2g paramater audit template for radar
Post on 15-Jan-2016
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Version Date Changes Editorv0.7 7/14/2014 First set of equations J.Neva
Topic Sub-topicGPRS activationTransmission configuration failuresTransmission configuration Packet AbisTransmission configuration Packet AbisRadio interface configuration
Packet AbisHandover process
Candidate listTransmission configuration Transmission typeSite configuration BCF typeSite configuration BTS site subtypeSite configuration Satellite AbisRadio interface configuration BCCHRadio interface configuration Diversity
Abis over TDM Abis over TDMLow Sample Rate Low Sample RateAbis Capacity Abis Capacity
Sub-topic (short) Skip ScopePS_active xxxIgnored_transc_failures skip xxxP_Abis Configuration skip xxxP_Abis Congestion_Control skip xxxP_Abis_SLO
HO_best_candidates
Abis_Transmission_type xxxBCF_type xxxBTS_site_subtype xxx
Satellite_Abis xxxIdle_camping skip BCCH parameter broadcast.Diversity_usage skip Diversity usage.
P_Abis_over_TDM skip xxxLow_sample_rate skip xxxP_Abis_capacity skip xxx
If BCF uses Packet Abis and BTS parameter SLO != 32 then what ????
Verify that best candidates selected in HO
Observation Recommendation Here user can create Assessment Groups for analysing. Optional.xxx xxxxxx xxxxxx xxxxxx xxxxxx xxx
xxx xxx
xxx xxxxxx xxxxxx xxxxxx xxxPlannig defined settings broadcasting. if REO OR TEO > 0 then PI =1
xxx xxxxxx xxxxxx xxx
Note: macrocells can not be identified from parameters. Need to know from other sources. Every cell which does not have diversity enabled need to be confirmed by network planning whether diversity was planned or not.
Typically all macrocells should have diversity enabled.
Here user can create Assessment Groups for analysing. Optional.
Object Parameter Sub_topic (short) SkipBTS gprsEnabled PS_active skipBTS egprsEnabled PS_active skipBSC callReleaseLimit Ignored_transc_failures skipBCF maxEtpMultiplexingWaitTime P_Abis Configuration skipBCF maxBtsMultiplexingWaitTime P_Abis Configuration skipBCF maximumMultiplexingPacketSize P_Abis Configuration skipBCF packetAbisCongestionControl P_Abis Congestion_Control skipBCF bu1AbisThroughputThreshold P_Abis Congestion_Control skipBCF bu2AbisThroughputThreshold P_Abis Congestion_Control skipBCF pl1ThresholdPacketLoss P_Abis Congestion_Control skipBCF pl2ThresholdPacketLoss P_Abis Congestion_Control skipBSC packetLossTimerDurStartReact P_Abis Congestion_Control skipBSC packetLossTimerDurStopReact P_Abis Congestion_Control skipHDLC hdlcBandwith P_Abis_over_TDM skipHDLC hdlcLinkId P_Abis_over_TDM skipHDLC hdlcLinkName P_Abis_over_TDM skipHDLC hdlcAdministrativeState P_Abis_over_TDM skipBCF bcfHdlcIdList P_Abis_over_TDM skipBTS nbrOfSlotsSpreadTrans P_Abis_SLO
BSC tchRateInternalHo HO_best_candidatesBCF abisInterfaceConnectionType Abis_Transmission_typeBCF bcfType BCF_typeBCF btsSiteSubtype BTS_site_subtypeBCF paSatelliteUse Satellite_AbisBTS cellReselectParamInd Idle_camping skip
BTS diversityUsed Diversity_usage skipBTS utranAveragingNumber Low_sample_rate skipBCF abisInterfaceConnectionType P_Abis_capacity skipBCF ulCommittedInformationRate P_Abis_capacity skip
BCF dlCommittedInformationRate P_Abis_capacity skip
BCF ulCommittedBurstSize P_Abis_capacity skip
BCF uplinkTrafficShaping P_Abis_capacity skip
REF 1 REF 21 11 10 [0#1]2 22 2
300 3000 0
75 7590 9014 1428 2810 10
100 1002 21 12 22 22 25
5 56 66 88 33 11
1 11 11 [1#6]
100
100
1522
1
if #BCF#abisInterfaceConnectionType#>"0"then 32
if $#BTS#cellReselectOffset# + #BTS#temporaryOffset#$>"1"then 1
if #BCF#abisInterfaceConnectionType#>"0" then 100
if #BCF#abisInterfaceConnectionType#>"0" then 100
if #BCF#abisInterfaceConnectionType#>"0" then 1522
if #BCF#abisInterfaceConnectionType#>"0" then 1
REF 311022
3000
7590142810
100212225
568331
111
100
100
1522
1
Object ID If you add here any line then only managed Objects which includes these Objects and ID’s in the distName will be imported from the Netact xml export file and analysed.
If you add here any line then only managed Objects which includes these Objects and ID’s in the distName will be imported from the Netact xml export file and analysed.
If you add here any line then only managed Objects which includes these Objects and ID’s in the distName will be imported from the Netact xml export file and analysed.
Object ID If you add here line, then only managed Objects which do not included in these Objects in the distName will be imported from the Netact xml export file and analysed. (the selected object and its child objects will be left out)
If you add here line, then only managed Objects which do not included in these Objects in the distName will be imported from the Netact xml export file and analysed. (the selected object and its child objects will be left out)
If you add here line, then only managed Objects which do not included in these Objects in the distName will be imported from the Netact xml export file and analysed. (the selected object and its child objects will be left out)
Main Element ID BTS ID Cell ID Longitude Latitude
lte 999 66 6 179000000 890000000lte 999 65 5 179.1 89.1
Technology("gsm", "umts" or "lte")
Bearing Height TiltRADAR checks first for entries in GPS table and substitutes the ones in the xml for post processing. If no entries found in GPS, RADAR will use the ones from xml file
65 30 5130 32 5
RADAR checks first for entries in GPS table and substitutes the ones in the xml for post processing. If no entries found in GPS, RADAR will use the ones from xml file
RADAR checks first for entries in GPS table and substitutes the ones in the xml for post processing. If no entries found in GPS, RADAR will use the ones from xml file
Sheet Name Object - Class Parameter - Name User defined collection of parameters to separate sheets in assessment reportWCEL_main WCEL-RNC RNCNameWCEL_main WCEL-RNC nameWCEL_main WCEL-WBTS WBTSNameWCEL_main WCEL-WBTS nameWCEL_main WCEL nameWCEL_main WCEL CIdWCEL_main WCEL PtxPrimaryCPICHWCEL_main WCEL PtxPrimaryCCPCHWCEL_main WCEL PtxSCCPCH1WCEL_main WCEL PtxSCCPCH2WCEL_main WCEL PtxAICHWCEL_main WCEL PrxMeasFilterCoeffWCEL_main WCEL CableLossWCEL_main WCEL MHAWBTS_HW BTSSCW hsdpaSchedList/0/hsdpaThroughputStepWBTS_HW BTSSCW hsdpaSchedList/0/modWBTS_HW BTSSCW hsdpaSchedList/0/schedWBTS_HW BTSSCW hsdpaSchedList/1/hsdpaThroughputStepWBTS_HW BTSSCW hsdpaSchedList/1/modWBTS_HW BTSSCW hsdpaSchedList/1/sched
User defined collection of parameters to separate sheets in assessment report
Feature ID Class Parameter Value CategoryRAN2124 WCEL-RNC RncOptions/110 on Data RetainabilityRAN2124 WCEL HSDPAenabled 1 Data RetainabilityRAN1686 WCEL-RNC RncOptions/101 on Data AccessibilityRAN1686 WCEL HSDPAenabled 1 Data AccessibilityRAN1201 WCEL-RNC RncOptions/92 on CapacityRAN1201 WCEL FDPCHEnabled 1 CapacityRAN1644 WCEL-RNC RncOptions/96 on CapacityRAN1644 WCEL CPCEnabled 1 CapacityRAN2879 WCEL-RNC RncOptions/141 on CapacityRAN2879 WCEL MassEventHandler 31 CapacityRAN2954 WCEL-RNC RncOptions/142 on CapacityRAN2954 WCEL VoiceCallPriority 1 Capacity
Name Feature activation status, checked based on defined list of parameters required to activate the feature, reported in assessment excelHSPA 128 User sPer CellHSPA 128 User sPer CellHSPA 72 Users Per CellHSPA 72 Users Per CellFractional DPCHFractional DPCHContinuous Packet ConnectivityContinuous Packet ConnectivityMass Event HandlerMass Event HandlerVoice Call PrioritizationVoice Call Prioritization
Feature activation status, checked based on defined list of parameters required to activate the feature, reported in assessment excel
Feature activation status, checked based on defined list of parameters required to activate the feature, reported in assessment excel
Parameter Name Bits REF 1 REF 2
2 2103 RU40_MAINT_07 1 0 12 2103 RU40_MAINT_07 [2#7] 0 0
7 283 RN40_MAINT_013 16 0 1
7 283 RN40_MAINT_013 15 0 17 283 RN40_MAINT_013 14 0 17 283 RN40_MAINT_013 13 0 07 283 RN40_MAINT_013 12 0 0
7 283 RN40_MAINT_013 11 0 07 283 RN40_MAINT_013 10 0 07 283 RN40_MAINT_013 9 0 0
7 283 RN40_MAINT_013 8 0 07 283 RN40_MAINT_013 7 0 07 283 RN40_MAINT_013 6 0 07 283 RN40_MAINT_013 5 0 07 283 RN40_MAINT_013 4 0 07 283 RN40_MAINT_013 3 0 0
7 283 RN40_MAINT_013 2 0 07 283 RN40_MAINT_013 1 0 07 283 RN40_MAINT_013 0 A000H2 2110 RN40_MAINT_014 1 0 12 2110 RN40_MAINT_014 [2#7] 0 352 2110 RN40_MAINT_014 47H 712 1703 RN50_MAINT_027 [1#4] 0 02 1703 RN50_MAINT_027 [5#8] 0 42 1703 RN50_MAINT_027 [9#12] 0 22 1703 RN50_MAINT_027 [13#16] 0 42 1703 RN50_MAINT_027 0000H 4240H2 1704 RN50_MAINT_028 [13#16] 0 102 1704 RN50_MAINT_028 [9#12] 0 82 1704 RN50_MAINT_028 [5#8] 0 62 1704 RN50_MAINT_028 [1#4] 0 42 1704 RN50_MAINT_028 0000H A864H
Parameter Class
Parameter Identifier
REF 3
03
1
1100
000
000000
00A000H1357126466462H121086CA86H
Parameter Description
Activate Dynamic HSUPA BLER only with Dynamiv HSUPA Power offset triggering (= 1, 0 = activate after above configured threshold)Activate Dynamic HSUPA BLER only with Dynamiv HSUPA Power offset triggering (= 1, 0 = activate after above configured threshold)
New functionality has been designed to limit UL rates when high UL interference power is added to the cell-specific packet scheduler (TN189, 6.3.4)HSUPA AC not active by default (recommended to activate to protect end-user experience, if HSUPA accessibility is not main KPI)Average estimated RTWP is used as the reference power quantityDPCCH overhead is fully included in the own cell
New conditions of the noise power autotuning are applied in the definition of the unloaded cell.Cell shall be empty of the calls in CELL_DCH state.
NCA contributes to the AC of the diversity handover branch additionNCA does not contribute to the AC of the initial CS service setup;
Estimated power of the non completed RRC connection setups are not included in the power based admission decisions
Power quantities used in the admission decisions (def measured power)Whole parameter valueActivate Dynamic HSUPA BLER to force continuous mode after thresholdThreshold to force Dynamic HSUPA BLER continuous modeWhole parameter valueHSUPA initial SIR target offset, high bit rateHSUPA initial SIR target offset, SF256…SF8HSUPA initial SIR target offset, SF4 and TTI 2msHSUPA initial SIR target offset, SF4 and TTI 10ms
HSUPA initial SIR target offset, 2xSF2 and TTI 10msHSUPA initial SIR target offset, 2xSF2 and TTI 2msHSUPA initial SIR target offset, 2xSF4 and TTI 10msHSUPA initial SIR target offset, 2xSF4 and TTI 2ms
As a reduction of the AC blocking of the AMR calls, maintaining of the estimated non-controllable interference of the inactive AMR calls is removed. AC will treat the AMR call active after the call setup (TN189, RN6.0 2.2)
If the measured CPICH Ec/No value which UE has reported is lower than -10 dB, then it is used directly in defining the initial code power value. Otherwise 6 dB is subtracted from the measured CPICH Ec/No value, keeping the outcome in -10 dB at least; produced Ec/No is used in defining the higher initial code power value.
6 dB is subtracted from the measured CPICH Ec/No value, which UE has reported, for defining the higher initial code power value. This is the original implementation in RU10
Highest CPICH Ec/No value, which UE has reported for the target cell and the active set cells, is used directly in defining the higher initial code power value so that the value equals to -6 dB of the RL specific maximum value at most.This is the original RU10 implementation.
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