monitored set Hrxlev detected set Rrxlev active set Rrxlev monitored set Rrxlev detected set Rqual active set Rqual monitored set Rqual detected set Squal active set Squal monitored set Squal detected set Srxlev active set Srxlev monitored set Srxlev detected set UMTS:HSDPA HSDPA CQI distribution An estimate of the link adaptation (transport block size, the modulation type, the number of parallel codes, and the spreading factor) required to enable correct reception with reasonable block error rate. The measured value is reported periodically to the network. This information can be used for data scheduling and link adaptation. When the secondary CQI has a valid value, the range of the parameter is limited to values 0-14. See 3GPP TS 125.214 subclause 6A.2.

HSDPA CQI distribution for secondary stream

An estimate of the link adaptation (transport block size, the modulation type, the number of parallel codes, and the spreading factor) required to enable correct reception with reasonable block error rate. The measured value is reported periodically to the network. This information can be used for data scheduling and link adaptation. This parameter is always n/a when CQI type B is used. See 3GPP TS 125.214 subclause 6A.2.

HSDPA CQI type

See 3GPP TS 125.214 subclause 6A.1.2.2.

HSDPA MAC-hs ACK/NACK count

Recorded when parameter sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session. The total number of ACK and NACK status messages sent to the uplink by MAC-hs layer.

HSDPA MAC-hs block error rate

Recorded when parameter sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session. The ratio of erroneously received MAC-hs PDUs to all received MAC-hs PDUs.

HSDPA MAC-hs residual block error rate

Recorded when parameter sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session. The ratio of transport blocks that have not been fixed by HARQ (in the MAC-hs layer) to all 'new data' indicated transport blocks (= first attempts).

HSDPA MAC-hs block rate

The total number of MAC-hs PDUs received during the reporting interval.

HSDPA MAC-hs throughput

The value of this parameter is calculated based on the SDUs that are successfully received through the MAC-hs layer. Missing and erroneous MAC-hs blocks are excluded from the throughput calculation. When exact MAC-hs SDUs are not available the approximation of the MAC-hs throughput is calculated based on transport block sizes ignoring incorrect or duplicated transport blocks. This causes a minor error between reported throughput and real MAC-hs throughput but it still provides a very good approximation of the real MAC-hs throughput.

HSDPA percentage (DTX) HS-DSCH activity rate

Percentage of TTIs over the reporting periond (200ms or 100ms depending on the terminal) when there has been data allocated to the terminal.

HSDPA MAC-hs 1st retransmission rate

The ratio of MAC-hs PDUs retransmitted after the first transmission attempt.

HSDPA MAC-hs 2nd retransmission rate

The ratio of MAC-hs PDUs retransmitted after the second transmission attempt.

HSDPA MAC-hs 3rd+ retransmission rate

The ratio of MAC-hs PDUs retransmitted after the third or later transmission attempt.

HSDPA MAC-hs redundant retransmission rate

The ratio of MAC-hs PDUs that has already been correctly received and has unnecessarily been retransmitted (duplicated transmission). This happens when the ACK message sent by the mobile is decoded or received incorrectly, or not received at all, by the the base station.

HSDPA HS-DSCH measurement power offset

Measurement power offset. This parameter is configured in RRC layer.

HSDPA HSDPA HSDPA HSDPA HSDPA HSDPA

#HS-SCCHs serving HS-DSCH scrambling code serving HS-DSCH sc and cell name primary (BTS ref.) serving HS-DSCH sc and cell name secondary (BTS ref.) 64QAM MAC header type

Defines what kind of MAC header is used for HSDPA.

HSDPA used UE category

Defines the current maximum possible HSDPA UE category. This is limited by cell configuration and UE capabilities. The value can be smaller than the maximum UE category supported by the mobile if for example the currently used cell is restricting the UE category (either MAC-ehs or dual cell mode is not supported).

HSDPA dual carrier status HSDPA MIMO rank 2 request ratio

Defines the percentage of time MIMO was requested using CQI values. This is the ratio of double CQI values to total of type A CQI values. This parameter is also known as rank indicator.

HSDPA CQI (mode)

The most common CQI value over the reporting period

HSDPA CQI for secondary stream (mode)

The most common secondary stream CQI value over the reporting period

Packet technology/RRC state during data transfer Packet technology Packet technology during data transfer Packet technology between nemo events DAA to DAD or DAF

Avg. MAC-HS throughput per scrambling code HS-SCCH usage

Recorded every 200 milliseconds to indicate HS-SCCH channel usage based on the trace messages of the mobile. This measurement event is recorded simultaneously with the PLAID measurement event. Defines the ratio of TTIs when new or retransmitted data is indicated using this HS-SCCH channelisation code. Note that the sum of the percentages is 200 when the measurement event contains information about primary and secondary HSDPA cells.

HS-SCCH usage combined

HS-SCCH usage combined is parameter where all channels usage percentages are summed together

HARQ Throughput

Recorded every 200 milliseconds to indicate HSDPA HARQ throughput based on the trace messages of the mobile. This measurement event is recorded simultaneously with the PLAID measurement event. The value of the parameter is calculated from the transport block sizes for each HARQ process separately.

HARQ BLER

Recorded every 200 milliseconds to indicate HSDPA HARQ throughput based on the trace messages of the mobile. This measurement event is recorded simultaneously with the PLAID measurement event. The ratio of erroneously received MAC-hs PDUs to all received MAC-hs PDUs for each HARQ process separately.

HSDPA physical layer requested throughput

Computational throughput based on the transport block sizes indicated by the CQI values. In MIMO mode, only CQI type A is used for the calculation. This is the throughput that would have been achieved if the network had sent the link adaptation parameters defined by the CQI.

Number of active HS-SCCHs

Number of HS-SCCHs that have being active (hs-scch usage > 0) during the reporting interval

G-factor estimate

Calculation: Best serving cell RSCP/(2nd best RSCP + 3rd best RSCP + ... + Thermal noise (-101dBm)) estimates the G-factor with the assumption that all cells are equally loaded

HSDPA MIMO MIMO Ec/N0

Currently the recording interval is about two times per second. This measurement event is currently only logged for serving cells.

MIMO RSCP

Currently the recording interval is about two times per second. This measurement event is currently only logged for serving cells.

MIMO RSSI

Currently the recording interval is about two times per second. This measurement event is currently only logged for serving cells.

UMTS:HSDPA:Link adaptation HSDPA HSDPA HSDPA HSDPA HSDPA

link adaptation parameter distribution number of codes distribution modulation distribution transport block size statistics MIMO usage ratio

The percentage of TTIs during the reporting period when dual stream transfer is used. This value displays the exact amount of MIMO used with HSDPA.

HSDPA transport block size (mode)

The most common value of the transport block size over the reporting period

HSDPA transport block size for secondary stream (mode)

The most common value of the secondary stream transport block size over the reporting period

HSDPA number of codes (mode) The most common value of number of multicodes over the reporting period

HSDPA effective coding (mode)

The most common value of effective coding over the reporting period

HSDPA effective coding for secondary stream (mode)

The most common value of secondary stream effective coding over the reporting period

HSDPA HS-SCCH type (mode)

The most common value of HS-SCCH type over the reporting period

HSDPA modulation (mode)

The most common value of modulation over the reporting period

HSDPA 16QAM percentage

Percentage of 64QAM modulation over the reporting period.

HSDPA 64QAM percentage

Percentage of 64QAM modulation over the reporting period.

HSDPA modulation for secondary stream (mode) The most common value of secondary stream modulation over the reporting period

HSDPA MAC-hs BLER (mode)

The most common value of MAC-hs BLER over the reporting period

HSDPA MAC-hs BLER for secondary stream (mode)

The most common value of secondary stream MAC-hs BLER over the reporting period

HSDPA HS-PDSCH throughput High-Speed Physical Downlink Shared Channel throughput is calculated from all (also retransmitted) transport blocks received from the HS-DSCH transport channel and divided by sample duration. This parameter is also known as HSDPA physical channel throughput or served throughput.

HSDPA scheduled throughput HSDPA MAC-hs BLER percentage UMTS:HSUPA HSUPA MAC-e throughput

The value of this parameter is calculated based on the SDUs that are successfully transferred through the MACe layer. Missing and erroneous MAC-e blocks are excluded from the throughput calculation. Approximation of MAC-e throughput is calculated from transport block sizes if real MAC-e throughput is not provided by diagnostic interface of the device. Approximation is a little bit higher than real MAC-e throughput since it contains MAC headers and padding.

HSUPA MAC-e block rate

The total number of MAC-e PDUs transmitted during the reporting period.

HSUPA HARQ BLER

Calculated as: MAC-e 1st + 2nd + 3rd retransmission rate

HSUPA MAC-e 1st retransmission rate The ratio of MAC-e PDUs retransmitted after the first transmission attempt.

HSUPA MAC-e 2nd retransmission rate The ratio of MAC-e PDUs retransmitted after the second transmission attempt.

HSUPA MAC-e 3rd+ retransmission rate

The ratio of MAC-e PDUs retransmitted after the third or later transmission attempt.

HSUPA E-DPDCH throughput

E-DPDCH throughput is calculated from all (including retransmitted) transport blocks transmitted in the E-DCH transport channel.

HSUPA HSUPA HSUPA HSUPA HSUPA HSUPA HSUPA HSUPA

E-DCH information E-TFCI table index AGCH channelisation code happy bit delay condition E-DPCCH/DPCCH power offset secondary E-RNTI primary E-RNTI rate matching mode

Defines how retransmitted data is combined.

HSUPA PLnon-max

Puncturing limit used to determine the combination of SF and number of codes that are used for transmitting E-DCH with certain data rate.

HSUPA TTI

HSUPA transmission time interval.

HSUPA UE category

Defines the current maximum possible HSUPA UE category. This is limited by cell configuration and UE capabilities.

UMTS:HSUPA:Link adaptation HSUPA happy bit status percentage The measurement event contains information on the state of the happy bit transmitted by the mobile to the network during an HSUPA session. The measurement event is recorded simultaneously with the PLAIU measurement event. The measurement event is logged only for primary serving cell with DC-HSUPA. Defines how often happy bit status was set happy during previous reporting interval excluding DTX TTIs.

HSUPA happy bit DTX percentage

The measurement event contains information on the state of the happy bit transmitted by the mobile to the network during an HSUPA session. The measurement event is recorded simultaneously with the PLAIU measurement event. The measurement event is logged only for primary serving cell with DC-HSUPA. How many TTIs DTX was used during previous reporting period.

HSUPA E-TFC selection limited by max power percentage

Percentage of frames when larger E-TFCI selection would cause exceeding of the maximum allowed TX power usage.

HSUPA E-TFC selection limited by serving grant percentage

Percentage of frames when larger E-TFCI cannot be selected since it would require more power than allowed by current serving grant.

HSUPA E-TFC selection limited by lack of data percentage

Percentage of frames when larger E-TFCI cannot be selected since mobile's output buffers doesn't contain enough data.

HSUPA non-serving ACK percentage

Defines how often only non-serving E-DCH cell has reported ACK. Non-transmitting frames are ignored.

HSUPA non-serving grant down percentage

Defines how often non-serving E-DCH cell has reported grant down even if serving E-DCH cell has reported grant up or hold. Non-transmitting frames are ignored.

HSUPA link adaptation parameter distribution HSUPA E-TFCI (mode)

The most common value of E-TFCI over the reporting period

HSUPA spreading codes (mode)

The most common value of spreading codes over the reporting period

HSUPA absolute grant

Recorded when serving grant is modified using E-AGCH channel. Note that this measurement event is not necessarily recorded exactly with the correct timestamp because of limitations in the trace interface of the mobile. For the same reason, there can be multiple AGRANT measurement events with the same timestamp. In these cases, the order of the measurement events is the order of the E-AGCH modifications.

HSUPA serving grant

The measurement event contains statistical information on the used serving grant based on the trace interface. The measurement event is reported during an HSUPA session simultaneously with the PLAIU measurement event. Separate measurement event is logged for each serving cell with DC-HSUPA.

HSUPA serving grant (mode)

The most common value of serving grant over the reporting period

HSUPA serving grant utilization

SG utilization is total of all transferred scheduled bits divided by bits that could have been transferred if appropriate serving grant index would have been used. This is approximately same as the ratio between transferred throughput and serving grant throughput

HSUPA E-TFC selection limited by mux restriction percentage

Percentage of frames when larger E-TFCI cannot be selected since MAC-d flows containing data cannot be multiplexed together with currently selected MAC-d flow. Allowed multiplexing is defined by E-DCH MAC-d flow multiplexing list -parameter in 3GPP TS 125.331 subclause 10.3.5.1b.

HSUPA E-TFC selection limited by HARQ restriction percentage

Percentage of frames when larger E-TFCI cannot be selected since certain MAC-d flows cannot be send using current used HARQ process. Allowed HARQ processes per MAC-d flow is controlled by 2ms non-scheduled transmission grant HARQ process allocation -parameter in 3GPP TS 125.331 subclause 10.3.5.1b. Non-zero only when 2ms subframes are used.

HSUPA granted throughput

The throughput that would have been achieved if all power defined by the serving grant had been used for the data transmission.

UMTS:HSUPA:Scheduling info HSUPA SI highest priority logical channel ID The measurement event contains statistical information on the transmitted Scheduling Information based on the trace interface. The measurement event is reported during an HSUPA session simultaneously with the PLAIU measurement event. The measurement event is logged only for primary serving cell with DC-HSUPA.

HSUPA SI highest priority logical channel buffer status

The measurement event contains statistical information on the transmitted Scheduling Information based on the trace interface. The measurement event is reported during an HSUPA session simultaneously with the PLAIU measurement event. The measurement event is logged only for primary serving cell with DC-HSUPA.

HSUPA SI total E-DCH buffer status

The measurement event contains statistical information on the transmitted Scheduling Information based on the trace interface. The measurement event is reported during an HSUPA session simultaneously with the PLAIU measurement event. The measurement event is logged only for primary serving cell with DC-HSUPA. This is a mode of all E-DCH buffer status received during reporting period.

HSUPA SI total E-DCH buffer status minimum

The measurement event contains statistical information on the transmitted Scheduling Information based on the trace interface. The measurement event is reported during an HSUPA session simultaneously with the PLAIU measurement event. The measurement event is logged only for primary serving cell with DC-HSUPA. This is a minimum of all E-DCH buffer status received during reporting period.

HSUPA SI total E-DCH buffer status maximum

The measurement event contains statistical information on the transmitted Scheduling Information based on the trace interface. The measurement event is reported during an HSUPA session simultaneously with the PLAIU measurement event. The measurement event is logged only for primary serving cell with DC-HSUPA. This is a maximum of all E-DCH buffer status received during reporting period.

HSUPA SI UE power headroom

The measurement event contains statistical information on the transmitted Scheduling Information based on the trace interface. The measurement event is reported during an HSUPA session simultaneously with the PLAIU measurement event. The measurement event is logged only for primary serving cell with DC-HSUPA. This is mode of all UE power headrooms received during reporting period.

HSUPA SI UE power headroom minimum

The measurement event contains statistical information on the transmitted Scheduling Information based on the trace interface. The measurement event is reported during an HSUPA session simultaneously with the PLAIU measurement event. The measurement event is logged only for primary serving cell with DC-HSUPA. This is minimum of all UE power headrooms received during reporting period.

HSUPA SI UE power headroom maximum

The measurement event contains statistical information on the transmitted Scheduling Information based on the trace interface. The measurement event is reported during an HSUPA session simultaneously with the PLAIU measurement event. The measurement event is logged only for primary serving cell with DC-HSUPA. This is maximum of all UE power headrooms received during reporting period.

UMTS:RACH Primary CPICH Tx power Constant value RACH initial TX power Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. TX power Initial transmission power.

RACH preamble step

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Preamble step size.

RACH preamble count

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Transmitted preamble transmission count.

RACH TX power

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. Total transmission power used in RACH message part (control + data).

RACH maximum preamble count

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. This is the same as 'Preamble Retrans Max' parameter signaled by network in RRC layer and it defines the maximum number of preamble attempts.

RACH AICH status

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

RACH data channel gain

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

RACH control channel gain

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

RACH power offset

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure. This is the same as Pp-m parameter in RRC specification. Power offset between the last transmitted preamble and the control part of the message.

RACH message length

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

UL interference

Recorded after random access to the network has been attempted. With UMTS FDD, a RACHI measurement event is recorded for each random access procedure.

UMTS:RRC RRC state RRC state during data transfer RRC state filtered from the tim instants where data transfer is active (between DREQ and DCOMP nemo events

RRC and L3 signaling RLC/MAC/L3/RRC signaling DL and UL separated RLC/MAC/L3/RRC signaling RRC message search

Searches for user-defined messages, with user-defined string in the message name

RRC signaling parameter search

Searches for user-defined text inside decoded messages, and returns the following field for the first match. With the search start text it is possible to configure, that search starts after first occurence of another text in the decoded message

RRC signaling

RRC connection attempt Recorded based on RRC signaling when RRC connection is attempted. This measurement event begins the RRC connection attempt state.

RRC connection connected

Recorded based on RRC signaling when RRC connection is established. This measurement event begins the RRC connection state.

RRC connection disconnected RRC connection attempt failure

Recorded based on RRC signaling when RRC connection attempt fails. This measurement event terminates the RRC connection attempt state.

Dropped RRC connection

Recorded based on RRC signaling when RRC connection is released. This measurement event terminates the RRC connection state.

WLAN WLAN WLAN WLAN WLAN

RSSI Nth best max transfer rate security mode IP address

The IP address for the WLAN access point.

Signal quality serving Signal quality neighbours RSSI serving RSSI neighbours WiMAX WiMAX pilot pollution

Number of cells that are within user defined window from the best cell in terms of RSSI, when best RSSI is above and CINR is below user defined threshold.

Handover Handover Handover Handover

events attempt success duration

With the LTE this defines the handover duration containing handover processing and interrupt time. Time from the handover initiating RRC signaling message to the succesfully completed RACH procedure in the new cell.

Handover to preamble time Time from handover attempt (RRC signaling message) to the first random access preamble (MSG1) in the target cell. Only support for LTE to LTE handovers.

Handover U-plane interruption time

Defines the time from the last packet in the old cell to the first packet in the new cell.

Handover failure MAC signaling WiMAX frame ratio downlink WiMAX frame ratio uplink WiMAX coding type used on DL-MAP WiMAX repetition coding used on DL-MAP WiMAX base station ID Six colon separated hex values.

WiMAX WiMAX WiMAX WiMAX WiMAX

MAC state frequency FFT size bandwidth RSSI

Signal strength.

WiMAX RSSI deviation WiMAX CINR

Channel to interference-noise ratio.

WiMAX CINR deviation

Channel to interference-noise ratio devitaion.

WiMAX WiMAX WiMAX WiMAX WiMAX

neighbor RSSI neighbor RSSI deviation neighbor CINR neighbor CINR deviation TX power

MS transmit power.

WiMAX TX reference power WiMAX TX power headroom WiMAX PER Recorded when parameter sample is received from the device and the received sample differs from the previous result. This UMTS measurement event is recorded simultaneously with the PLAID measurement event and only during HSDPA session.

WiMAX frame lost ratio

Recorded when frame error rate reports are received from the device.

WiMAX TX power BS offset WiMAX initial ranging max TX power WiMAX BS EIRP

Base station effective isotrophic radiated power.

WiMAX WiMAX WiMAX WiMAX WiMAX WiMAX WiMAX WiMAX

BS noise + interference level MAC throughput uplink MAC throughput downlink MAC packet rate uplink MAC packet rate downlink preamble index IDCell segment

WiMAX Scanner Carrier RSSI (frequency scanning mode) RSSI of all subcarriers.

Carrier RSSI (OFDM scanning mode) RSSI of all subcarriers.

Carrier RSSI (OFDM scanning mode) Nth best RSSI of the best subcarrier

WiMAX frequency and preamble index of best cell Frequency and preamble index of the best cell in terms of preamble RSSI. Last 3 digits are representing the preamble index.

WiMAX WiMAX WiMAX WiMAX WiMAX WiMAX WiMAX

preamble preamble preamble preamble preamble preamble preamble

RSSI selected frequency RSSI RSSI Nth best CINR Nth best CINR delay CINR selected frequency

Channel to interference-noise ratio.

WiMAX preamble delay selected frequency Scanning configuration Defines scanning settings.

WiMAX:Link adaptation WiMAX effective bits per symbol uplink WiMAX effective bits per symbol downlink

WiMAX effective bits per symbol uplink (mode) The most common effective bits per symbol value over the reporting period

WiMAX effective bits per symbol downlink (mode)

The most common effective bits per symbol value over the reporting period

WiMAX WiMAX WiMAX WiMAX WiMAX WiMAX

uplink adaptation parameter distribution uplink adaptation parameter distribution (FF 1) downlink adaptation parameter distribution downlink adaptation parameter distribution (FF 1) modulation uplink modulation downlink

hidden Handover during LTE IMS voice call Handovers filtered where call state has passed ALERTING (between CAC and CAD nemo events

Audio quality MOS DL during LTE IMS voice call Handover U-plane interruption time with HOA type Aggregated Data Transfer Aggregated Data Aggregated RX Level Sub Mean Aggregated RX Quality Sub Mean Aggregated RSCP Mean Aggregated Ec/N0 Mean Aggregated RSRP Mean Aggregated RSRQ Mean Aggregated RS SNR Mean Aggregated Technology Weight Aggregated Packet Technology Weight During Data Transfer Aggregated Bytes Per Second DL Mean Aggregated Bytes Per Second UL Mean Session Attach Aggregated PDP context activation Aggregated Session Time Aggregated Voice Call Aggregated Voice Call Counter Session Audio Score Mean Session Attach Setup Time Session Server Connection Establishment Time iDEN Domain status Recorded when service state or mobility information changes.

Channel number Color code Frequency Cell identifier Adaptation rate Cutback level Monitor all flag Monitor paging subchannel Interconnect paging subchannel Packet data paging subchannel Dispatch paging subchannel Interleave

Offset Subslot Extended color code RX level RX level neighbor SQE Carrier SQE neighbor Sync count Sync count neighbor Serving system and band Recorded when channel configuration information changes.

Serving system

Recorded when channel configuration information changes.

Serving band

Recorded when channel configuration information changes.

Push-to-talk state (iDEN)

Recorded when voice call configuration or state changes.

L3 signaling

Recorded when a Layer 3 or an NAS signaling message is sent or received.

Cell reselection Handover events Handover attempt Handover success Handover failure iDEN Scanner

RX level SQE Noise + interference level Scanning configuration Defines scanning settings.