NSN 4G Parameters Workbook

Document Version Draft Version A Software Version RL50 RL50 Date 3/20/2014 3/25/2014 Changed by Chris Johnson Chris Johnson & Ravindra Mawale Draft Version B RL50 3/27/2014 Ravindra Mawale Draft Version C RL50 4/9/2014 Chris Johnson & Ravindra Mawale Draft Version D RL50 4/11/2014 Chris Johnson & Ravindra Mawale Draft Version E RL50 4/23/2014 Ravindra Mawale (HLD update required to reflect LLD changes) Version 1.0 RL50 4/26/2014 Ravindra Mawale Version 1.1 RL50 5/22/2014 Ravindra Mawale Version 1.2 RL50 5/30/2014 Ravindra Mawale Changes RL50 Template Initial Draft Version based on VF HLD LNCEL:a2TimeToTriggerRedirect - 480ms(9) to 512ms(10), LNCEL:drxSmartProfile4 - drxRetransT -16(16) to 4(4) , Removed GSM ARFCN 3 to 21 from GNFL & REDRT , Object, csFallBPrio,emerCallPrio & redirectPrio Priority modified in REDRT object (VF need to provide guideline for Only GSM Co-located LTE sites) LNHOIF Object added as per VF future requirement (2600) REDRT: csFallBPrio & emerCallPrio Priority modified, refer comments (VF need to provide list of Sites where csFallBPrio & emerCallPrio priority 1 to GSM sites) primPlmnCellres (LNCEL) = Not Reserved (0) for all Live Commercial sites primPlmnCellres (LNCEL) = Reserved (1) otherwise 1) LNBTS - enableAutoLock changed from Disabled (0) to Enabled (1) 2) LNCEL - pMax mapping from GUI to internal values corrected 3) LNCEL - dlMimoMode range and mapping from GUI to internal values corrected 4) LNCEL - dlChBw mapping from GUI to internal values corrected 5) LNCEL - ulChBw mapping from GUI to internal values corrected 6) LNCEL - periodicUeMeas - reportInterval range and default value corrected 7) LNCEL - mobStateParamNCelChgHgh NSN default value updated to not populated 8) LNCEL - mobStateParamNCelChgMed NSN default value updated to not populated 9) LNCEL - mobStateParamTEval NSN default value updated to not populated 10) LNCEL - mobStateParamTHystNorm NSN default value updated to not populated 11) LNCEL - acBarCsfbOc - acBarAC changed from '0' to not populated 12) LNCEL - acBarMMTelVideoOc - acBarAC changed from '0' to not populated 13) LNCEL - acBarMMTelVoiceOc - acBarAC changed from '0' to not populated 14) LNCEL - acBarOc - ocAcBarAC changed from '0' to not populated 15) LNCEL - acBarSig – sigAcBarAC changed from '0' to not populated 16) LNCEL - eCallAcBarred changed from 'Not used (0)' to not populated 17) GFIM - tResGerSF - gerResTiFHM changed from 1 (3) to not populated 18) GFIM - tResGerSF - gerResTiFMM changed from 1 (3) to not populated 19) UFFIM - tResUtraSF - utrResTiFHM changed from 1 (3) to not populated 20) UFFIM - tResUtraSF - utrResTiFMM changed from 1 (3) to not populated 21) IRFIM - tResEutSF – eutResTiFHM changed from 1 (3) to not populated 22) IRFIM - tResEutSF – eutResTiFMM changed from 1 (3) to not populated 23) Features tab - LTE830 LTE Automatic Lock changed from 'Disabled' to 'Enabled' MO Object Class PMTNL / SCTP / GTPU / LNMME control moved to e-Node-B Commissioning Template 1) LNCEL - drxProfile4 - drxOnDuratT NSN default value updated 20 (20) to 10 (10) 2) LNCEL - drxProfile5 - drxOnDuratT NSN default value updated 20 (20) to 10 (10) 3) LNCEL - harqMaxTrDl NSN default value updated 4 to 5 4) LNCEL - maxNumActDrb NSN default value updated to 360 to 600 5) LNCEL - maxNumUeDl NSN default value updated 10 to 14 6) LNCEL - maxNumUeUl NSN default value updated 10 to 14 7) LNCEL - n311 NSN default value updated - to n1(0) 8) LNCEL - p0NomPucch NSN default value updated -116dBm to -100dBm (changing back to RL40 default value) 9) LNCEL - p0NomPusch NSN default value updated -106dBm to -80dBm 10) LNCEL - tPeriodicBsr NSN default value updated 20ms(3) to 10ms(1) 11) LNCEL - ulpcAlpha NSN default value updated 1 (7) to alpha 0.8 (5) 12) LNCEL - ulpcLowqualSch default NSN value updated 8 dB to 0 dB 13) LNCEL - ulpcUplevSch default NSN value updated -98 dBm to -88 dBm 14) LNCEL - ulpcUpqualSch default NSN value updated 11 dB to 20 dB 1) LNCEL - pMaxOwnCell value updated from - to 23 dBm (23) 2) LNCEL - qRxLevMinOffset value updated from - to Not Used (18) 3) LNCEL - sIntrasearch value updated from 62 dB to 50 dB 4) LNCEL - sNonIntrsearch value updated from 8 dB to 10 dB 5) LNCEL - qHyst value updated from 4 dB to 1 dB 6) LNCEL - threshold2a value updated from 0 to 85 dBm 7) LNCEL - threshold2InterFreq value updated from 0 to Not Used (98) 8) LNCEL - hysA3Offset value updated from 1 dB to 0 dB 9) LNCEL - threshold3 value updated from 0 dBm to 26 dBm 10) LNCEL - threshold3a value updated from 1 dBm to 28 dBm 11) IRFIM - eutCelResPrio value updated from 6 to 7 12) UFFIM - qQualMinUtra value updated from -15 dB to -13 dB 13) UFFIM - utraFrqThrL value updated from 0 dB 8 dB 14) UFFIM -tResUtra value updated from 1s to 2s Parameter changes in LNHOIF Object for future use (LTE 2600 band) LNBTS: qciTab1...9 - dscp parameter control control moved to e-Node-B Commissioning Template 1) LNCEL - drxProfile4:drxInactivityT value updated from 200(200) to 500 (500) 2) LNCEL - mobStateParamTEval value updated from - to 30s (0) 3) LNCEL - mobStateParamNCelChgHgh value updated from - to 8 (8) 4) LNCEL - mobStateParamTHystNorm value updated from - to 30s (0) 5) LNCEL - mobStateParamNCelChgMed value updated from - to 8 (8) Version control added for each parameter eCallAcBarred (LNCEL) - Not barred (2) for all live commercial sites eCallAcBarred (LNCEL) - barred (1) for sites which are going through the site acceptance process , eCallAcBarred (LNCEL) & primPlmnCellres (LNCEL) need to modify before commercial launch LNCEL:grpAssigPUSCH : Parmeter moved to Site Specific Parameter template (Planning parameter) Shared O2: LNCEL: furtherPlmnIdL - cellReserve: Not Reserved (0) for all Live Commercial sites, Reserved (1) otherwise REDRT: redirectPrio : VF (U900) 1 to 2, VF (U2100) 2 to 1 REDRT_REDIRGERANARFCNVALUEL: TEF ARFCN added for MORAN GNFL_GERARFCNVAL: TEF ARFCN added for MORAN LNCEL: hysThreshold4Rsrq: (Both VF & MORAN case) 0 dB to 15 dB UFFIM:utraFrqThrL value chnaged from 0 dB to 8 dB for TEF (aligned with VF) IRFIM: eutCelResPrio - changed from 7 to 6 1) otherwise Abbreviated Name Full Name actCMAS Activation CMAS support actCSFBRedir Activate CS fallback via redirection actCellTrace Activate cell trace actCiphering Ciphering algorithm activation parameter actCompChecks Activation of complete consistency checks actConvVoice Activate support of conversational voice bearer actCplaneOvlHandling Activation of C-plane overload handling actCsfbPsHoToUtra Activate CS fallback with PS-HO to UTRAN actDLCAggr Activation of downlink carrier aggregation actDistributedSite Activate support for distributed site actDualBand Activate support for dual band operation actDualCarrier Activate dual carrier usage actERabModify Activate E-RAB modification actETWS Activation ETWS support actEmerCallRedir Activate emergency call via redirection actEnhAcAndGbrServices Activate enhanced AC and GBR services actFlexBbUsage Activate flexible base band usage actGsmRedirWithSI Activate GSM redirect with system information actHOtoWcdma Activate handover from LTE to WCDMA actHeNBMobility Activate home eNB mobility actHighRrc actIMSEmerSessR9 Activate high amount of RRC connected UE Activate support of IMS emergency sessions for release actIdleLB Activation of idle mode load balancing (IdleLB) actIfHo Enable interFrequency handover actImmHRPD Activation idle mode mobility CDMA/eHRPD actImmXrtt Activation idle mode mobility CDMA/1xRTT actInterFreqLB Activation of inter frequency load balancing (iFLB) actIntraFreqLoadBal Activation of intra-frequency load balancing actLTES1Ho Activate intra LTE S1based handover actLocRep Activate location reporting actMDTCellTrace Activate MDT cell trace actMultBearers Activate multiple bearers actMultGbrBearers Activate multiple GBR bearers actNonGbrServiceDiff Activate nonGBR service differentiation actOperatorQCI Activate support of operator specific QCIs actOptMmeSelection Activate optimized MME selection actPdcpRohc Activate PDCP robust header compression actRIMforGSM Activate RAN Information Management for GSM actRedirect Enable UE context release with redirect actRfChaining Activate support for RF chaining actS1Flex Activation status of S1 flex feature actS1OlHandling Activate S1 overload handling actSelMobPrf Activate selective mobility profiles actSrvccToGsm Activate SRVCC to GSM actSrvccToWcdma Activate SRVCC to WCDMA actSubscriberTrace Activate subscriber and equipment trace actUeBasedAnrIntraFreqLte Activate UE-based ANR for intra-Frequency LTE actUeBasedAnrUtran Activate UE-based ANR for UTRAN actZUC Activation of ZUC algorithm acteNACCtoGSM Activate eNACC to GSM amRlcPBTab1 - dlPollByte AM RLC poll byte table 1 - DL poll byte amRlcPBTab1 - ueCategory AM RLC poll byte table 1 - UE category amRlcPBTab1 - ulPollByte AM RLC poll byte table 1 - UL poll byte amRlcPBTab2 - dlPollByte AM RLC poll byte table 2 - DL poll byte amRlcPBTab2 - ueCategory AM RLC poll byte table 2 - UE category amRlcPBTab2 - ulPollByte AM RLC poll byte table 2 - UL poll byte amRlcPBTab3 - dlPollByte AM RLC poll byte table 3 - DL poll byte amRlcPBTab3 - ueCategory AM RLC poll byte table 3 - UE category amRlcPBTab3 - ulPollByte AM RLC poll byte table 3 - UL poll byte amRlcPBTab4 - dlPollByte AM RLC poll byte table 4 - DL poll byte amRlcPBTab4 - ueCategory AM RLC poll byte table 4 - UE category amRlcPBTab4 - ulPollByte AM RLC poll byte table 4 - UL poll byte amRlcPBTab5 - dlPollByte AM RLC poll byte table 5 - DL poll byte amRlcPBTab5 - ueCategory AM RLC poll byte table 5 - UE category amRlcPBTab5 - ulPollByte AM RLC poll byte table 5 - UL poll byte anrOmExtEnable Activate ANR support for LTE with OAM extension anrRobLevel ANR robustness level blacklistedGsmPlmnsForRim - mcc MCC blacklistedGsmPlmnsForRim - mnc MNC blacklistedGsmPlmnsForRim - mncLength MNC Length btsResetRequest BTS reset requested caMinDlAmbr Min UE-AMBR downlink for carrier aggregation cipherPrefL - eea0 cipherPrefL - eea2 Ciphering algorithm parameters - Null ciphering algorithm Ciphering algorithm parameters - SNOW 3G-based algorithm Ciphering algorithm parameters - AES-based algorithm cipherPrefL - eea3 ZUC-based algorithm congWeightAlg Congestion weight algorithm defProfIdxAM Default profile index AM defProfIdxUM Default profile index UM enableAutoLock Enable automatic locking enableGrflShdn Enable graceful cell shutdown enbName eNB name etwsPrimNotifBcDur ETWS primary notification broadcast duration Global eNB id X2-link blacklist - X2 blacklisted eNB ID cipherPrefL - eea1 glbNbEnbIdX2LinkBlacklist - enbId glbNbEnbIdX2LinkBlacklist - mcc glbNbEnbIdX2LinkBlacklist - mnc Global eNB id X2-link blacklist - X2 blacklisted global eNB id MCCeNB id X2-link blacklist - X2 blacklisted global eNB Global imsEmerPlmnConfig - emerSessArpPreemCap id MNCeNB id X2-link blacklist - X2 blacklisted global eNB Global id MNC length Emergency session ARP pre-emption Capability imsEmerPlmnConfig - emerSessArpPreemVul Emergency session ARP pre-emption Vulnerability imsEmerPlmnConfig - emerSessArpPrioLev IMS emergency PLMN configurations - Emergency sessions ARP PLMN configurations - Emergency IMS emergency glbNbEnbIdX2LinkBlacklist - mncLength imsEmerPlmnConfig - emerSessLimServ imsEmerPlmnConfig - emerSessMcc imsEmerPlmnConfig - emerSessMnc imsEmerPlmnConfig - emerSessMncLen integrityPrefL - eia0 integrityPrefL - eia1 sessions limited PLMN serviceconfigurations mode support- Emergency IMS emergency sessions MCC PLMN configurations - Emergency IMS emergency sessions MNC PLMN configurations - Emergency IMS emergency sessions MNC length Integrity protection algorithm parameters - Null integrity algorithm Integrity protection algorithm parameters - SNOW 3G integrityPrefL - eia2 Integrity protection algorithm parameters - AES integrityPrefL - eia3 ZUC keyRefrMarg Key refresh margin lnBtsId Macro eNB identifier maxNumPreEmptions Maximum number of pre-emptions mcc MCC in PLMN minNotActivatedUtraRSCFS Minimum not activated UTRA reportStrongestCellsForSon mnc MNC in PLMN mncLength MNC length in PLMN moProfileSelect Mobility profile selection mode nRimRirG Maximum RIR attempts to GERAN nullFallback Null ciphering algorithm fallback operationalState Operational state ovlha - actInHORed Activate incoming HO reduction ovlha - actRrcConnRed Activate RRC connection reduction pbrNonGbr Prioritized bit rate nonGBR pciIpAdrMap - dlEarfcn pciIpAdrMap - enbId PCI-IP address mapping table - PCI-IP map downlink EARFCN PCI-IP address mapping table - PCI-IP map eNB ID pciIpAdrMap - ipAdr PCI-IP address mapping table - PCI-IP map IPv4 address pciIpAdrMap - mcc PCI-IP address mapping table - PCI-IP map primary MCC pciIpAdrMap - mnc PCI-IP address mapping table - PCI-IP map primary MNC pciIpAdrMap - mncLength pciIpAdrMap - pci PCI-IP address mapping table - PCI-IP map primary MNC length PCI-IP address mapping table - PCI-IP map PCI pdcpProf1 - pdcpProfileId Profile 1 of PDCP parameters - PDCP profile ID pdcpProf1 - statusRepReq Profile 1 of PDCP parameters - Status report required pdcpProf1 - tDiscard Profile 1 of PDCP parameters - Timer discard pdcpProf101 - pdcpProfileId Profile 101 of PDCP parameters - PDCP profile ID pdcpProf101 - rohcMaxCid Profile 101 of PDCP parameters - ROHC maximum CID pdcpProf101 - snSize Profile 101 of PDCP parameters - Sequence number size pdcpProf101 - tDiscard Profile 101 of PDCP parameters - Timer discard pdcpProf102 - pdcpProfileId Profile 102 of PDCP parameters - PDCP profile Id pdcpProf102 - snSize Profile 102 of PDCP parameters - Sequence number size pdcpProf102 - tDiscard Profile 102 of PDCP parameters - Timer discard pdcpProf103 - pdcpProfileId Profile 103 of PDCP parameters - PDCP profile ID pdcpProf103 - snSize Profile 103 of PDCP parameters - Sequence number size pdcpProf103 - tDiscard Profile 103 of PDCP parameters - Timer discard pdcpProf104 - pdcpProfileId Profile 104 of PDCP parameters - PDCP profile ID pdcpProf104 - snSize Profile 104 of PDCP parameters - Sequence number size pdcpProf104 - tDiscard Profile 104 of PDCP parameters - Timer discard pdcpProf2 - pdcpProfileId Profile 2 of PDCP parameters - PDCP profile ID pdcpProf2 - statusRepReq Profile 2 of PDCP parameters - Status report required pdcpProf2 - tDiscard Profile 2 of PDCP parameters - Timer discard pdcpProf3 - pdcpProfileId Profile 3 of PDCP parameters - PDCP profile ID pdcpProf3 - statusRepReq Profile 3 of PDCP parameters - Status report required pdcpProf3 - tDiscard Profile 3 of PDCP parameters - Timer discard pdcpProf4 - pdcpProfileId Profile 4 of PDCP parameters - PDCP profile id pdcpProf4 - statusRepReq Profile 4 of PDCP parameters - Status report required pdcpProf4 - tDiscard Profile 4 of PDCP parameters - Timer discard pdcpProf5 - pdcpProfileId Profile 5 of PDCP parameters - PDCP profile id pdcpProf5 - statusRepReq Profile 5 of PDCP parameters - Status report required pdcpProf5 - tDiscard Profile 5 of PDCP parameters - Timer discard prioTopoHO Handover topology priority prohibitLBHOTimer Prohibit Load based handover timer prohibitPsHOtoWcdma Prohibit PS-HO to WCDMA pwsWithEmAreaId PWS with emergency area ID qciTab1 - delayTarget QCI translation table QCI 1 - Delay target qciTab1 - drxProfileIndex QCI translation table QCI 1 - DRX profile index qciTab1 - dscp QCI translation table QCI 1 - DSCP qciTab1 - enforceTtiBundling QCI translation table QCI 1 - Enforce TTI bundling qciTab1 - lcgid qciTab1 - maxGbrDl QCI translation table QCI 1 - Logical channel group identifier QCI translation table QCI 1 - Maximum GBR downlink qciTab1 - maxGbrUl QCI translation table QCI 1 - Maximum GBR uplink qciTab1 - pdcpProfIdx QCI translation table QCI 1 - PDCP profile index qciTab1 - prio QCI translation table QCI 1 - Priority qciTab1 - qci QCI translation table QCI 1 - QCI qciTab1 - qciSupp QCI translation table QCI 1 - QCI support qciTab1 - resType QCI translation table QCI 1 - Resource type qciTab1 - rlcMode QCI translation table QCI 1 - RLC mode qciTab1 - rlcProfIdx QCI translation table QCI 1 - RLC profile index qciTab1 - schedulBSD qciTab1 - schedulPrio QCI translation table QCI 1 - Scheduling bucket size duration QCI translation table QCI 1 - Scheduling priority qciTab2 - delayTarget QCI translation table QCI 2 - Delay target qciTab2 - drxProfileIndex qciTab2 - dscp QCI translation table QCI 2 - DRX profile index qciTab2 - enforceTtiBundling QCI translation table QCI 2 - DSCP QCI translation table QCI 2 - Enforce TTI bundling qciTab2 - l2OHFactorDL QCI translation table QCI 2 - L2 overhead factor GBR DL qciTab2 - l2OHFactorUL QCI translation table QCI 2 - L2 overhead factor GBR UL qciTab2 - lcgid qciTab2 - maxGbrDl QCI translation table QCI 2 - Logical channel group identifier QCI translation table QCI 2 - Maximum GBR downlink qciTab2 - maxGbrUl QCI translation table QCI 2 - Maximum GBR uplink qciTab2 - pdcpProfIdx QCI translation table QCI 2 - PDCP profile index qciTab2 - prio QCI translation table QCI 2 - Priority qciTab2 - qci QCI translation table QCI 2 - QCI qciTab2 - qciSupp QCI translation table QCI 2 - QCI support qciTab2 - resType QCI translation table QCI 2 - Resource type qciTab2 - rlcMode QCI translation table QCI 2 - RLC mode qciTab2 - rlcProfIdx QCI translation table QCI 2 - RLC profile index qciTab2 - schedulBSD QCI translation table QCI 2 - Scheduling bucket size duration QCI translation table QCI 2 - QCI translation table QCI 2 - qciTab2 - schedulPrio qciTab3 - delayTarget Scheduling priority QCI translation table QCI 3 - Delay target qciTab3 - drxProfileIndex QCI translation table QCI 3 - DRX profile index qciTab3 - dscp QCI translation table QCI 3 - DSCP qciTab3 - enforceTtiBundling QCI translation table QCI 3 - Enforce TTI bundling qciTab3 - l2OHFactorDL QCI translation table QCI 3 - L2 overhead factor GBR DL qciTab3 - l2OHFactorUL QCI translation table QCI 3 - L2 overhead factor GBR UL qciTab3 - lcgid qciTab3 - maxGbrDl QCI translation table QCI 3 - Logical channel group identifier QCI translation table QCI 3 - Maximum GBR downlink qciTab3 - maxGbrUl QCI translation table QCI 3 - Maximum GBR uplink qciTab3 - pdcpProfIdx QCI translation table QCI 3 - PDCP profile index qciTab3 - prio QCI translation table QCI 3 - Priority qciTab3 - qci QCI translation table QCI 3 - QCI qciTab3 - qciSupp QCI translation table QCI 3 - QCI support qciTab3 - resType QCI translation table QCI 3 - Resource type qciTab3 - rlcMode QCI translation table QCI 3 - RLC mode qciTab3 - rlcProfIdx QCI translation table QCI 3 - RLC profile index qciTab3 - schedulBSD qciTab3 - schedulPrio QCI translation table QCI 3 - Scheduling bucket size duration QCI translation table QCI 3 - Scheduling priority qciTab4 - delayTarget QCI translation table QCI 4 - Delay target qciTab4 - drxProfileIndex qciTab4 - dscp QCI translation table QCI 4 - DRX profile index qciTab4 - enforceTtiBundling QCI translation table QCI 4 - DSCP QCI translation table QCI 4 - Enforce TTI bundling qciTab4 - l2OHFactorDL QCI translation table QCI 4 - L2 overhead factor GBR DL qciTab4 - l2OHFactorUL QCI translation table QCI 4 - L2 overhead factor GBR UL qciTab4 - lcgid qciTab4 - maxGbrDl QCI translation table QCI 4 - Logical channel group identifier QCI translation table QCI 4 - Maximum GBR downlink qciTab4 - maxGbrUl QCI translation table QCI 4 - Maximum GBR uplink qciTab4 - pdcpProfIdx QCI translation table QCI 4 - PDCP profile index qciTab4 - prio QCI translation table QCI 4 - Priority qciTab4 - qci QCI translation table QCI 4 - QCI qciTab4 - qciSupp QCI translation table QCI 4 - QCI support qciTab4 - resType QCI translation table QCI 4 - Resource type qciTab4 - rlcMode QCI translation table QCI 4 - RLC mode qciTab4 - rlcProfIdx QCI translation table QCI 4 - RLC profile index qciTab4 - schedulBSD qciTab4 - schedulPrio QCI translation table QCI 4 - Scheduling bucket size duration QCI translation table QCI 4 - Scheduling priority qciTab5 - drxProfileIndex QCI translation table QCI 5 - DRX profile index qciTab5 - dscp QCI translation table QCI 5 - DSCP qciTab5 - enforceTtiBundling QCI translation table QCI 5 - Enforce TTI bundling qciTab5 - lcgid qciTab5 - pdcpProfIdx QCI translation table QCI 5 - Logical channel group identifier QCI translation table QCI 5 - PDCP profile index qciTab5 - prio QCI translation table QCI 5 - Priority qciTab5 - qci QCI translation table QCI 5 - QCI qciTab5 - qciSupp QCI translation table QCI 5 - QCI support qciTab5 - resType QCI translation table QCI 5 - Resource type qciTab5 - rlcMode QCI translation table QCI 5 - RLC mode qciTab5 - rlcProfIdx QCI translation table QCI 5 - RLC profile index qciTab5 - schedulBSD qciTab5 - schedulPrio QCI translation table QCI 5 - Scheduling bucket size duration QCI translation table QCI 5 - Scheduling priority qciTab5 - schedulType QCI translation table QCI 5 - Scheduling type qciTab5 - schedulWeight QCI translation table QCI 5 - Scheduling weight qciTab6 - drxProfileIndex QCI translation table QCI 6 - DRX profile index qciTab6 - dscp QCI translation table QCI 6 - DSCP qciTab6 - enforceTtiBundling QCI translation table QCI 6 - Enforce TTI bundling qciTab6 - lcgid qciTab6 - pdcpProfIdx QCI translation table QCI 6 - Logical channel group identifier QCI translation table QCI 6 - PDCP profile index qciTab6 - prio QCI translation table QCI 6 - Priority qciTab6 - qci QCI translation table QCI 6 - QCI qciTab6 - qciSupp QCI translation table QCI 6 - QCI support qciTab6 - resType QCI translation table QCI 6 - Resource type qciTab6 - rlcMode QCI translation table QCI 6 - RLC mode qciTab6 - rlcProfIdx QCI translation table QCI 6 - RLC profile index qciTab6 - schedulBSD qciTab6 - schedulPrio QCI translation table QCI 6 - Scheduling bucket size duration QCI translation table QCI 6 - Scheduling priority qciTab6 - schedulWeight QCI translation table QCI 6 - Scheduling weight qciTab7 - drxProfileIndex QCI translation table QCI 7 - DRX profile index qciTab7 - dscp QCI translation table QCI 7 - DSCP qciTab7 - enforceTtiBundling QCI translation table QCI 7 - Enforce TTI bundling qciTab7 - lcgid qciTab7 - pdcpProfIdx QCI translation table QCI 7 - Logical channel group identifier QCI translation table QCI 7 - PDCP profile index qciTab7 - prio QCI translation table QCI 7 - Priority qciTab7 - qci QCI translation table QCI 7 - QCI qciTab7 - qciSupp QCI translation table QCI 7 - QCI support qciTab7 - resType QCI translation table QCI 7 - Resource type qciTab7 - rlcMode QCI translation table QCI 7 - RLC mode qciTab7 - rlcProfIdx QCI translation table QCI 7 - RLC profile index qciTab7 - schedulBSD qciTab7 - schedulPrio QCI translation table QCI 7 - Scheduling bucket size duration QCI translation table QCI 7 - Scheduling priority qciTab7 - schedulWeight QCI translation table QCI 7 - Scheduling weight qciTab8 - drxProfileIndex QCI translation table QCI 8 - DRX profile index qciTab8 - dscp QCI translation table QCI 8 - DSCP qciTab8 - enforceTtiBundling QCI translation table QCI 8 - Enforce TTI bundling qciTab8 - lcgid qciTab8 - pdcpProfIdx QCI translation table QCI 8 - Logical channel group identifier QCI translation table QCI 8 - PDCP profile index qciTab8 - prio QCI translation table QCI 8 - Priority qciTab8 - qci QCI translation table QCI 8 - QCI qciTab8 - qciSupp QCI translation table QCI 8 - QCI support qciTab8 - resType QCI translation table QCI 8 - Resource type qciTab8 - rlcMode QCI translation table QCI 8 - RLC mode qciTab8 - rlcProfIdx QCI translation table QCI 8 - RLC profile index qciTab8 - schedulBSD qciTab8 - schedulPrio QCI translation table QCI 8 - Scheduling bucket size duration QCI translation table QCI 8 - Scheduling priority qciTab8 - schedulWeight QCI translation table QCI 8 - Scheduling weight qciTab9 - drxProfileIndex QCI translation table QCI 9 - DRX profile index qciTab9 - dscp QCI translation table QCI 9 - DSCP qciTab9 - enforceTtiBundling QCI translation table QCI 9 - Enforce TTI bundling qciTab9 - lcgid qciTab9 - pdcpProfIdx QCI translation table QCI 9 - Logical channel group identifier QCI translation table QCI 9 - PDCP profile index qciTab9 - prio QCI translation table QCI 9 - Priority qciTab9 - qci QCI translation table QCI 9 - QCI qciTab9 - qciSupp QCI translation table QCI 9 - QCI support qciTab9 - resType QCI translation table QCI 9 - Resource type qciTab9 - rlcMode QCI translation table QCI 9 - RLC mode qciTab9 - rlcProfIdx QCI translation table QCI 9 - RLC profile index qciTab9 - schedulBSD qciTab9 - schedulPrio QCI translation table QCI 9 - Scheduling bucket size duration QCI translation table QCI 9 - Scheduling priority qciTab9 - schedulWeight QCI translation table QCI 9 - Scheduling weight qciTabOperator - counterGroup qciTabOperator - drxProfileIndex qciTabOperator - dscp qciTabOperator - enforceTtiBundling qciTabOperator - lcgid QCI translation table operator specific QCIs - Counter group QCI translation table operator specific QCIs - DRX profile index QCI translation table operator specific QCIs - DSCP QCI translation table operator specific QCIs - Enforce TTI bundling QCI translation table operator specific QCIs - Logical qciTabOperator - qci channel group identifier QCI translation table operator specific QCIs - PDCP profile index QCI translation table operator specific QCIs - QCI qciTabOperator - qciSupp QCI translation table operator specific QCIs - QCI support qciTabOperator - resType QCI translation table operator specific QCIs - Resource type QCI translation table operator specific QCIs - RLC mode qciTabOperator - pdcpProfIdx qciTabOperator - rlcMode qciTabOperator - rlcProfIdx qciTabOperator - schedulBSD qciTabOperator - schedulPrio qciTabOperator - schedulWeight QCI translation table operator specific QCIs - RLC profile index QCI translation table operator specific QCIs - Scheduling bucket size duration QCI translation table operator specific QCIs - Scheduling priority QCI translation table operator specific QCIs - Scheduling recoveryResetDelay weight Recovery reset delay rfSharingState RF sharing state rlcProf1 - pollPdu Profile 1 of RLC parameters - Poll PDU rlcProf1 - rlcProfileId Profile 1 of RLC parameters - RLC profile id rlcProf1 - tPollRetr Profile 1 of RLC parameters - Timer poll retransmit rlcProf1 - tProhib Profile 1 of RLC parameters - Timer status prohibit rlcProf1 - tReord Profile 1 of RLC parameters - Timer reordering rlcProf101 - rlcProfileId Profile 101 of RLC parameters - RLC profile id rlcProf101 - snFieldLengthDL Profile 101 of RLC parameters - SN field length downlink rlcProf101 - snFieldLengthUL Profile 101 of RLC parameters - SN field length uplink rlcProf101 - tReord Profile 101 of RLC parameters - Timer reordering rlcProf102 - rlcProfileId Profile 102 of RLC parameters - RLC profile Id rlcProf102 - snFieldLengthDL Profile 102 of RLC parameters - SN field length downlink rlcProf102 - snFieldLengthUL Profile 102 of RLC parameters - SN field length uplink rlcProf102 - tReord Profile 102 of RLC parameters - Timer reordering rlcProf103 - rlcProfileId Profile 103 of RLC parameters - RLC profile Id rlcProf103 - snFieldLengthDL Profile 103 of RLC parameters - SN field length downlink rlcProf103 - snFieldLengthUL Profile 103 of RLC parameters - SN field length uplink rlcProf103 - tReord Profile 103 of RLC parameters - Timer reordering rlcProf104 - rlcProfileId Profile 104 of RLC parameters - RLC profile Id rlcProf104 - snFieldLengthDL Profile 104 of RLC parameters - SN field length downlink rlcProf104 - snFieldLengthUL Profile 104 of RLC parameters - SN field length uplink rlcProf104 - tReord Profile 104 of RLC parameters - Timer reordering rlcProf2 - pollPdu Profile 2 of RLC parameters - Poll PDU rlcProf2 - rlcProfileId Profile 2 of RLC parameters - RLC profile id rlcProf2 - tPollRetr Profile 2 of RLC parameters - Timer poll retransmit rlcProf2 - tProhib Profile 2 of RLC parameters - Timer status prohibit rlcProf2 - tReord Profile 2 of RLC parameters - Timer reordering rlcProf3 - pollPdu Profile 3 of RLC parameters - Poll PDU rlcProf3 - rlcProfileId Profile 3 of RLC parameters - RLC profile id rlcProf3 - tPollRetr Profile 3 of RLC parameters - Timer poll retransmit rlcProf3 - tProhib Profile 3 of RLC parameters - Timer status prohibit rlcProf3 - tReord Profile 3 of RLC parameters - Timer reordering rlcProf4 - pollPdu Profile 4 of RLC parameters - Poll PDU rlcProf4 - rlcProfileId Profile 4 of RLC parameters - RLC profile id rlcProf4 - tPollRetr Profile 4 of RLC parameters - Timer poll retransmit rlcProf4 - tProhib Profile 4 of RLC parameters - Timer status prohibit rlcProf4 - tReord Profile 4 of RLC parameters - Timer reordering rlcProf5 - pollPdu Profile 5 of RLC parameters - Poll PDU rlcProf5 - rlcProfileId Profile 5 of RLC parameters - RLC profile id rlcProf5 - tPollRetr Profile 5 of RLC parameters - Timer poll retransmit rlcProf5 - tProhib Profile 5 of RLC parameters - Timer status prohibit rlcProf5 - tReord Profile 5 of RLC parameters - Timer reordering s1InducedCellDeactDelayTime S1 Induced Cell Deactivation Time sCellActivationCyclePeriod SCell activation cycle period sCellActivationMethod SCell activation method sCellDeactivationTimereNB SCell deactivation timer eNB sCellpCellHARQFdbkUsage SCell and PCell ambiguous HARQ feedback usage shutdownStepAmount Shutdown step amount shutdownWindow Shutdown window systemInformationListWCDMA - physCellId System information list WCDMA - Physical Cell Id systemInformationListWCDMA - sysInfo System information list WCDMA - System Information tRimKaG Timer to wait for next RI PDU from GERAN tRimPollG Polling timer to ReStart RIR Procedure to GERAN tRimRirG Timer to wait for RIR Response from GERAN tS1RelPrepG Supervision timer for handover preparation to GSM tS1RelPrepL Supervision timer preparation intra LTE HO tS1RelPrepU Supervision timer for the preparation HO WCDMA tagMaxAM End-Tag maximum AM tagMaxUM End-Tag maximum UM timDelACContPreempt Timer delayed AC continuation At pre-emption ttiBundlingDuringHoMeas TTI bundling during handover measurements txPathFailureMode TX path failure mode Activates CMAS support Description Modification If CMAS support is set to "true", CMAS warning messages are broadcasted On-line (SIB12) in case of Write-Replace The parameter activates the feature Warning Request incl. CMAS data is'Circuit Switched On-line Fallback to UTRAN viaorRedirection'. received from MME This is a feature flagortoGSM enable disable Cell Trace On-line feature. This enables/disables optional ciphering If theparameter feature is activated, mobile originated and mobile On-line algorithms. terminated CS calls are redirected targets which are On-line The parameter activates Complete to Consistency Checks to be configured via REDRT objects. in Validator tool. This parameter activates the support of the This parametervoice can be used The to disable thebecomes checks that Requires object locking conversational bearer. change Feature enabling flag for LTE1047: C-plane overload could block eNBafter reconfiguration SW upgrade. active forfeature. a cell the next cellafter locking/cell unlocking On-line handling Only particular checks in Validator tool are disabled by On-line This parameter activates the feature sequence. The feature detects overload and triggers counter this parameter. "Circuit Switched Fallback with Packet The parameter the LTE1089: Downlink measures. When, after SWactivates upgrade, configuration validationcarrier fails BTS restart needed Switched Handover to UTRAN". aggregation feature. in BTS Site Manager or in NetAct,allows it is possible The parameter actDistributedSite usage to of set The featureSite. allows higherand UEproceed downlinkwith peak data rates BTS restart needed this parameter to "false" eNB Distributed Theaggregation eNB shall support up to six cells dual band by of two cells. reconfiguration. That is, a RF unit lie up to 20 km distance from the BTS restart needed configurations withmay one system module. The eNB will support two carriers within the same RF system module. BTS restart needed Maximum bandwith of(that the dual is 10 MHzline) with 2 band for same sector isRL40 forcells one antenna Note: During migration from to Modification RL50 the bywhen This parameter activates the E-RAB the On-line TRx MIMO. the value iswill configured to "true". parameter be added with disabled checks, S1AP message E-RAB MODIFY REQUEST Bandwidths on both bands to becomplete the same, either On-line Activates ETWS support Theadded carriers in avalue band mustneeds have same bandwidth. i.e. with "false". 5 MHz orsupport 105MHz, MHz.is set If ETWS to "true", Bandwidths 10 MHz, 15 MHz and 20 MHz are It is recommended to reconfigure the parameter to The parameter activates the feature 'Emergency Call On-line ETWS primary secondary notificationin case the supported. value "true" andand adjust the configuration Via Redirection'. This parameter activates support of the following are broadcasted (SIB10 and SIB11) BTS restart needed Validator tool does identify inconsistencies. features in case ofFlexible Write-Replace Warning Activate Baseband Usageifon The feature can be only activated at least one BTS restart needed ARP based Admission Control (LTE534), Smart Request incl. ETWS, data is received BTS redirection target for UTRAN or GSM has been created This parameter activates the feature Admission Control, comprising RAC and TAC (LTE497) On-line from MME.of Activation more flexible baseband before. "GSM redirect with system information". and with QCI 2, 3 and Handover 4 (LTE496). This EPS parameter enables the feature from LTE On-line usage by bearers allowing more enhanced Feature LTE496 introduces support of QCI 2, 3, to WCDMA recovery in caseaccess of HWhome failureeNB withmobility. FSMD Activates open On-line and along Value with higher guaranteed bit for rates and and 4 FSME. 'true' is only allowed related congestion detection and handling mechanisms. Activation to configure more than 840 RRC connected BTS restart needed cells with uplink and downlink channel Admission control functionality (LTE497) UE. bandwidth less or equal 10 In case This parameter activates theMHz. support IMSisEmergency BTS restart needed extended atisthe same from a counter based parameter setactivates to 'true', the amount of Mode sessions for Release 9time UEs. The parameter the feature Idle Load solution become load based and offer in addition With thistoparameter it is possible to support higher On-line allocatable PUCCH PRB may be more Balancing congestion handling functionality to better address amount of Active UE on cell. The amount of Active UE This parameter enables the feature Inter Frequency limited. With FSMFthe thefollowing parameter shall On-line This flagexceed activates functionalities: the needs being imposed bynumber higher bit cannot maximum number ofguaranteed RRC_connected. Handover be configured based on the of Activates "Idle mode mobility from LTE to -inter-RAT IdleLB targets On-line rates. The parameter can be configured to "true" for cell cells. CDMA/eHRPD". -Load balancing forMHz" redirection (requires also the UE Finally the ARP based admission control (LTE534) bandwidths of "15 or "20 MHz" using System Activates idle mode mobility from LTE to CDMA/1xRTT. FSMD: value 'false' => up to feature 2 cells "actRedirect" and On-line context release with redirect allows to consider the ARP priority inconnected load-based module that supports over 840 RRC UE. can be configured. Value 'true' => up to 3 frequency The parameter activates the feature inter On-line CS Fallback viaadmission Redirection feature "actCSFBRedir") admission and related pre-emption as cells can be configured. load balancing (iF-LB) LTE1387 -IdleLB targets in Mobility profiles (requires also the If activated, the intra-frequency load balancing well as value in congestion as an additional On-line FSME: 'false'Profiles" =>handling up tofeature 3 cells If the feature iF-LB is activated (true), interload, frequency "Selective Mobility "actSelMobPrf") algorithm continuously estimates thedifferentiated cell triggering more service-related dimension for This parameter enables the feature Intra LTE Inter can be configured. Value 'true' => up to 6 load measurements are performed per cell. On-line -Support ofofspecial SPID values (requires a handover threshold negotiation with resources. the also the treatment bearersvia with guaranteed eNodeB Handover S1 cells can be configured. Dependent on the actual load situation UEs might Activation/deactivation of Location Reporting (feature "Selective Mobility Profiles" "actSelMobPrf") neighbors when the cell loadfeature is above a predefined On-line As those features are they are FSMF: value 'false' =>closely up to 3inter-related, cells be handovered to low loaded neighbor cellsprocedure (different 'Support of cell based location service') value. The handover threshold negotiation activated via a common activation parameter. actCellTrace of LNBTS only if actCellOn-line can be configured. Value 'true' => up to 6 frequency layer) is doneisover the X2 actMDTCellTrace interface to align the Trace 'true' cells parameter canset be to configured. This activates the support of multiple EPS On-line handover can be setthresholds to 'true' between neighbor cells. Bearers. Hint: parameter This support of multiple GBR activateMeas ofactivates LNCEL - the activateMeas On-line The features Balancing (LTE1140)’ and EPS Bearers.‘Load for setthe to 'periodicIntraFreq' ThismeasurementType parameter activates Service Differentiation for On-line ‘Mobility (LTE533)’ both modify is the can only Robustness be set to 'true' if actMDTCellTrace 'true' non-GBR Bearers. This Individual parameter activates thevalues support the establishment Cell Offset (CIO) of LTE neighbour On-line of EPS bearers with the QCIMME in theselection range ofalgorithm 128…254. relations. Therefore NetAct feature Activates the optimized On-line LTE533 ‘Mobility is Robustness’ must beselection activated If thisparameter parameter set to “true”, the not MME This activates the usage of PDCP Robust On-line respectively deployed native in parallel function distinguishes andbecause mapped this GUMMEIs Header Compression. could lead to TS non optimalIfthe CIO values. RAN The parameter activates Information On-line according to 23.401. UELTE498: provides its (old) If the feature deactivated, the parameter cellIndManagement for GSM feature. GUMMEI, theis(RIM) MME selection function onrelease On-line This parameter enables the feature UEbased context OffNeighDelta is implicitly setcorresponding to 0 in all LNREL GUMMEI is restricted to the RATs. with redirect. The parameter actRfChaining allows RF units chaining. On-line objects. Note: That is, an optical from the system module is is is The "RAN Information Management for GSM" If thisfeature parameter isfiber set to “false”, the selection This parameter indicates whether S1MME Flex feature On-line chained via a RF unit to another RF unit. currently not supported, the parameter must always be function does not distinguish native and mapped enabled or disabled. This parameter activates the feature 'S1 Overload configured to value "false" its (old) GUMMEI, the MME On-line GUMMEIs. If UE provides Handling' The parameter activates theGUMMEI feature 'Selective Mobility selection function based on will consider all On-line Profiles'. RATs. This parameter enables the feature "SRVCC from LTE On-Line to GSM". This parameter enables the feature SRVCC from LTE to On-Line WCDMA. This is a feature flag to enable or disable Subscriber & On-line Equipment Trace feature.if the 'Intra-LTE IntraThis parameter indicates On-line Frequency UE-based ANR' feature is activated by the operator. This parameter indicates if the UE-based ANR for Inter- On-Line RAT UTRAN feature neighbor cells is activated by the Controls optional ZUC ciphering and integrity protection On-Line operator. algorithms. This parameter enables the feature LTE442 Network On-line This parameter enables/disables optional ZUC Note: Assisted Cell Change from LTE to GSM ciphering algorithms. AM RLC Poll Byte value in DL direction for UE category On-line The feature ''UE-based ANR for Inter-RAT UTRAN" is 1. Category not of UE. currently supported, therefore actUeBasedAnrUtran Not modifiable must always configured to 'false'. AM RLC Poll be Byte value in UL direction for UE category On-line 1. AM RLC Poll Byte value in DL direction for UE category On-line 2. Category of UE. Not modifiable AM RLC Poll Byte value in UL direction for UE category On-line 2. AM RLC Poll Byte value in DL direction for UE category On-line 3. Category of UE. Not modifiable AM RLC Poll Byte value in UL direction for UE category On-line 3. AM RLC Poll Byte value in DL direction for UE category On-line 4. Category of UE. Not modifiable AM RLC Poll Byte value in UL direction for UE category On-line 4. AM RLC Poll Byte value in DL direction for UE category On-line 5. Category of UE. Not modifiable AM RLC Poll Byte value in UL direction for UE category On-line 5. Optional feature flag for feature LTE492 ANR support On-line for LTE with Specifies theO&M levelextension of robustness of UE-based ANR On-line functions. Mobile Country Code of the PLMN ID, which is part of On-line For high level of robustness, the eNB attempts for a the GERAN Cell Global Identifier (CGI) of the Mobile Network Code (MNC) ofdetected the PLMN ID, related which is On-line longer time period to resolve a unknown neighbor cell. part of the GERAN Cell Global Identifier (CGI) of the neighbor viainUE-based ANR before stopping these On-line Length ofcell MNC digits. related neighbor cell. attempts. Reset request for BTS. Whenever a BTS restart needed (delta-)plan modifiying or those settingUEs this from carrier This parameter excludes On-line parameter is downloaded, BTS Downlink will reset is below the aggregation, whose UE-AMBR Null ciphering algorithm preference. A lower value automatically. This parameter is not On-line caMinDlAmbr threshold . represents lower preference, and does not admit intended forause byalgorithm operator,preference. but will0be SNOW 3G-based A lower valuethe On-line algorithm. used by NetAct to perform automatic represents aalgorithm lower preference, and doesvalue not admit the AES-based preference. A 0lower On-line troubleshooting actions, which require a algorithm. represents lower preference, and 0 does not admit the reset of theaBTS. ZUC-based algorithm preference. On-line algorithm. The value of the parameter as such A lower value represents a lower preference, and 0 The congestion weight algorithm defines in which order On-line is not not relevant. However, at each does admit the algorithm. bearers are preempted case of new congestion. Default Profile Index forin RLC and PDCP profiles for reset request a different value should beof qciPrio: Bearers are preempted in order QCI priority. On-Line RLC AM mode. selected. Default Profile Index for RLCwith andARP PDCP profiles for arpPrioPerVul: First bearers vulnerability Not modifiable The indicated RLCsure and that PDCP profile is used for the One way to make thein new RLC UM mode. "preemptable" are preempted order of ARP priorirty; The parameter enables the feature "Automatic locking". configuration of aisbearer thatfrom has been On-line parameter value different the last The indicated RLC andvulnerability PDCP profile is configured used for the then bearers ARP "not preemptable" in RLC AM in with the source cell of a handover, but for one is to use the current time stamp. The parameter enables the feature 'Graceful Cell configuration of a bearer that has been configured On-line are in order ofobjects ARP priorirty. If thepreempted feature isand enabled, are automatically which no RLC PDCP profile has been Using this scheme will also document the configured Shutdown'. in RLC UM in the source cell of a handover, but for This is a human-readable name for the locked and unlocked bydecision eNB if awas parameter which BTS restart needed in theattarget cell. time which the reset which RLC and PDCP profile has configured eNB. Itno corresponds toan the eNB name requires object locking is an modified viabeen delta plan file. Duration during which ETWS primary Notification taken. If the feature is activated additional administrative On-Line in the target according to cell. 3GPP 36.413. shall be broadcasted However, any other scheme which state 'shuttingdown' is supported. It allows a less Macro eNB Id of the Global eNB Id of a neighbour eNB The character setparameter is restricted toby setting On-line If graceful shutdown islocking. enabled As the broadcast delivered with Writemakes sure the parameter value changes service impacting cell towards which establishment of an eNB Controlled Printable stringno according toare 3GPP with enableGrflShdn to 'enabled', the less service impacting Mobile Country Code of the Global eNB Id of a Replace Warning Request not to be used for is also possible. Before entering 'locked' state of the cell the UEs will be On-line X2-link is supported allowed. following character: but slower graceful cell shutdown procedure isa of neighbour eNB towards which no establishment ETWS primary notification (SIB10), the broadcast motivated to leave the cell byGlobal stepwise reduction ofan the On-line Mobile Network Code of the eNB Id of‘Global If ‘enbId’ is instead not provided then the associated lower case letters 'a' through 'z', performed of immediate locking. eNB Controlled X2-link is allowed. duration has to be administered. eNodeB cell TX power (DL power). neighbour eNB towards which no establishment of an eNB Id’ is a ‘partially specified Global eNB Id’, i.e.: upper case lettersNetwork 'A' through 'Z',ofthethe Global eNB Id of On-line Length of Mobile Code eNB Controlled X2-link All ‘Global eNB Ids’ withisthe aallowed. PLMN ID establishment which to digits '0' through '9' and characters ' = is identical a neighbour eNB towards which no ARP Pre-emption Capability used by PLMN for of an On-line the 'X2 Blacklisted PLMN ID' are ID considered (emergency ) +associated ,Controlled - . / : ?Sessions. and space. eNB X2-link is allowed. as members of theVulnerablity 'Global eNBused Id X2-link Blacklist'. ARP Pre-emption by PLMN ID for On-line This parameter definesThe whether a service data flow emergency Sessions. pre-emption vulnerability ARP priority level used by PLMN ID for emergency can get resources were a already On-line information definesthat whether serviceassigned data flowtocan sessions. another service data flow withtoaitlower priority level.a Indication if PLMN ID supporting emergency sessions lose the resources assigned in order to admit The range of the ARPservice prioritymode level is 1 to 15 with 1 as On-line also supports limited service data flow with higher priority level. sessions, Mobile Country Code of PLMN ID supporting the highest level of priority. For emergency On-line emergency sessions only ARP priority levels 1-8 may be applied (cf. also to On-line Mobile Network Code of PLMN ID supporting 3GPP TS23.203) emergency sessions Length of MNC of the PLMN ID supporting emergency On-line sessions Null integrity protection algorithm preference. A lower On-line value lower preference andA0lower does value not SNOWrepresents 3G-basedaalgorithm preference. On-line admit the algorithm. represents a lower preference, and 0 does not admit the algorithm. AES-based algorithm preference. A lower value On-line represents lower preference, and 0 does not admit the ZUC-basedaalgorithm preference. On-line algorithm. A lower value represents a lower preference, and 0 If Defines a threshold for PDCP COUNT supervision. On-line does not admitCOUNT the algorithm. the remaining space becomes than this Instance identifier of object Macro eNB less and used also Not modifiable threshold, the eNB keyofhierarchy should beeNB refreshed. as telecom parameter 3GPP ID', This parameter limits the the number of'Macro pre-emptions which is part of Global eNB ID. In addition it appears as On-Line which the admission of a set of E-RABs (e.g. at Primary Mobile Country Code of eNB. distinguished name (DN) in the planning data at the Not modifiable initial context setup, E-RAB setup, handover Element Manager. This parameter defines the number minimum time interval that On-line request) may cause. If this gets exceeded should elapse since the last search of possible for anisE-RAB set, the admission of this setofset This the primary Mobile Network Code thewill eNB. unknown PCIs, respectively PSCs, on a UTRAN carrier Not modifiable partly or completely fail. This parameter determines range of the primary frequency, before re-intiatingthe a new on that Not modifiable Because each pre-emption takes at search least 5ms (but MNC ofVia the eNB. carrier. this parameter, iton is eNB possible tothe control the of On-line may parameter take more, depending load), This is used to configure selection method minimum frequency according which a UTRAN carrier preemption Mobility Profile for mobility procedures. The maximum number of mode attempted (re-)transmissions frequency in slow search is scanned for potential On-line number limitation should be considered If this parameter is set to SPID, then SPID received for a specific RAN-INFORMATION-REQUEST/Multiple new neighbor cell detection. If value isfor selected, This parameter determines whether a"0" fallback to nullthe On-line carefully to avoid timeouts of procedures which from MME or incoming handover is used MOPR Report PDU without success. respective UTRAN carrier frequency will always be in ciphering caused by eNB limitations should be depend on E-RAB admission (in particular selection. Operational state of the eNB, the value is set byaccepted Not modifiable fast Active search. (True) or not (False). handover preperations). If this parameter is set to PLMN value then MOPR system. Enabling flag for rejection incominginHO case of C- On-line selection is based on MNCofincluded UE in Serving plane PLMNoverload. ID.flag for the rejection of RRC connection Enabling On-line Virtual SPID isRate used fornon-GBR mapping with value requests inBit case of for C-plane overload. Prioritized bearers On-line ((MNC+255) mod + used 1 This prioritized bit 256) rate is by UEcell included in the Downlink EARFCN of the neighbour On-line for the UL scheduling algorithm according 'pciIpAdrMap' Mobility profiles (MOPR are considered Unique eNB ofand the MODPR) neighbor within the [36.321].macro The unit ofID prioritized bit rate eNB On-line only when SPID selective profiles feature isin Primary PLMN serving themobility neighbour cell indicated is kilobytes per second. X2 C-plane V4 IP address of the eNB serving the cell On-line activated (actSelMobPrf the PCI-IP entry. is set to true). included in Map the 'pciIpAdrMap' Mobile Country Code included in the Primary PLMN ID On-line of the neighbour eNB serving providedPLMN in the ID Mobile Network Code includedthe in cell the Primary On-line PCI-IP Map entry of the neighbour serving theincluded cell provided the Length of Mobile eNB Network Code in the in Primary On-line PCI-IP Map PLMN ID of entry the neighbour eNB serving the cell provided Physical Cell Identity of the neighbour cell included in On-line in the PCI-IP Map entry the 'pciIpAdrMap' Identity of the PDCP profile; 0 specifies an invalid Not modifiable dummy profile. determines whether a PDCP status This parameter On-line report is sent from PDCP the receiver PDCPa transmitter. This parameter indicates delaytobefore PDCP PDU On-line along with the PDCP corresponding PDCP SDU is discarded Identity of the profile be The status report from UE Not modifiable fromPDCP the buffer. This timermay shouldsent be set in eNB a waytothat (eNB PDCP status report) or from UE to eNB (UE This parameter configures the maximum number of the packet delay defined by the QCI characteristics is On-line PDCP status report). ROHC contexts used a the datasize radio onein the kept. The timer can befor disabled by setting thein This parameter configures of bearer the SN field On-line direction. parameter to disabled. PDCP header. Possible settings: This parameter specifies the parameter discardTimer of The maximum number the of ROHC contexts also “12bit” On-line If UE notreport support value “7bit”, theisvalue 00: nodoes status [36.331] restricted UE capabilities. Identity of by thethe PDCP profile will be used. 01: eNB status report This parameter indicates the delay before a PDCP PDU Not modifiable This parameter configures thePDCP size ofSDU the SN field in the On-line 10: UEwith status along the report corresponding is discarded PDCP header. 11: eNB and UE status report from the buffer. This timer shall be set in a way that the This parameter specifies the parameter discardTimer of On-line If UE does notdefined supportbythe “7bit”, the valueis“12bit” packet delay thevalue QCI characteristics kept. [36.331] Identity of the PDCP profile will used. The timer can beindicates disabledthe by delay settingbefore the parameter to Not modifiable Thisbe parameter a PDCP PDU infinity. This parameter configures thePDCP size ofSDU the SN field in along with the corresponding is discarded On-Line the header. from the buffer. This timerthe shall be set indiscarda way that the On-Line ThisPDCP parameter specifies parameter If UE does notdefined supportbythe “7bit”, the valueis kept. packet thevalue QCI characteristics Timer ofdelay Identity of[36.331] the PDCP profileby setting the parameter to Not modifiable “12bit” will be used. The timer can be disabled This parameter indicates the delay before a PDCP infinity. This the size PDCP of the SN field PDU parameter along with configures the corresponding SDU is in On-Line the PDCP header. discarded from the buffer.the This timer shall be set in This parameter specifies parameter discardOn-Line If UE not packet supportdelay the value “7bit”, the QCI value a waydoes that the defined by the Timer of [36.331] Identity of the PDCP profile “12bit” will be used. Not modifiable characteristics kept. The timer can be disabled This parameterisindicates the delay before a PDCPby setting the parameter to infinity. This parameter determines whether a PDCP Status PDU along with the corresponding PDCP SDU is On-line Report is sent PDCPthe receiver PDCP discarded fromfrom the buffer. This timertoshall be transmitter. set in of On-line This parameter specifies parameter discardTimer The PDCP Status Report may be sent eNB to UE a way that the packet delay defined by from the QCI [36.331] Identity of theStatus PDCP profile (eNB PDCP Report) or from UE to eNB (UE characteristics is kept. The timer can be disabled byPDU Not modifiable This parameter indicates the delay before a PDCP PDCP Status Report). setting the the parameter to infinity. This parameter determines whether PDCP Status along with corresponding PDCP a SDU is discarded On-line Report sent from PDCP receiver to PDCP transmitter. from parameter theisbuffer. This timerthe shall be set indiscardTimer a way that the This specifies parameter of Possible settings: The PDCP Status Report may becharacteristics sent from eNBistokept. UE On-line packet delay defined by the QCI [36.331] 00 no Status Report Identity of the PDCP profile (eNB PDCP Status Report) or from UE to eNB (UE The timer can beindicates disabled by delay settingbefore the parameter to Not modifiable This parameter a PDCP PDU 01 - eNB Status Report thewhether PDCP Status Report). infinity. This parameter determines a PDCP Status along with the corresponding PDCP SDU is discarded On-line 10 - UE Status Report Report sent from PDCP receiver to PDCP transmitter. from theisbuffer. This timerReport shall be set indiscardTimer a way that the This parameter specifies the parameter of 11 eNB and UE Status Possible settings: The PDCP Status Report may becharacteristics sent from eNBistokept. UE On-line packet delay defined by the QCI [36.331] 00 no Status Report Identity of the PDCP profile (eNB PDCP Status Report)by orsetting from UE eNB (UE to Not modifiable The timer can beindicates disabled thetoparameter This parameter 01 - eNB Status Report the delay before a PDCP PDU PDCP Status Report). infinity. along with the corresponding PDCP SDU is discarded 10 - UE Status Report from the buffer. This timer shall be set in a way that the 11 - eNB settings: and UE Status Report Possible packet delay defined by the QCI characteristics is kept. 00 Status Report The- no timer can be disabled by setting the parameter to 01 - eNB Status Report infinity. 10 - UE Status Report 11 - eNB and UE Status Report This parameter determines whether a PDCP Status On-line Report is sent from PDCPthe receiver to PDCP transmitter. This parameter specifies parameter discardTimer of On-line The PDCP Status Report may be sent from eNB to UE [36.331] This parameter is used to define priorities between the On-line (eNB PDCP Status Report) ordelay from UE to eNB (UE PDU This parameter indicates the before awhich PDCP 3 topology options for intra LTE handover, are PDCP Status Report). This timer is used for temporary blacklisting of a Target On-line along the corresponding PDCP SDU is discarded 1) Intrawith eNB HO Cell for load-based handover. from the buffer. This timer shall be set in a way that the 2) This HO parameter via X2 can be used to generally Possible settings: One Target Cell is blacklisted when a handover is kept. On-line packet delay defined by QCI characteristics 3) prohibit HO via the execution of the PS-handover 00 - no Status Report Indicates ifS1 the Public Warning Systems (ETWS rejected because of lack ofby resources. The timer can be disabled setting thehave parameter It's towards WCDMA. that Intrause eNB HO can not lower to On-line 01 -assumed eNB Status Report and/or CMAS) make Emergency Area IDs. The timer is started whenof the cell is blacklisted. infinity. DelayTarget is the maximum packet delay value used On-line priority If this parameter than anyReport other is service set topology to "true", and all S1 then HO can not 10 - UE Status If ETWS or CMAS is activated, provision When timer expires the blacklisting is removed. by the eNB MAC scheduling algorithm. have UE will higher be send priority to WCDMA than any by other UE topology. 11 - eNB and UEspecifies This parameter the of thesource corresponding of this parameter isUEs mandatory. On-line Blacklist affects allStatus inReport theID actual cell. Context Release with is redirect, even if each the eNB cell DRX profile If 'pwsWithEmAreaId' true, then Blacklist affects configures only Handovers forfor Load Balancing. This parameter the DSCP (Differentiated Four UE would relations be'Emergency able are possible: to perform handover. If several EPS bearers established anthe UE, eNB On-line provision of Area ID' Cell" is mandatory. (cause "Reduce Load value inare Serving ) for Services Code Point) associated with QCI. 1) all topologies must have be the configured same priority -> "all equal" This parameter enables TTI bundling if the QCI is compares the DRX profiles of the QCIs used for those If a Warning Message including 'Emergency Area Blacklisted cells are managed internally by eNB andfor not On-line The DSCP value will be set in each IP packet sent if2) handover intra eNB to HO WCDMA is prioritized is activated. over inter Otherwise eNB HO where present in the current bearer combination. EPS bearers and selects the DRX profile with highest IDs' is received by eNB and 'pwsWithEmAreaId' is If this parameter is set to "true" for any bearer of the added to black liststovisible operator. the bearer S-GWtoorHO target eNB. Not modifiable itX2-based is related notthen needed. HO S1-based are notnot discriminated priority 'false' thisand Warning Message shall beof for current bearer combination, the measurements This parameter specifies theeNB maximum value theTTI On-Line -> "intra eNB HO prior inter HO" broadcasted by eNB. bundling aredownlink activated andvalues TTI bundling might be in List ofinIETF based values GBR the direction. 3) intra eNB HOspecifies is DSCP prioritized over(numerical inter eNB HO where This parameter the maximum value of the activated. Otherwise TTI bundling is not applied. On-Line decimal): eNB will reject EPS bearers with QCI1 X2-based HO isthose prioritized over S1-based HOfor -> "intra GBR in the uplink direction. BE (=0), This parameter specifies the ID of the corresponding which the GBR in downlink direction is greater than prior X2 prior eNB will rejectS1" those EPS bearers with QCI1 for which Not modifiable AF11 (=10), PDCP profile. this value. 4) intra eNB HOgives and X2-based handover are not This parameter the priority of thethan EPS bearer the GBR in uplink direction is greater this value. Not modifiable AF12 (=12), discriminated but S1-based HO takes lower priority than according TS23.203. QoS Class Identifier AF13 (=14), Not modifiable the others -> "low prio S1" AF21 (=18), This parameter indicates whether the given QCI is On-line AF22 (=20), supported and Type enabled The Resource indicates whether bearer is a GBR Not modifiable AF23 (=22), or NON-GBR AF31 (=26), bearer. This parameter configures the RLC Mode of the data Not modifiable The AF32Resource (=28), Type determines if dedicated network radio bearer This parameter specifies the ID of the corresponding resources related to a service or bearer level Not modifiable AF33 (=30), RLC profile Bit Rate Guaranteed (GBR) value are This is used to configure thepermanently Bucket Size AF41parameter (=34), On-line allocated. Duration (BSD) ofPriority the ULfor scheduler AF42 (=36), Logical Channel the MAC scheduler For GBR bearers, schedulBSDisinused usedby by eNBfor and UE On-line AF43 (=38), For GBR bearers, the DelayTarget is the schedulPrio maximum packet delayeNB value used for the UL scheduling algorithm according [36.321]. On-line EF (=46) DL scheduling algorithm and algorithm. by UE for the UL by the eNB MAC scheduling The bucket size of a logical channel is calculated by This parameter specifies the ID of the corresponding scheduling algorithm according [36.321]. On-line PBR *profile BSD.priority values indicate a lower priority. DRX Increasing This parameter configures the DSCP (Differentiated On-line If several Code EPS bearers are established for UE, eNB Services Point) value associated withan the QCI. This parameter enables TTI bundling if the QCI is On-line compares the DRXwill profiles the QCIs used for those The DSCP value be setofin each IP packet sent for present in the current bearer EPS bearers and theorcombination. DRX with highest If this parameter isselects set to "true" for profile any bearer of the On-line the related bearer to S-GW target eNB. priority bearer combination, the measurements for TTI current This parameter specifies the overhead factor of the On-line bundling arein activated TTI bundling might be in List of GBR IETF based DSCP values (numerical values uplink layer 2. and Logical Channel Group Identifier for buffer status activated. Otherwise TTI bundling is not applied. On-line decimal): eNB increases the GBR in uplink direction for radio reporting This parameter specifies the maximum value of the BE (=0), layer 2 by the product GBR in uplink direction On-line This parameter is used for configuration of theand buffer GBR in the downlink direction. AF11 (=10), L2 Factor GBR UL/100. ThisOverhead parameter specifies the maximum value of the status reports of UE according [36.321] On-line eNB will reject those EPS bearers with QCI2 for AF12 (=12), GBR in the uplink direction. This parameter specifies the ID of the corresponding which thereject GBR in downlink direction is greater Not modifiable AF13 (=14), eNB will EPS bearers with QCI2 forthan PDCP profile. those this value. AF21 (=18), This parameter gives thedirection priority ofisthe EPS than bearer which the GBR in uplink greater Not modifiable AF22 (=20), according TS23.203. this value. QoS Class Identifier Not modifiable AF23 (=22), This indicates whether the given QCI is AF31parameter (=26), On-line supported and Type enabled AF32 (=28), The Resource indicates whether bearer is a GBR Not modifiable AF33 (=30), bearer. or NON-GBR This parameter configures the RLC Mode of the data AF41 (=34), Type Not modifiable The Resource determines if dedicated network radio bearer AF42 (=36), This parameter specifies the ID of the corresponding resources related to a service or bearer level Not modifiable AF43 (=38), Bit Rate (GBR) value are permanently RLC profile Guaranteed This parameter is used to configure the Bucket Size On-line EF (=46) allocated. Duration (BSD) ofPriority the ULfor scheduler Logical Channel the MAC scheduler On-line For GBR schedulBSDin inused usedby by eNB For GBR bearers, bearers, forand theUE UL DelayTarget is the schedulPrio maximum packet delayUE value for the UL scheduling algorithm according [36.321]. On-line scheduling according [36.321]. used by thealgorithm eNBspecifies MAC scheduling algorithm. The bucket size of a logical channel is calculated by This parameter the ID of the corresponding Increasing priority values indicate lower priority. On-line PBR *profile BSD. DRX This parameter configures the DSCP (Differentiated If several Code EPS bearers are established for UE, eNB On-line Services Point) value associated withan the QCI. This parameter enables TTI bundling if the QCI is compares the DRXwill profiles the QCIs used for those The DSCP value be setofin each IP packet sent for On-line present in the current bearer EPS bearers and theorcombination. DRX with highest If this parameter isselects set to "true" for profile any bearer of the the related bearer to S-GW target eNB. On-line priority bearer combination, the measurements for TTI current This parameter specifies the overhead factor of the On-line bundling arein activated TTI bundling might be in List of GBR IETF based DSCP values (numerical values uplink layer 2. and Logical Channel Group Identifier for buffer status activated. Otherwise TTI bundling is not applied. On-line decimal): eNB increases the GBR in uplink direction for radio reporting BE This (=0), parameter specifies theinmaximum value of the layer 2 by the product GBR uplink direction and On-line This parameter is used for configuration of the buffer AF11 (=10), GBR in the downlink direction. L2 Overhead Factor GBR UL/100. This parameter specifies the maximum value of the status reports of UE according [36.321] On-line AF12 (=12), eNB reject those EPS bearers with QCI3 for GBR will in the uplink direction. AF13 (=14), which the GBR in downlink direction is greater than eNB will reject those EPS bearers with QCI3 for AF21 (=18), this value. which the GBR in uplink direction is greater than AF22 (=20), this value. AF23 (=22), AF31 (=26), AF32 (=28), AF33 (=30), This parameter specifies the ID of the corresponding PDCP profile. gives the priority of the EPS bearer This parameter according QoS ClassTS23.203. Identifier Not modifiable Not modifiable Not modifiable This parameter indicates whether the given QCI is On-line supported and Type enabled The Resource indicates whether bearer is a GBR Not modifiable or NON-GBR bearer. This parameter configures the RLC Mode of the data Not modifiable The Resource Type determines if dedicated network radio bearer This parameter specifies the IDorofbearer the corresponding resources related to a service level Not modifiable RLC profile Bit is Guaranteed Rate (GBR) value are This parameter used to configure thepermanently Bucket Size On-line allocated. Duration (BSD) ofPriority the ULfor scheduler Logical Channel the MAC scheduler On-line For GBR schedulBSD inused usedby byUE eNB For GBR bearers, bearers, schedulPrio in forand theUE UL DelayTarget is the maximum packet delay value for the UL scheduling algorithm [36.321]. according [36.321]. On-line scheduling according used by thealgorithm eNBspecifies scheduling algorithm. The size ofMAC a logical channel is corresponding calculated This bucket parameter the ID of lower the Increasing priority values indicate priority. by On-line PBR *profile BSD. DRX This parameter configures the DSCP (Differentiated On-line If several Code EPS bearers are established for UE, eNB Services Point) value associated withan the QCI. This parameter enables TTI bundling if the QCI is On-line compares the DRXwill profiles the QCIs used for those The DSCP value be setofin each IP packet sent for present in the current bearer combination. EPS bearers and selects the DRX profile with highest If this parameter is set to "true" for any bearer of the On-line the related bearer to S-GW or target eNB. priority bearer combination, the measurements for TTI current This parameter specifies the overhead factor of the On-line bundling arein activated TTI bundling might be in List of GBR IETF based DSCP values (numerical values uplink layer 2. and Logical Channel Group Identifier for buffer status activated. Otherwise TTI in bundling is not applied. On-line decimal): eNB increases the GBR uplink direction for radio reporting This parameter specifies theinmaximum value of the BE (=0), layer 2 by the product GBR uplink direction and On-line This parameter is used for configuration of the buffer GBR in the downlink direction. AF11 (=10), L2 Overhead Factor GBR UL/100. This parameter specifies the maximum value of the status reports of UE according [36.321] On-line eNB will reject those EPS bearers with QCI4 for AF12 (=12), GBR in the uplink direction. This parameter specifies the ID of the corresponding which the GBR in downlink direction is greater than On-line AF13will (=14), eNB reject those EPS bearers with QCI4 for PDCP profile. this value. AF21 (=18), This parameter gives the priority of the EPS bearer which the GBR in uplink direction is greater than Not modifiable AF22 (=20), according TS23.203. this value. QoS Class Identifier Not modifiable AF23 (=22), This indicates whether the given QCI is AF31parameter (=26), On-line supported and Type enabled AF32 (=28), The Resource indicates whether bearer is a GBR Not modifiable AF33 (=30), bearer. or NON-GBR This parameter configures the RLC Mode of the data AF41 (=34), Type Not modifiable The Resource determines if dedicated network radio bearer AF42 (=36), This parameter specifies the ID of the corresponding resources related to a service or bearer level On-line AF43 (=38), Bit Rate (GBR) value are permanently RLC profile Guaranteed This parameter is used to configure the Bucket Size On-line EF (=46) allocated. Duration (BSD) ofPriority the ULfor scheduler Logical Channel the MAC scheduler On-line For GBR bearers, schedulBSD inused usedby byUE eNB For GBR bearers, schedulPrio forand theUE UL This parameter specifies the IDinaccording of the corresponding for the UL scheduling algorithm [36.321]. On-line scheduling according [36.321]. DRX profilealgorithm The bucket size of a logical channel is calculated by This parameter configures the DSCP (Differentiated Increasing priority values lowerfor priority. If several EPS bearers areindicate established UE, eNB On-line PBR * BSD. Services Code Point) value associated withan the QCI. This parameter enables TTIof bundling if the QCI is compares the DRX profiles the QCIs used for those The DSCP value will be set in each IP packet sent for On-line present in the current bearer combination. EPS bearers and selects the DRX with highest If this parameter is set to "true" for profile any bearer of the the related bearer to S-GW or target eNB. On-line priority current bearer combination, the measurements for TTI This parameter specifies the ID of the corresponding On-line bundling arebased activated andvalues TTI bundling might be in List of IETF DSCP (numerical values PDCP profile. This parameter gives the priority of the EPS bearer activated. Not modifiable decimal): Otherwise TTI bundling is not applied. according BE QoS (=0), ClassTS23.203. Identifier Not modifiable AF11 (=10), This parameter indicates whether the given QCI is On-line AF12 (=12), supported and enabled The AF13Resource (=14), Type indicates whether a bearer is a Not modifiable GBR or a NON-GBR bearer. AF21parameter (=18), This configures the RLC Mode of the data Not modifiable The Resource AF22 (=20), Type determines if dedicated network radio bearer This parameter specifies the ID of the corresponding resources related to a service or bearer level On-line AF23 (=22), RLC profile Guaranteed Rate (GBR) value are AF31parameter (=26), Bit is This used to configure thepermanently Bucket Size On-line allocated. AF32 (=28), Duration (BSD) ofPriority the ULfor scheduler Logical Channel the UE scheduler AF33BSD (=30), The is sent to UE forfor thethe ULUL scheduling algorithm On-line This priority is sent to UE scheduling This parameter specifies how the EPS bearer with QCI On-line AF41 (=34), according to [36.321]. algorithm according for DRB [36.321]. 5 is scheduled. AF42 (=36), The UE calculates the bucket size of a logical channel This parameter specifies the scheduling weight for eNB On-line Increasing priority values indicate lower the priority. For the(=38), scheduling type “SIGNALLING” bearer is AF43 by PBR * BSD. schedulers This parameter specifies the ID of the corresponding handled like SRBs. The MAC LCGID shall be set to(UL 0 On-line EF (=46) The scheduling weight is used for MAC scheduling DRX profile and schedulPrio is used forchannel ULDSCP andpriority DL(Differentiated scheduling. This parameter configures the and DL), and MAC logical handling and On-line If several EPS bearers are established anthe UE, For the scheduling type “NON-GBR” thefor bearer is eNB Services Code Point) value associated with QCI. multiplexing inDRX DL This parameter enables TTIof bundling if the QCI isthose On-line compares the profiles the QCIs used for handled like other non-GBR bearers. The MAC LCGID The DSCP value will be set in each IP packet sent for present inbethe current bearer EPS bearers theorcombination. DRX the shall not toand 0 and the iswith used If this parameter isselects set toschedulWeight "true" for profile any bearer offor theDL On-line the related bearer to S-GW target eNB. highest priority scheduling. current bearer combination, the measurements for TTI This parameter specifies the ID of the corresponding On-line bundling arebased activated andvalues TTI bundling might be in List of IETF DSCP (numerical values PDCP profile. This parameter gives the priority of the EPS bearer activated. Not modifiable decimal): Otherwise TTI bundling is not applied. according BE QoS (=0), ClassTS23.203. Identifier Not modifiable AF11 (=10), AF12 (=12), AF13 (=14), AF21 (=18), AF22 (=20), AF23 (=22), AF31 (=26), AF32 (=28), This parameter indicates whether the given QCI is supported and Type enabled The Resource indicates whether a bearer is a On-line Not modifiable GBR or NON-GBR bearer. the RLC Mode of the data This parameter configures Not modifiable The Resource determines if dedicated network radio bearer Type This parameter specifies the ID of the corresponding resources related to a service or bearer level On-line RLC profile Bit Rate Guaranteed (GBR) value are This parameter is used to configure thepermanently Bucket Size On-line allocated.(BSD) of the UL scheduler Duration Logical Channel Priority for the UE scheduler The BSD is sent to UE forUE thefor ULthe scheduling algorithm On-line This priority is sent to the UL scheduling This parameter specifies the scheduling weight for eNB On-line according to [36.321]. algorithm according to DRB [36.321]. schedulers The UE calculates the bucket size oflower acorresponding logical channel On-line This parameter specifies the ID of athe Increasing priority values indicate priority. The scheduling by PBR * BSD. weight is used for MAC scheduling (UL DRX profile This DL), parameter configures the DSCP (Differentiated and logical priority handling If several and EPSMAC bearers arechannel established for a the UE,QCI. theand On-line Services Code Point) value associated with multiplexing in DL This parameter enables TTI bundling if the QCI is eNB compares the DRX profiles of the used The DSCP value will be set in each IP QCIs packet sentfor for On-line present in the current bearer combination. those EPS bearers and theany DRX profileofwith If this parameter set toselects "true" for bearer the the On-line the related beareristo S-GW or target eNB. highest priority combination, the measurements for TTI current bearer This parameter specifies the ID of the corresponding On-line bundling arebased activated andvalues TTI bundling might be in List of IETF DSCP (numerical values PDCP profile. This parameter gives the priority of the EPS bearer activated. Not modifiable decimal): Otherwise TTI bundling is not applied. according BE QoS (=0), ClassTS23.203. Identifier Not modifiable AF11 (=10), This parameter indicates whether the given QCI is On-line AF12 (=12), supported and enabled The AF13Resource (=14), Type indicates whether bearer is a GBR Not modifiable or NON-GBR AF21 (=18), bearer. This parameter configures the RLC Mode of the data Not modifiable The Resource AF22 (=20), Type determines if dedicated network radio bearer This specifies the IDorofbearer the corresponding resources related to a service level On-line AF23parameter (=22), RLC profile Guaranteed Rate (GBR) value are AF31parameter (=26), Bit is This used to configure thepermanently Bucket Size On-line allocated. AF32 (=28), Duration (BSD) ofPriority the ULfor scheduler Logical Channel the UE scheduler AF33BSD (=30), The is sent to UE forUE thefor ULthe scheduling algorithm On-line This priority is sent to the UL scheduling This parameter specifies the scheduling weight for eNB On-line AF41 (=34), according [36.321]. to DRB [36.321]. algorithm according schedulers AF42 (=36), The UE calculates the bucket size of a logical channel This parameter specifies ID of athe corresponding Increasing priority values the indicate lower priority. On-line The scheduling AF43 (=38), by PBR * BSD. weight is used for MAC scheduling (UL DRX profile This parameter configures the DSCP (Differentiated and DL), logical priority handling and On-line EF (=46)and If several EPSMAC bearers arechannel established UE, eNB Services Code Point) value associated for withanthe QCI. multiplexing inDRX DL compares the profiles of the QCIs used for those This parameter enables the QCIsent is for On-line The DSCP value will beTTI set bundling in each IPif packet EPS bearers and selects theorcombination. DRX profile with highest present in the current bearer the related bearer S-GW target eNB. If this parameter isto set to "true" for any bearer of the On-line priority current bearer combination, measurements for TTI This parameter specifies thethe ID of the corresponding On-line List of IETF DSCP (numerical values bundling arebased activated andvalues TTI bundling might be in PDCP profile. This parameter gives the priority of the EPS bearer decimal): activated. Otherwise TTI bundling is not applied. Not modifiable according TS23.203. BE QoS (=0), ClasstoIdentifier Not modifiable AF11 (=10), This parameter indicates whether the given QCI is On-line AF12 (=12), supported and Type enabled AF13 (=14), The Resource indicates whether bearer is a GBR Not modifiable AF21 (=18), bearer. or NON-GBR This parameter configures the RLC Mode of the data Not modifiable AF22 (=20), Type determines if dedicated network The Resource radio bearer This specifies the IDorofbearer the corresponding AF23parameter (=22), resources related to a service level On-line RLC profile AF31 (=26), Bit is Guaranteed Rate (GBR) value are This parameter used to configure thepermanently Bucket Size On-line AF32 (=28), allocated. Duration (BSD) ofPriority the ULfor scheduler Logical Channel the UE scheduler On-line AF33 (=30), The BSD is sent to the UEUE forfor thethe ULUL scheduling This priority is sent to the scheduling AF41 (=34), This parameter specifies the scheduling weight for eNB algorithm according On-line algorithm according to to [36.321]. DRB [36.321]. AF42 (=36), schedulers The UE calculates the bucket size oflower acorresponding logical channel On-line This parameter specifies the ID of the Increasing priority values indicate a priority. AF43 (=38), The scheduling by PBR * BSD. weight is used for MAC scheduling (UL DRX profile This parameter configures the DSCP (Differentiated EF (=46) and DL), logical priority handling If several and EPSMAC bearers arechannel established UE,QCI. theand On-line Services Code Point) value associated for witha the multiplexing in DL eNB compares the DRX profiles of the QCIs used This parameter enables TTI bundling if the QCI is The DSCP value will be set in each IP packet sentfor for On-line those EPS bearers and theany DRX profileofwith present in the current bearer the related bearer S-GW orcombination. target eNB. If this parameter isto set toselects "true" for bearer the the On-line highest priority combination, the measurements for TTI current bearer This parameter specifies the ID of the corresponding On-line List of IETF DSCP (numerical values bundling arebased activated andvalues TTI bundling might be in PDCP profile. This parameter givesTTI the bundling priority ofisthe bearer decimal): activated. Otherwise notEPS applied. Not modifiable according BE QoS (=0), ClassTS23.203. Identifier Not modifiable AF11 (=10), This parameter indicates whether the given QCI is On-line AF12 (=12), supported and Type enabled AF13 (=14), The Resource indicates whether bearer is a GBR Not modifiable AF21 (=18), bearer. or NON-GBR This parameter configures the RLC Mode of the data Not modifiable AF22 (=20), Type determines if dedicated network The Resource radio bearer This specifies the IDorofbearer the corresponding AF23parameter (=22), resources related to a service level On-line RLC profile AF31 (=26), Bit is Guaranteed Rate (GBR) value are This parameter used to configure thepermanently Bucket Size On-line AF32 (=28), allocated. Duration (BSD) ofPriority the ULfor scheduler Logical Channel the UE scheduler On-line AF33 (=30), The BSD is sent to the UEfor forthe theUL ULscheduling scheduling This priority is sent to UE AF41 (=34), This parameter specifies the scheduling weight for eNB algorithm according On-line algorithm according to to [36.321]. DRB [36.321]. AF42 (=36), schedulers The UE calculates the bucket sizeaoflower a logical channel Increasing priority values indicate priority. AF43 (=38), The scheduling by PBR * BSD. weight is used for MAC scheduling (UL EF (=46)and MAC logical channel priority handling and and DL), multiplexing in DL This parameter indicates the counter group to which the On-line QCI This belongs parameter specifies the ID of the corresponding On-line DRX profile This parameter configures the DSCP (Differentiated If several Code EPS bearers are established for UE, eNB On-line Services Point) value associated withan the QCI. This parameter enables TTI bundling if the QCI is compares the DRXwill profiles the QCIs used for those The DSCP value be setofin each IP packet sent for On-line present in the current bearer EPS bearers and theorcombination. DRX with highest If this parameter isselects set to "true" for profile any bearer of the the related bearer to S-GW target eNB. On-line priority bearer combination, the measurements for TTI current This parameter specifies the ID of the corresponding On-line bundling arebased activated andvalues TTI bundling might be in List of IETF DSCP (numerical values PDCP profile. QoS Class Identifier activated. Otherwise TTI bundling is not applied. On-line decimal): BE (=0), This parameter indicates whether the given QCI is On-line AF11 (=10), supported and Type enabled The Resource indicates whether bearer is a GBR Not modifiable AF12 (=12), bearer. or NON-GBR This parameter configures the RLC Mode of the data AF13 (=14), Type Not modifiable The Resource determines if dedicated network radio bearer AF21 (=18), This parameter specifies the IDorofbearer the corresponding resources related to a service level On-line AF22 (=20), Bit Rate (GBR) value are permanently RLC profile Guaranteed This parameter is used to configure the Bucket Size On-line AF23 (=22), allocated. Duration (BSD) ofPriority the ULfor scheduler AF31 (=26), Logical Channel the UE scheduler On-line The BSD is sent to the UEfor for theUL ULscheduling scheduling AF32 (=28), This is sent to UE This priority parameter specifies the the scheduling weight for eNB On-line algorithm according to [36.321]. AF33 (=30), algorithm according to DRB [36.321]. schedulers The UE calculates the bucket oflower a logical channel BTS restart needed Defines thepriority minimal number ofsize seconds after which AF41 (=34), Increasing values indicate priority. The scheduling weight istriggered. used for a MAC scheduling (UL by PBR * BSD. a recovery reset can be AF42 (=36), BTSDL), detects automatically when thepriority RF sharing is inand Not modifiable and andsetting MAC logical channel handling Note: When the parameter value to 10000 AF43 (=38), use and report this in the the rfSharingState parameter multiplexing in DL This parameter specifies parameter of in (unlimited delay), the recovery reset will pollPDU be performed On-line EF (=46) the topology. [36.331] after all of snapshot information isinformative collected. value in the Not modifiable Identity the RLC profile This parameter has important The parameter Poll PDU the number of RLC This setting shall be useddefines withexample care. user interfaces in NetAct (for fort-pollRetransmit This specifies the parameter PDUsparameter that are sent on a logical channel before the RLC On-line troubleshooting). of [36.331] polling bit is set. This parameter specifies the parameter t-StatusProhibit On-line This timer is used by the transmitting side of an AM of [36.331] This parameter specifies the parameter t-Reordering of RLC entityisinused order tothe retransmit a poll. This timer by receiving side of an AM RLC On-line [36.331] The used minimum value of the timer shall be larger Identity the RLC profiletransmission of a STATUS entity in of order to prohibit This timer is used byround-trip the receiving side of an AM RLC Not modifiable than the calculated time with considerations PDU This parameter configures the out-of-sequence length of the field entity for reordering, PDU and loss detection andSN delay offor On-line of HARQ retransmissions arrival. RLC UM procedures in downlink direction. STATUS PDU transmission. This timer depends on The value of theconfigures timer shallthe be length larger than of the This parameter of thetwice SN field for If UE UM does not “5bit”, the value “10bit” On-line HARQ RTT andsupport number of value HARQ retransmissions. timerReorder. RLC procedures in the uplink direction. This parameter specifies the parameter t-Reordering of is used. If UE does not support the value “5bit”, the value “10bit” On-line [36.331] Identity of the RLC profile is used. This timer is used by the receiving side of an UM RLC Not modifiable This parameter configures theloss length of the SN field for On-line entity for reordering and PDU detection. This timer RLC UM procedures in downlink direction. depends on HARQ RTT and number of HARQ This parameter configures the length of the SN field for On-line If UE UM does not support value “5bit”, the value “10bit” retransmissions. RLC procedures in the uplink direction. This parameter specifies the parameter t-Reordering of is used. If UE does not support the value “5bit”, the value “10bit” On-line [36.331] Identity of the RLC profile is used. This timer is used by the receiving side of an UM RLC Not modifiable This parameter configures theloss length of the SN field entity for reordering and PDU detection. This timer On-line for RLC UM procedures in downlink direction. depends on HARQ RTT and number of HARQ This parameter configures the length of the SN field On-line If UE does support the value “5bit”, the value retransmissions. for RLC UMnot procedures inthe uplink direction. This parameter specifies parameter t-Reordering “10bit” is used. On-line If UE does not support the value “5bit”, the value of [36.331] Identity ofused. the RLC profile “10bit” is Not modifiable This timer is used by the receiving side of an UM This parameter configuresand thePDU length of detection. the SN field RLC entity for reordering loss On-line for UM procedures in downlink direction. This timer depends on HARQ and of ThisRLC parameter configures the RTT length of number the SN field On-line If UE does support the value “5bit”, the value HARQ retransmissions. for UMnot procedures uplink direction. ThisRLC parameter specifiesinthe parameter t-Reordering “10bit” is used. On-line If UE does not support the value “5bit”, the value of [36.331] This parameter specifies the parameter pollPDU of “10bit” is used. On-line This timer is used by the receiving side of an UM [36.331] Identity of the RLC profileand PDU loss detection. RLC entity for reordering Not modifiable The parameter Poll PDU defines the number of RLC This timer depends on HARQ RTT and number of This parameter specifies the parameter t-pollRetransmit PDUs that are sent on a logical channel before the RLC On-line HARQ retransmissions. of [36.331] polling bit is set.specifies the parameter t-StatusProhibit On-line This parameter This timer is used by the transmitting side of an AM of [36.331] This parameter specifies the parameter t-Reordering of RLC entity order tothe retransmit a poll. This timer isinused by receiving side of an AM RLC On-line [36.331] The used minimum value of the timer shall be larger This parameter the parameter pollPDU of entity in order tospecifies prohibit ofof a an STATUS This timer is used byround-trip the transmission receiving side AM RLC On-line than the calculated time with considerations [36.331] PDU Identity of the RLC profile entity for reordering, PDUdefines loss out-of-sequence detection and delay Not modifiable of HARQ retransmissions and The parameter Poll PDU the number of arrival. RLCof STATUS transmission. This timerthan depends onthe The value of timer larger twicethe of This parameter specifies thebe parameter t-pollRetransmit PDUs thatPDU arethe sent on shall a logical channel before RLC On-line HARQ RTT number of HARQ retransmissions. timerReorder. of [36.331] polling bit is and set.specifies This parameter the parameter t-StatusProhibit On-line This timer is used by the transmitting side of an AM of [36.331] This parameter specifies the parameter t-Reordering of RLC entityisinused order tothe retransmit a poll. This timer by receiving side of an AM RLC On-line [36.331] The used minimum value of the timer shall be larger This parameter specifies the parameter pollPDU of entity in order to prohibit ofof a an STATUS This timer is used byround-trip the transmission receiving AM RLC On-line than the calculated time side with considerations [36.331] PDU Identity the RLC profile entity forofreordering, PDUdefines loss out-of-sequence detection and delay Not modifiable of HARQ retransmissions and The parameter Poll PDU the number of arrival. RLCof STATUS PDU transmission. This timer depends on The value of the timer shall be larger than twice of the PDUs that are sent on a logical channel before the RLC HARQ timerReorder. polling RTT bit is and set. number of HARQ retransmissions. This parameter specifies the parameter t-pollRetransmit On-line of [36.331] This parameter specifies the parameter t-StatusProhibit On-line This timer is used by the transmitting side of an AM of [36.331] This parameter specifies the parameter t-Reordering of RLC entityisinused order tothe retransmit a poll. This timer by receiving side of an AM RLC On-line [36.331] The used minimum value of the timer shall be larger This parameter specifies the parameter pollPDU of entity in order to prohibit ofof a an STATUS This timer is used byround-trip the transmission receiving AM RLC On-line than the calculated time side with considerations [36.331] PDU Identity the RLC profile entity forofreordering, PDUdefines loss out-of-sequence detection and delay Not modifiable of HARQ retransmissions and The parameter Poll PDU the number of arrival. RLCof STATUS PDU transmission. This timer depends on The value of the timer shall be larger than twice of the This parameter specifies the parameter t-pollRetransmit PDUs that are sent on a logical channel before the RLC On-line HARQ RTT number of HARQ retransmissions. timerReorder. of [36.331] polling bit is and set.specifies This parameter the parameter t-StatusProhibit On-line This timer is used by the transmitting side of an AM of [36.331] This parameter specifies the parameter t-Reordering of RLC entityisinused orderby tothe retransmit a poll. This timer receiving side of an AM RLC On-line [36.331] The used minimum value of the timer shall be larger If for an cell all configured PLMN of IDsa are entity in eNB order to prohibit STATUS On-line This timer ison used by the transmission receiving side of an AM RLC than the calculated round-trip time with considerations unavailable S1 interface for the duration given by PDU This parameter defines the period of the SCell On-line entity for reordering, PDU and loss out-of-sequence detection of of HARQ retransmissions ‘s1InducedCellDeactDelayTime’, the eNBand celldelay isarrival. Activation cycle. STATUS PDU transmission. This timer depends onSCell The value This parameter of the defines timer shall the Method be larger tothan be used twicefor of the On-line deactivated. The parameter is inofseconds. HARQ RTT andvalue number HARQ retransmissions. timerReorder. Activation. This timer controls theused deactivation of Secondary Cell On-line This parameter is not when activated "blind" means that SCell is blindly and it is for Carrier Aggregation configured UEs. "sCellActivationMethod" is set to "blind". The parameter selects the ambiguous HARQ On-line never re-activated afterhow "sCellDeactivationTimereNB" feedback ofSteps UE with an active Cell SCell related to DL expiration. Number of for Graceful Shutdown On-line The timer behaves in the same way as the of SCell transmission is interpreted for the purpose controlling "nonGBRBufferBased" means SCellbut activation deactivation timer defined in TSthat 36.321, result isis is On-line If set to conservative, the ambiguous HARQ feedback DRX Inactivity Timer. triggered depending on thebynon-GBR data in buffer. explicit SCell deactivation MAC CE instead of the implicit interpreted asidentifier DTX Activation forfor thewhich purpose controlling Physical the of system information Period ofcell the SCell cycle is configured in On-line SCell deactivation in order to avoid eNB – UE timer. If set to aggressive, the ambiguous HARQ applies. "sCellActivationCyclePeriod". misalignment WCDMA systeminformation due to ambiguous which HARQ shall be included feedback is interpreted as NACK for thefeedback. purpose of in On-line The the RRC value represents the number ofthat radio controlling the timer. when ItRelease is expected the aggressive This timerConnection is started eNBmessage. receives a frames. valid RANOn-line Value "infinity" means that the SCell is never setting will favor the UE throughput of UEs with an INFORMATION/Initial Multiple Report PDU. This timer is started when RIM procedure for a GERAN deactivated The parameter by sCellDeactivationTimereNB. must be added as character string in activetimer SCell. It is expected the conservative setting On-line This is restarted whenthat eNB receives subsequent neighbor cell fails or when ends. hexadecimal notation with leading '0x', where for each On-line will favor cell throughput. This timer is started eNB sends out a RANRAN-INFORMATION/Multiple Report PDU. When thecharacter timer expires re-starts RANoctet two mustthe beeNB configured, with aRANminimum INFORMATION-REQUEST/Mutiple Report message. When the timer expires the eNB re-sends the Guard against failure of the MME to respond in INFORMATION-REQUEST/Multiple Reportthe procedure On-line length of one octet. When the timer expires the eNB re-sends RIM INFORMATION-REQUEST/Multiple Report PDU. preparation phase of S1 handover to GSM for the GERAN neighbor cell. The octet string has to be defined according to Guard against failure of the MME to respond in message up to nRimRirG(see [CCPM.9031]) times. On-line Refer to [RIM.359]. Timer TS1RELOCprep_InterRAT used to guard TS25.331 section 10.2.48a. preparation phase of of intra LTE S1is handover Guard against failure the MME to respond in against failure of the MME to respond preparation Note: IfTS1RELOCprep_LTE this timer’s length is set to a to short value (e.g. 5 On-line Timer is used guard against preparation of S1 tomay another 3GPP phase of the S1 handover to handover another 3GPP RAT. It is of for On-line minutes), thephase re-sending RIM PDUs visibly The maximum bound for tag timer calculation valid failure of MME to respond preparation phase RAT started inthe theS1 source eNB theinS1AP: increase link traffic. RLC-AM DRBs. intra LTE S1 handover. It tag iswhen started the source eNB The maximum bound timer calculation valid for Timer tS1relprepIrat isfor used to guard of On-line HANDOVER REQUIRED message isagainst sent message to failure the when the DRBs. S1AP: HANDOVER REQUIRED is RLC-UM the MME to respond preparation phase of S1 handover MME and is stopped when the S1AP: HANDOVER This timer delays the continuation of the admisison On-line sent to the MME and is stopped when the S1AP: to another 3GPP RAT. PREPARATION It is started in the source eNB COMMAND or S1AP: FAILURE control for pre-empted bearers. HANDOVER COMMAND or S1AP: PREPARATION This parameter determines whether TTI bundling can when the S1AP: HANDOVER REQUIRED message is On-line message is received inreceived response. If theinter-frequency timer If eNB sends the S1AP message E-RAB RELEASE FAILURE message inwhen response. If the timer be started via intra-cell while sent to the MME andisis stopped the S1AP: Controls the handling ofhandover TX path failures. expires the handover is aborted or cancelled. INDICATION for pre-empted bearers to MME, BTS restart needed expires the handover is aborted or cancelled. or inter-RAT measurements are ongoing. HANDOVER COMMAND or S1AP: PREPARATION MME needs time to release the indicated bearers in FAILURE message is received in response. Ifmay the timer If setEPC. to "keepCellInService" remains enabled as the Until the release ofaacell bearer S-GW expires the isTX aborted or cancelled. as athandover least one path carrying PSS/SSS stilllong sendas downlink data packets for this bearer to is operating. eNB. The expected avarage time is covered by this timer that delays the continuation of the admisison If set toby "disableCell" a cellvalue. is disabled if at least one TX control the given timer path is not operable. Note that changing the mode requires "BTS restart". If txPathFailureMode is configured to 'keepCellInService' the cell will be kept in service in following configurations for a TX path failure: - dlMimoMode is configured to: "TXDiv", "4-way TXDiv", "Static Open Loop MIMO", "Dynamic Open Loop MIMO", "Closed Loop Mimo", "Closed Loop MIMO (4x2)" and - for FSMr2 and FSMr3: syncSigTxMode is configured to "TxDix" and at least one TX path is still operable while actOtdoa is set to "false" or (actOtdoa is set to "true" and actPrsTxDiv set to "true") or - for FSMr3: syncSigTxMode equals "SingleTx" and the TX path which transmits the synchronization signal (PSS/SSS) is operable eNB will automatically check for each cell if these conditions are fulfilled. If not, the cell will be disabled. Range and step false (0), true (1) NSN Default VF Default false (0) false (0) Disabled (0) enabled (1) false (0), true (1) false (0) true (1) false (0), true (1) true (1) true (1) false (0), true (1) true (1) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) true (1) Disabled (0), Enabled (1) false (0), true (1) false (0) false (0) Disabled (0) enabled (1) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) Disabled (0), Enabled (1) disabled (0), enabled (1) enabled (1) disabled (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) true (1) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) true (1) true (1) false (0), true (1) false (0) false (0) false (0), true (1) false (0) true (1) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) enabled (1) enabled (1) false (0) false (0) disabled (0), enabled (1) false (0), true (1) disabled (0), enabled (1) enabled (1) enabled (1) false (0), true (1) true (1) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) true (1) false (0), true (1) false (0) true (1) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) false (0), true (1) false (0) false (0) 25kB (0), 50kB (1), 75kB (2), 100kB 25kB (0) 25kB (0) 1 1 25kB (0), 50kB (1), 75kB (2), 100kB 25kB (0) 25kB (0) 25kB (0), 50kB (1), 75kB (2), 100kB 25kB (0) 25kB (0) 1...1, step 1 2...2, step 1 2 2 25kB (0), 50kB (1), 75kB (2), 100kB 25kB (0) 25kB (0) 25kB (0), 50kB (1), 75kB (2), 100kB 50kB (1) 50kB (1) 3 3 25kB (0), 50kB (1), 75kB (2), 100kB 25kB (0) 25kB (0) 25kB (0), 50kB (1), 75kB (2), 100kB 75kB (2) 75kB (2) 3...3, step 1 4...4, step 1 4 4 25kB (0), 50kB (1), 75kB (2), 100kB 25kB (0) 25kB (0) 25kB (0), 50kB (1), 75kB (2), 100kB 125kB (4) 125kB (4) 5 5 25kB (0), 50kB (1), 75kB (2), 100kB 50kB (1) 50kB (1) false (0), true (1) true (1) false (0) none (0), very low (1), low (2), middle 5...5, step 1 middle (3) middle (3) 0...999, step 1 - - 0...999, step 1 - - 2...3, step 1 - - 1..40 characters - No Default 512 kbps 512 kbps 0...9, step 1 1 0 0...9, step 1 9 8 0...9, step 1 9 9 64...150000 kbps, step 1 kbps 0...9, step 1 qciPrio (0), arpPrioPerVul (1) 8 8 qciPrio (0) qciPrio (0) 1... 5 2 2 104... 104 104 104 Disabled (0), Enabled (1) Enabled (1) Enabled (1) Disabled (0), Enabled (1) Enabled (1) enabled (1) 0...80 characters - No Default 1... 600 s 60 60 0...1048575, step 1 - No Default 0...999, step 1 - No Default 0...999, step 1 - No Default 2...3, step 1 - No Default false (0), true (1) true (1) true (1) false (0), true (1) false (0) false (0) 1...8, step 1 1 1 false (0), true (1) false false (0) 0...999, step 1 - No Default 0...999, step 1 - No Default 2...3, step 1 - No Default 0...1, step 1 0 0 0...9, step 1 9 8 0...9, step 1 0...9, step 1 9 9 8 8 50000 50000 0...1048575, step 1 - No Default 1... 32 20 20 0...4294967295, step 1 0...999, step 1 - 234 0...96 h, step 1 h 24 h 24 h 0...999, step 1 - 15 2...3, step 1 - 2 spid (1) spid (1) plmn (0), spid (1) 1...5, step 1 3 3 false (0), true (1) true true (1) initializing (0) No Default 1 (true) 0 (false) initializing (0), commissioned (1), n 0 (false), 1 (true) 0 (false), 1 (true) 1 (true) 0 (false) 0kbps (0), 8kbps (1), 16kbps (2), 32 8kbps (1) 8kbps (1) 0...65535, step 1 - No Default 0...1048575, step 1 - No Default 7...15 characters - No Default 0...999, step 1 - No Default 0...999, step 1 - No Default 2...3, step 1 - No Default 0...503, step 1 - No Default 1...1, step 1 1 1 Bit 0: eNB Status Report, Bit 1: UE 3 3 infinity (4) infinity (4) 101 101 300ms (0), 500ms (1), 750ms (2), 150 101...101, step 1 1...16, step 1 4 4 7bit (0), 12bit (1) 7bit (0) 7bit (0) 100ms (0), 150ms (1), 300ms (2), 500 100ms (0) 100ms (0) 102 102 102...102, step 1 7bit (0), 12bit (1) 7bit (0) 7bit (0) 100ms (0), 150ms (1), 300ms (2), 500 150ms (1) 150ms (1) 103 103 103... 103 7bit (0), 12bit (1) 50ms (0), 100ms (1), 150ms (2), 300ms (3), 500ms (4), 750ms (5), 104... 104 1500ms (6), infinity (7) 7bit (0), 12bit (1) (1), 750ms (2), 300ms (0), 500ms 1500ms (3), infinity (4) 2...2, step 1 Bit 0: eNB Status Report, Bit 1: UE 12bit (1) 12bit (1) 100ms (1) 100ms (1) 104 104 12bit (1) 12bit (1) 500ms (1) 500ms (1) 2 2 3 3 750ms (2) 750ms (2) 3...3, step 1 3 3 Bit 0: eNB Status Report, Bit 1: UE 3 3 750ms (2) 750ms (2) 4 4 300ms (0), 500ms (1), 750ms (2), 150 300ms (0), 500ms (1), 750ms (2), 150 4...4, step 1 Bit 0: eNB Status Report, Bit 1: UE 300ms (0), 500ms (1), 750ms (2), 150 5...5, step 1 3 3 750ms (2) 750ms (2) 5 5 Bit 0: eNB Status Report, Bit 1: UE 3 3 300ms (0), 500ms (1), 750ms (2), 150 750ms (2) 750ms (2) all equal (0), intra eNB HO prior inte 1s (1), 2s (2), 5s (5), 10s (10), 20s (20), 50s (50), 100s (100) all equal (0) low prio S1 (3) 10s (10) 10s (10) false (0), true (1) - false (0) false (0), true (1) - false (0) 80ms (3) 80ms (3) 2 (2) 2 (2) 50ms (0), 60ms (1), 70ms (2), 80ms 1 (1), 2 (2) 0...63, step 1 46 Refer eNode-B commi Template 1 (true) 0 (false) 1...1, step 1 1 1 1... 256 kbps 31 31 1... 840 kbps 31 31 101...101, step 1 101 101 2...2, step 1 2 2 0 (false), 1 (true) 1...1, step 1 DISABLE (0), ENABLE (1) GBR (0) RLC_UM (1) 101...101, step 1 50ms (0), 100ms (1), 150ms (2), 30 2...16, step 1 50ms (0), 60ms (1), 70ms (2), 80ms 1 (1), 2 (2), 3 (3) 0...63, step 1 0 (false), 1 (true) 1 1 ENABLE (1) ENABLED (1) GBR (0) GBR (0) RLC_UM (1) RLC_UM (1) 101 101 100ms (1) 100ms (1) 5 5 80ms (3) 80ms (3) 2 (2) 26 2 (2) Refer eNode-B commi Template 0 (false) 0 (false) 5... 50 % 16 (Assuming minimum TBS size of 256 bits.) 16 5... 50 % 35 (Based on minimum TBS of 114 bits) 35 2 (2), 3 (3) 2 (2) 2 (2) 1... 2048 kbps 144 144 1..840 kbps 144 144 102...102, step 1 102 102 4...4, step 1 4 4 2...2, step 1 DISABLE (0), ENABLE (1) GBR (0) RLC_UM (1) 102...102, step 1 50ms (0), 100ms (1), 150ms (2), 30 2...16, step 1 50ms (0), 60ms (1), 70ms (2), 80ms 2 2 ENABLE (1) ENABLE (1) GBR (0) GBR (0) RLC_UM (1) RLC_UM (1) 102 102 100ms (1) 100ms (1) 7 7 80ms (3) 80ms (3) 1 (1), 2 (2), 3 (3) 2 (2) 2 (2) 0...63, step 1 46 Refer eNode-B commi Template 0 (false), 1 (true) 0 (false) 0 (false) 5... 50 % 16 16 5... 50 % 35 35 2 (2), 3 (3) 2 (2) 2 (2) 1... 2048 kbps 128 128 1... 512 kbps 64 64 103...103, step 1 103 103 3...3, step 1 3 3 3...3, step 1 3 3 ENABLE (1) ENABLE (1) GBR (0) GBR (0) RLC_UM (1) RLC_UM (1) 103 103 100ms (1) 100ms (1) 6 6 300ms (13) 300ms (13) 1 (1), 2 (2), 3 (3) 0...63, step 1 2 (2) 28 2 (2) Refer eNode-B commi Template 0 (false), 1 (true) 0 (false) 0 (false) 5... 50 % 16 16 5... 50 % 35 35 2 (2), 3 (3) 2 (2) 2 (2) 1... 2048 kbps 320 320 1... 512 kbps 32 32 1...5, step 1 2 2 5...5, step 1 5 5 DISABLE (0),200ms ENABLE 150ms (10), (11),(1) 250ms GBR 300ms (0) (12), (13), 350ms (14), RLC_UM (1)400ms (15), 450ms (16), 500ms (17), 102...102, step 1 (19), 650ms 550ms (18), 600ms (20), (21), (1), 150ms (2), 30 50ms700ms (0), 100ms 750ms (22), 800ms (23), 850ms 2...16, step 1 (24), 900ms (25), 950ms (26), 1000ms (27) 4...4, step 4 DISABLE (0), ENABLE (1) GBR (0) RLC_AM (0) 1...5, step 1 50ms (0), 100ms (1), 150ms (2), 30 2...16, step 1 1 (1), 2 (2), 3 (3), 4 (4), 5 (5) 0...63, step 1 4 4 ENABLE (1) ENABLE (1) GBR (0) GBR (0) RLC_AM (0) RLC_AM (0) 2 2 300ms (3) 300ms (3) 8 8 3 (3) 3 (3) 34 Refer eNode-B commi Template 0 (false), 1 (true) 0 (false) 0 (false) 0 (0), 2 (2), 3 (3) 3 (3) 3 (3) 1...5, step 1 1 1 1...1, step 1 1 1 5...5, step 1 5 5 DISABLE (0), ENABLE (1) ENABLE (1) ENABLE (1) nonGBR (1) nonGBR (1) nonGBR (1) RLC_AM (0) RLC_AM (0) RLC_AM (0) 1...5, step 1 1 1 100ms (1) 100ms (1) 9 11 50ms (0), 100ms (1), 150ms (2), 30 2...16, step 1 SIGNALLING (0), NON-GBR (1) NON-GBR (1) NON-GBR (1) 1...100, step 1 40 5 1 (1), 3 (3), 4 (4), 5 (5) 3 (3) 3 (3) 0...63, step 1 18 Refer eNode-B commi Template 0 (false) 0 (false) 2 (2), 3 (3) 3 (3) 3 (3) 1...5, step 1 2 2 6...6, step 1 6 6 6...6, step 1 6 6 0 (false), 1 (true) DISABLE (0), ENABLE (1) ENABLE (1) ENABLE (1) nonGBR (1) nonGBR (1) nonGBR (1) RLC_AM (0) RLC_AM (0) RLC_AM (0) 1...5, step 1 2 2 300ms (3) 300ms (3) 9...16, step 1 9 11 1...100, step 1 20 5 1 (1), 3 (3), 4 (4), 5 (5) 3 (3) 3 (3) 50ms (0), 100ms (1), 150ms (2), 30 0...63, step 1 20 Refer eNode-B commi Template 0 (false) 0 (false) 2 (2), 3 (3) 3 (3) 3 (3) 1...5, step 1 1 1 7...7, step 1 7 7 7...7, step 1 7 7 DISABLE (0), ENABLE (1) ENABLE (1) ENABLE (1) nonGBR (1) nonGBR (1) nonGBR (1) RLC_AM (0) RLC_AM (0) RLC_AM (0) 1...5, step 1 2 2 100ms (1) 100ms (1) 10 11 0 (false), 1 (true) 50ms (0), 100ms (1), 150ms (2), 30 9...16, step 1 1...100, step 1 10 5 1 (1), 3 (3), 4 (4), 5 (5) 3 (3) 4 (4) 0...63, step 1 10 Refer eNode-B commi Template 0 (false) 0 (false) 2 (2), 3 (3) 3 (3) 3 (3) 1...5, step 1 2 2 8...8, step 1 8 8 8...8, step 1 8 8 DISABLE (0), ENABLE (1) ENABLE (1) ENABLE (1) nonGBR (1) nonGBR (1) nonGBR (1) RLC_AM (0) RLC_AM (0) RLC_AM (0) 1...5, step 1 2 2 300ms (3) 300ms (3) 11 11 0 (false), 1 (true) 50ms (0), 100ms (1), 150ms (2), 30 9...16, step 1 1...100, step 1 1 (1), 3 (3), 4 (4), 5 (5) 0...63, step 1 0 (false), 1 (true) 5 5 3 (3) 3 (3) 0 Refer eNode-B commi Template 0 (false) 0 (false) 2 (2), 3 (3) 3 (3) 3 (3) 1...5, step 1 2 2 9...9, step 1 9 9 9...9, step 1 9 9 DISABLE (0), ENABLE (1) ENABLE (1) ENABLE (1) nonGBR (1) nonGBR (1) nonGBR (1) RLC_AM (0) RLC_AM (0) RLC_AM (0) 1...5, step 1 2 2 50ms (0), 100ms (1), 150ms (2), 30 300ms (3) 300ms (3) 9...16, step 1 12 11 1...100, step 1 1 5 1...6, step 1 - No Default 1 (1), 3 (3), 4 (4), 5 (5) - No Default 0...63, step 1 - No Default 0 (false), 1 (true) 0 (false) 0 (false) 2 (2), 3 (3) - No Default 1...5, step 1 - No Default 128...254, step 1 - No Default DISABLE (0), ENABLE (1) ENABLE (1) ENABLE (1) nonGBR (1) nonGBR (1) nonGBR (1) RLC_AM (0) RLC_AM (0) RLC_AM (0) 1...5, step 1 - No Default 50ms (0), 100ms (1), 150ms (2), 30 - No Default 9...16, step 1 - No Default 1...100, step 1 - No Default 0... 1200 seconds 0 0 off (0), rfMaster (1), rfShared (2) - - infinity (7) infinity (7) 1 1 5ms (0), 10ms (1), 15ms (2), 20ms 120ms (23) 120ms (23) 0ms (0), 5ms (1), 10ms (2), 15ms ( 50ms (10) 50ms (10) 0ms (0), 5ms (1), 10ms (2), 15ms (3 50ms (10) 50ms (10) 101 101 5bit (0) 5bit (0) 5bit (0) 5bit (0) 50ms (10) 50ms (10) 102 102 5bit (0) 5bit (0) 5bit (0) 5bit (0) 50ms (10) 50ms (10) 103 103 10bit (1) 10bit (1) 10bit (1) 10bit (1) 50ms (10) 50ms (10) 4 (0), 8 (1), 16 (2), 32 (3), 64 (4), 128 1...1, step 1 101...101, step 1 5bit (0), 10bit (1) 0ms (0),10bit 5ms (1), 5bit (0), (1) 10ms (2), 15ms (3), 20ms (4), 0ms (0), (1),(6), 10ms (2),(7), 15ms (3 25ms (5),5ms 30ms 35ms 40ms (8), 45ms 102...102, step 1(9), 50ms (10), 55ms (11), 60ms (12), 5bit (0), 10bit (1) 65ms (13), 70ms 0ms (0), 5ms (1), 10ms(16), (2), 15ms 5bit (0), 10bit (1) 80ms (14), 75ms (15), 85ms (3), 20ms (4), (17), 90ms (18), 0ms (0), 5ms (1), 10ms (2), 15ms (3 25ms (6),(20), 35ms (7), 95ms (5), (19),30ms 100ms 110ms 40ms (8), 45ms (9), 103... 103 (21), 120ms (22), 50ms (10), 55ms (11), 60ms (12), 130ms (23), 140ms (24), 150ms 5bit (0), 10bit (1) 65ms (13), 70ms (25), 160ms (26), 5bit (0), 10bit (1) 80ms (14), 75ms (15), (16), 85ms 170ms (27), 180ms (28), 190ms (17), 90ms (18), (29), 200ms (30) 95ms (19), 100ms (20), 110ms 104...120ms 104 (22), (21), 130ms (24), 150ms 5bit (0),(23), 10bit140ms (1) (25), 160ms (26), 5bit (0),(27), 10bit180ms (1) 170ms (28), 190ms (29), 200ms (30) 104 104 10bit (1) 10bit (1) 5bit (0) 5bit (0) 50ms (10) 50ms (10) 64 (4) 64 (4) 2 2 5ms (0), 10ms (1), 15ms (2), 20ms 120ms (23) 120ms (23) 0ms (0), 5ms (1), 10ms (2), 15ms ( 50ms (10) 50ms (10) 0ms (0), 5ms (1), 10ms (2), 15ms (3 50ms (10) 50ms (10) 4 (0), 8 (1), 16 (2), 32 (3), 64 (4), 128 64 (4) 64 (4) 4 (0), 8 (1), 16 (2), 32 (3), 64 (4), 128 2...2, step 1 3...3, step 1 3 3 5ms (0), 10ms (1), 15ms (2), 20ms 120ms (23) 120ms (23) 0ms (0), 5ms (1), 10ms (2), 15ms ( 50ms (10) 50ms (10) 0ms (0), 5ms (1), 10ms (2), 15ms (3 50ms (10) 50ms (10) 4 (0), 8 (1), 16 (2), 32 (3), 64 (4), 128 64 (4) 64 (4) 4 4 4...4, step 1 5ms (0), 10ms (1), 15ms (2), 20ms 120ms (23) 120ms (23) 0ms (0), 5ms (1), 10ms (2), 15ms ( 50ms (10) 50ms (10) 0ms (0), 5ms (1), 10ms (2), 15ms (3 50ms (10) 50ms (10) 4 (0), 8 (1), 16 (2), 32 (3), 64 (4), 128 64 (4) 64 (4) 5 5 5ms (0), 10ms (1), 15ms (2), 20ms 120ms (23) 120ms (23) 0ms (0), 5ms (1), 10ms (2), 15ms ( 50ms (10) 50ms (10) 0ms (0), 5ms (1), 10ms (2), 15ms (3 50ms (10) 50ms (10) 300...1800 s, step 5 s 0.5s (0), 1s (1), 2s (2), 4s (3), 8s (4), 16s (5) nonGBRBufferBased (0), blind (1) 900 s 900 s 2s (2) 2s (2) nonGBRBufferBased (0) nonGBRBufferBased (0) rf2 (0), rf4 (1), rf8 (2), rf16 (3), rf32 (4), rf64 (5), 128 infinity (7) conservative (0), (6), aggressive (1) 128 (6) 128 (6) conservative (0) conservative (0) 5...5, step 1 1...16, step 1 6 6 6...180, step 6 60 60 0...511, step 1 - No Default 4...2050 characters - No Default 15...250 minute, step 1 minute 150 minute 150 minute 5...250 minute, step 1 minute 150 minute 150 minute 5s 5s 50... 5000 1000 ms 1000 ms 50...2000 ms, step 50 ms 500 ms 500 ms 50...2000 ms, step 50 ms 2000 ms 500 ms 0...1000 ms, step 1 ms 10 ms 10 ms 1...15 s, step 1 s 0...1000 ms, step 1 ms 10 ms 10 ms 0... 500 ms 100 ms 100 ms 0 (false), 1 (true) keepCellInService (0), disableCell (1 0 (false) 0 (false) keepCellInService (0) keepCellInService (0) non-CA the sectorId must (nCqiRbcells - blankedPucch) * 6 * be unique within the eNB. cqiPerNp/2 Shared Default false (0) enabled (1) true (1) true (1) false (0) false (0) false (0) false (0) false (0) false (0) false (0) true (1) true (1) false (0) enabled (1) false (0) true (1) false (0) false (0) false (0) false (0) false (0) false (0) disabled (0) false (0) false (0) false (0) false (0) true (1) false (0) false (0) true (1) false (0) true (1) false (0) false (0) false (0) false (0) enabled (1) false (0) enabled (1) false (0) false (0) false (0) false (0) true (1) true (1) Hint: For fully actEmerCallRedir functional carrier is set If additionally aggregation at one CAREL to 'Enabled' ORleast actIMSEmerSessR9 instances need to exist in the eNB, if is set to 'true', no CAREL instance is created carrier If actCMAS is set to 'true' following (2.1) and riEnable set to 'true' aggregation is only prepared. condition -Only maxNumRrcEmergency <= if actCellTrace is set to 'true' need to be fulfilled n1PucchAn * cellSrPeriod Parameter relationships actMDTCellTrace If actDLCAggr is set the -can theonly sibSchedulingList must contain (2.2) andbe riEnable settoto'true' 'true'and AND set to 'true', i.e. eNB is configured with LNCEL 'SIB12' configuration, i.e. riPerM is set tois'2'changed to 'false' ifinstances actCellTrace having mixed dlChBw -siMessageSibmaxNumRrcEmergency <= (nCqiRb actMDTCellTrace -- carrier aggregation isbe only supported Type of one set must set to 'SIB12' If actCSFBRedir is to 'true', at le blankedPucch) * to 6set *'false' cqiPerNp must be changed for aggregated cells (P-LNCEL and S-aspwsWithEmAreaId is mandatory (2.2) and riEnable set to 'true' AND well. when one LNCEL instance LNCEL) required riPerM is set to actCsfbPsHoToUtra '1' The parameter does have configured MHz' dlChBw actETWS must be set'5to 'false'. --can maxNumRrcEmergency <= (nCqiRb where the other LNCE instance Two LCELL instances can shareisthe - blankedPucch) * 6if*actHOtoWcdma cqiPerNp/2 be only set to to 'true' configured '10 MHz' (having same same antenna line (ANTL) withcan TXRX The parameter actConvVoice is LCELL-sectorId). or TX –txRxUsage (configured in the only be set to 'true' and actCSFBRedir is ifLCELL-resourceList) actCplaneOvlHandling is set to set 'true' For eNB configurations with same if actDualCarrier set to 'true' if actMultBearers is to the structure must be dlChBw in its ovlha LNCEL instances, is configured to value 'true'. configured 'Enabled'. configured carrier aggregation set is restricted to For actDualCarrier to 'false' to 'true', i.e. if actMultBearers is one set maximal '10Mhz'. antenna line (ANTL) canmust be be to 'false', actConvVoice Only on several FSMr3 variants configured with TXRX or TX – 'false'. actHighRrc can be configured to 'true', txRxUsage (configured in the LCELLThe parameter actConvVoice canto be If actDualBand is set to 'true' maximu where following conditions have resourceList) only in one LCELL only be set to 'false' if fulfilled: instance. -if qciTab5-schedulType is set to actHighRrc is set to 'true': 'NON-GBR' AND actERabModify can only be or set'20 to 'true' - ulChBw must be '15 MHz' -MHz' if actIMSEmerSessR9, actETWS is set to 'true' following actSrvccToWcdma -condition must be '15 MHz' '20 If dlChBw actEmerCallRedir isare setalltoor'Enabled' and actSrvccToGsm need to be fulfilled: must MHz' follwoing conditions be fulfilled: set to 'false'. actEnhAcAndGbrServices can only SIB10' must -- actFlexBbUsage must bebe configured at leastand one'SIB11' REDRT bepresent If actConvVoice is set must to 'true' be in sibSchedulingListto 'false' (1) If actFlexBbUsage is set to 'true', created per ifLNCEL where following set to 'true' siMessageSibType the emerCallPrio The parameter actGsmRedirWithSI condition need to be fulfilled --value actMultBearers is set to 'true' AND pwsWithEmAreaId mandatory If actHighRrc is maxNumRrc, set tois'false' range is set to 1...6for can maxNumRrc + max(addAUeRrHo, -addAUeRrHo, congWeightAlg is configured. Important information: -required maxNumRrc must be less than or -actEnhAcAndGbrServices maxNumRrcEmergency >= only betoset to 'true' if is mandatory addAUeTcHo) >= maxNumQci1Drb canmaxnot + In RL40 actIntraFreqLoadBal must -addAUeTcHo, etwsPrimNotifBcDur equal 840 NumRrc + max(addAUeRrHo, -be at least one of the parameters max(addNumQci1DrbRadioReasHo, set to 'false' if actMultGbrBearers always be required -maxNumRrcEmergency maxNumActDrb must be less than addAUeactRedirect, actCSFBRedir or addNumQci1DrbTimeCriticalHo) is 'false'. -and actCMAS must be set to 'false'. or equal to 2520 maxNumActUE depends on TcHo) actEmerset to 'true' Following parameter are mandatory the bandwith: actConvVoice can only be set to Thecell parameter actEmerCallRedir CallRedir is set to 'true' AND required all (a) ifall min(ulChBw,dlChBw) has 'false' if in can only be is setset to to 'Disabled' - in MODRED and If actIdleLB all of the cells of'5REDRT, the eNB if 'false' value MHz' actIMSEmerSessR9 is eNB configured - if actGsmRedirWithSI is set to to MORED objects of the with following conditions need to be actIntraFreqLoadBal is set to if'false'. actIfHo is 'enabled' all of the -'false' maxNumActUE value range is is OR (if actGsmRedirWithSI redirRAT set to 'geran' the parameter fulfilled ‘true’ following to 0...420 ifrestricted actIMSEmerSessR9 isisset tothe 'true' set to all REDRT addGsmSIToRedirMsg configured. (1) for instances of no relations -following loadBalancingProfile conditions needvalue to be fullfilled -superior addAUeRrHo range is condition need to be fulfilled 'true' AND (actRedirect is set to LNCEL --restricted cellCapClass a1TimeToTriggerDeactInterMeas no relations to 0...420 maxNumRrcEmergency >= -'enabled' redirectPrio must be unique -must deltaMargin be 0ms...5120ms -OR addAUeTcHo value range maxNumQci1Drb + If actInterFreqLB is set to 'true' actCSFBRedir is set to csFallBPrio must be uniqueis all of --the upperMarginCIO restricted to 0...420instances of the max(addEmergencyfollowing 'Enabled')). (2) for all MORED -a2TimeToTriggerActInterFreqMeas lowerMarginCIO -superior maxNumRrc value range is must be Sessions, conditions need to beqciTab9 fulfilled qciSupp in structure MOPR must restricted to 0...420 -addNumQci1DrbRadioReasHo, actIfHo must beif set tounique 'enabled' set to 'ENABLE' -be redirectPrio must be 0ms...5120ms maxNumRrcEmergency value -addNumQci1DrbTimeCriticalHo) is set mandatory actNonGbrServiceDiff is to 'false' -- iFLBLoadThresholds csFallBPrio must be must unique threshold2InterFreq 0...97 range is restricted toinstances 0...420 required in actOperatorQCI must be setbetoof 'false' (3) for all MODRED can be to setthe to -actMDTCellTrace threshold2a must be only 0...97 (b) if min(ulChBw,dlChBw) has LNCEL instances ifexisting actNonGbrServiceDiff is set superior MODPR 'true' if actCellTrace is set to 'true', hysThreshold2a must be 0…15 dB '10 MHz' --value at least thresholdRsrpIFLBFilter or (1) actMultBearers can only be set to 'false'. -otherwise redirectPrio mustbebeset unique it must to 'false'. -actERabModify hysThreshold2InterFreq must be 0… maxNumActUE value range is thresholdRsrq’false’ if actEnhAcAndGbrServices is can only be set to -15 csFallBPrio mustofbe unique actMultGbrBearers can only be set to The actMDTCellTrace dB restricted to 0...420 IFLBFilter must be configured set tomodification 'true' actNonGbrServiceDiff isinsetisto 'true' ifif’false’. actEnhAcAndGbrServices from 'true' to 'false' requires that actIfHo must be set to 'enabled' ifin all - addAUeRrHo value range is existing LNHOIF Only if actMultBearers is set to ’true’ 'true'. set LNCEL instances activate- can actInterFreqLB is configured to be 'true' restricted to 0...420 instances actEnhAcAndGbrServices set to 'true'. If actNonGbrServiceDiff is set Meas is set to 'false'. - addAUeTcHo value range is to 'false to ’true’. if actMultGbrBearers is set to 'true' restricted to 0...420 is set to ’false’ (2) If actMultBearers following condition need to be fulfilled - maxNumRrc must valuebe range is 'false'. actConvVoice set to - min(6*maxNumRrcEmergency, restricted to 0...420 is set to 'true' (3) If actMultBearers 4200) >= maxNumActDrb + for Inter-R The feature ''UE-based - maxNumRrcEmergency following condition needANR tovalue be fulfilled max(3*addEmergencySessions, iffor actRedirect is set 'enabled', at range is restricted toto0...420 maxNumRrc: addNumDrbRadioReasHo, least (2) If actFlexBbUsage is set to 'true', min(6*(maxNumRrc+ addNumDrbTimeCriticalHo) one REDRT instance LNCEL the maximum allowedper value for uplink max(addAUeRrHo, must and downlink channel addAUeTcHo)), 4200) bandwidth >= maxexist with dlChBw) redirectPrio setMHz'. to 1..6. (ulChBw, is '10 NumActDrb + The parameter can be (3) The range ofactRedirect MaxPucchResource max(addNumDrbRadioReasHo, actSelMobPrf can be set to 'true' only if only set to 'disabled' size (defined by parameters addNumDrbTimeCriticalHo) -(3.1) if actGsmRedirWithSI is set n1PucchAn, pucchNAnCs andtodeltaThe parameter actSrvccToGsm can if in addition 'false' PucchShift) depends onset parameters be onlyOR set actSrvcctoWcdma to 'true' if is actConvVoice is actIMSEmerSessR9 to 'true' Parameter can for -maxNumRrcEmergency if actGsmRedirWithSI is set to 'true' ulChBw and actFlexBbUsage: set to 'true'. following only be set to AND (actCSFBRedir OR (a) if actFlexBbUsage = 'true' condition must be fulfilled: 'true' actEmerCallfor ulChBw set to '5MHz' -- min(6*maxNumRrcEmergency, if prohibitPsHOtoWcdma or is set to Redir set to 'Enabled').+ '10MHz', 4200) are >= MaxPucchResourceSize maxNumActDrb 'false' AND shall max(3*addEmergencySessions, - if actConvVoice is set to 'true' be less thanactHOtoWcdma or equal to 10PRB addNumDrbRadioReasHo, Parameter can be (b) if actFlexBbUsage = 'false' addNumDrbTimeCriticalHo) only set to 'false' -if for ulChBw set to '5MHz' or maxNumRrcEmergency actSrvccToWcdma is set>= to 'false'. '10MHz', MaxPucchResourceSize maxNumQci1Drb + If actSrvccToWcdma is set to 'true' shall max(addEmergency-Sessions, parameter srvccHoInd be less or equal 20PRB addNumQci1DrbRadioReasHo, must bethan configured into every LNADJW false (0) If actUeBasedAnrUtran is set to 'true': - filterCoefficientCpichRscp, filterCoefficientCpichEcn0 and measQuantityUtra are mandatory required in all LNCEL înstances - anrUtraRscpThres is mandatory required in all LNCEL înstances - actDrx must be set to 'true' in all LNCEL înstances. false (0) false (0) 25kB (0) 1 25kB (0) 25kB (0) 2 25kB (0) 50kB (1) 3 25kB (0) 75kB (2) 4 25kB (0) 125kB (4) 5 50kB (1) false (0) middle (3) - Actual range depends on mncLength: if mncLength=2 then range is 00...99, if mncLength=3 then range 00 - The value of mncLength determines whether the mnc is of 2 digits or 3 digits length. No Default 512 kbps 0 8 9 8 enabled (1) only if enableGrflShdn parameter If actEnhAcAndGbrServices is setisto 't set to 'Enabled', administrativeState in each -LNCEL can be set to 'shutting down' if pMax is set to a value less than 25 dBm, enableGrflShdn must be set to 'Disabled', no limitation otherwise No Default No relations qciPrio (0) 2 104 Enabled (1) 60 The parameter is mandatory if actETWS i No Default No Default No Default Actual range depends on mncLength: if mncLength=2 then range is 00...99, if mncLength=3 then range 00 No Default The value of mncLength determines whether the mnc is of 2 digits or 3 digits length. true (1) - false (0) - 1 false (0) No Default No Default The actual range depends on the mncLength: if mncLength=2, then range is 00..99, if mncLength=3, then No Default Determines length of MNC. 0 8 lnBtsId must be same as MRBTS/mrbtsId, BTSSCL/btsid and IPNO/btsid. 9 8 50000 No Default 20 234 24 h 15 2 The global cell identity a related neighbor cell LNREL must be different to the cell global identity of the pare LNREL cell global identity (ecgiAdjEnbId + ecgiLcrId + ecgiPlmnId) must be different from the LNCEL glob It is sufficient that one of the elements is different. The neighbor must bebe different to the cell global global LNCEL identity identity of the pare The global global cell cell identity idendityaofrelated all adjacent LTEcell cellLNREL LNADJL must diffewrent to the , i. The actual on the+MNClength: length=2, then is 00..99, if length=3, then rangeglob is 0 LNREL cellrange global identity (ecgiAdjEnbId + ecgiLcrId + ecgiPlmnId) be different from the LNCEL global LNADJL IDdepends (ecgiAdjEnbId ecgiLcrid + ifecgiPlmnId) mustrange bemust different to global LNCEL identity (lnBt Determines length of MNC. -The neighbor must bebe different to the cell global global LNCEL identity identity of the pare The global global cell cell identity idendityaofrelated all adjacent LTEcell cellLNREL LNADJL must diffewrent to the , i. LNREL cellcell global identity (ecgiAdjEnbId +cell ecgiLcrId +must ecgiPlmnId) from the LNCEL global LNADJL ID (ecgiAdjEnbId + ecgiLcrid +LNREL ecgiPlmnId) must bemust different to global LNCEL identity (lnBt The global identity a related neighbor be different tobe thedifferent cell global identity of theglob pare LNREL cell global identity (ecgiAdjEnbId + ecgiLcrId + ecgiPlmnId) must be different from the LNCEL glob The global cell idendity of all adjacent LTE cell LNADJL must be diffewrent to the global LNCEL identity , i. global LNADJL ID (ecgiAdjEnbId + ecgiLcrid + ecgiPlmnId) must be different global LNCEL identity (lnBt The global cell idendity of all adjacent LTE cell LNADJL must be diffewrent to to the global LNCEL identity , i. global LNADJL ID (ecgiAdjEnbId + ecgiLcrid + ecgiPlmnId) must be different to global LNCEL identity (lnBt spid (1) 3 true (1) No Default 0 (false) 0 (false) 8kbps (1) No Default No Default No Default No Default No Default No Default No Default 1 3 infinity (4) The pci value must be unique for all list If one ofhaving the listidentical parameter: enbId, mcc, mnc or mncLength in one pciIpAdrMap is configured, all the other entries dlEarfcn configured. If one of the list parameter: enbId, mcc, mnc or mncLength in one pciIpAdrMap is configured, all the other If one of the list parameter: enbId, mcc, mnc or mncLength in one pciIpAdrMap is configured, all the other If one of the list parameter: enbId, mcc,if mnc or mncLength one is pciIpAdrMap is configured,then all the other Actual range depends on mncLength: mncLength=2 then in range 00...99, if mncLength=3 range 00 The value of mncLength determines whether the mnc is of 2 digits or 3 digits length. The pci value must be unique for all list no relations entries having identical dlEarfcn configured. no relations no relations 101 4 7bit (0) 100ms (0) 102 7bit (0) 150ms (1) 103 - 12bit (1) - 100ms (1) - 104 - 12bit (1) - 500ms (1) - 2 3 750ms (2) 3 3 750ms (2) 4 3 750ms (2) 5 3 750ms (2) low prio S1 (3) 10s (10) The parameter prohibitPsHOtoWcdma must be is The parameter pwsWithEmAreaId false (0) configured mandatory if actHOtoWcdma is set to 'true', it isif at least one of the 80ms (3) required meaningless otherwise. parameters actETWS 2 (2) If actSrvccToWcdma is set to 'true' actCMAS is set to 'true'. Refer eNode-B commi Templateor prohibitPsHOtoWcdma must set to If pwsWithEmAreaId is set to be 'true', 'false'. 0 (false) emAreaId is false (0) 1 mandatory required. 31 - 31 - 101 2 1 ENABLED (1) GBR (0) RLC_UM (1) 101 100ms (1) 5 80ms (3) - 2 (2) Refer eNode-B commi Template 0 (false) 16 35 2 (2) 144 - 144 - 102 4 2 ENABLE (1) GBR (0) RLC_UM (1) 102 100ms (1) 7 80ms (3) - 2 (2) Refer eNode-B commi Template 0 (false) 16 - 35 - 2 (2) 128 - 64 - 103 3 3 ENABLE (1) GBR (0) RLC_UM (1) 103 100ms (1) 6 300ms (13) - 2 (2) Refer eNode-B commi Template 0 (false) 16 - 35 - 2 (2) 320 - 32 - 2 5 4 ENABLE (1) GBR (0) RLC_AM (0) 2 300ms (3) 8 3 (3) Refer eNode-B commi Template 0 (false) 3 (3) 1 1 5 if schedulType is set to 'NON-GBR', lcgid must be equal or greater than '2'; otherwise must be '0' ENABLE (1) nonGBR (1) RLC_AM (0) 1 100ms (1) 11 if schedulType is set to 'NON-GBR', schedulPrio must be equal or greaterer than '9' if actConvVoice is set to 'false', NON-GBR (1) schedul5 Type must be set to 'NON-GBR' if schedulType is set to 'NONGBR', 3 (3) schedulPrio must be equal or Refer eNode-B commi Template greater than '9' 0 (false) 3 (3) 2 6 6 ENABLE (1) nonGBR (1) RLC_AM (0) 2 300ms (3) 11 5 3 (3) Refer eNode-B commi Template 0 (false) 3 (3) 1 7 7 ENABLE (1) nonGBR (1) RLC_AM (0) 2 100ms (1) 11 5 4 (4) Refer eNode-B commi Template 0 (false) 3 (3) 2 8 8 ENABLE (1) nonGBR (1) RLC_AM (0) 2 300ms (3) 11 5 3 (3) Refer eNode-B commi Template 0 (false) 3 (3) 2 9 9 ENABLE (1) nonGBR (1) RLC_AM (0) 2 300ms (3) 11 5 If actNonGbrServiceDiff is set to 'false', qciSupp need to be set to 'ENABLED' No Default No Default No Default 0 (false) No Default No Default No Default ENABLE (1) nonGBR (1) RLC_AM (0) No Default No Default No Default No Default 0 - infinity (7) 1 120ms (23) 50ms (10) 50ms (10) 101 5bit (0) 5bit (0) 50ms (10) 102 5bit (0) 5bit (0) 50ms (10) 103 - 10bit (1) - 10bit (1) - 50ms (10) - 104 - 10bit (1) - 5bit (0) - 50ms (10) - 64 (4) 2 120ms (23) 50ms (10) 50ms (10) 64 (4) 3 120ms (23) 50ms (10) 50ms (10) 64 (4) 4 120ms (23) 50ms (10) 50ms (10) 64 (4) 5 120ms (23) 50ms (10) 50ms (10) 900 s 2s (2) nonGBRBufferBased (0) 128 (6) conservative (0) 6 The value of shutdownWindow divided 60 The value of shutdownWindow divided No Default No Default 150 minute 150 minute 5s 1000 ms - 500 ms 500 ms 10 ms 10 ms 100 ms 0 (false) keepCellInService (0) - Related features Change Control LTE494 Commercial Mobile Alert System LTE562 CSFB to UTRAN or GSM via redirect (standard) Draft Version A LTE433 Basic LTE Cell Trace (optional) Draft Version A LTE37-c Ciphering (optional), LTE38-b Integrity protection (optional) Draft Version A LTE1089 Downlink carrier aggregation - 2 CC (optional) Draft Version A LTE10 EPS bearers for conversational voice (standard) Draft Version A LTE1047 Control plane overload handling (standard) Draft Version A LTE736 CS fallback to UTRAN Draft Version A LTE1089 Downlink carrier aggregation - 2 CC (optional) LTE1542 FDD Supercell (standard) LTE614 Distributed Site (standard) Draft Version A - Draft Version A LTE471 LTE Dual carrier operation within one RF band (standard) Draft Version A - Draft Version A - Draft Version A LTE22 Emergency call handling (standard) Draft Version A LTE496 Support of QCI 2, 3 and 4 LTE497 admission LTE106 Smart 6 cell support withcontrol one System LTE534 ARP basedLTE621 admission control for ERABs Module (standard), Multiradio LTE984 GSM redirect with system information System Module basic LTE configuration LTE56 Inter RAT handover to WCDMA (optional), LTE1073 Measurement based (standard) redirect UTRAN (optional), LTE736BCS fallback to UTRAN (standard), LTE872 LTE1442toOpen access home eNode mobility (standard) SRVCC to WCDMA (standard) LTE1327 RL50 FSMr3 Capacity and Dimensioning (standard) Draft Version A LTE572 IMS emergency sessions (standard) Draft Version A LTE487 Idle mode mobility load balancing (standard) Draft Version A LTE55 Inter-frequency handover (optional), LTE1387 Intra eNB Inter-frequency LTE870 Idle mode mobility from LTE to CDMA/eHRPD (standard) load balancing (optional) LTE807 Idle mode mobility from LTE to CDMA/1xRTT (optional) Draft Version A - Draft Version A - Draft Version A LTE54 Intra-LTE handover via S1 (standard) Draft Version A LTE68 Support of cell based location service (optional) Draft Version A LTE570 Periodic UE measurements Draft Version A LTE7 Support of multiple EPS bearer (standard) Draft Version A - Draft Version A LTE9 Service differentiation (standard), LTE519 Modifcation without GBR LTE518 E-RAB Operator specific QCI (standard) modification (optional) LTE1043 3GPP baseline R10 06/2011 (standard) Draft Version A LTE11 Robust header compression (standard) Draft Version A LTE498 RAN Information Management for GSM (optional) Draft Version A LTE761 Advanced target cell selection and handover retry for intra frequency handover (optional), RRC connection release with redirect (standard) LTE977 RF chaining LTE423 with FSME (standard) Draft Version A LTE2-a Support of S1 Flex, basic functionality (optional) Draft Version A LTE440 S1 Overload handling Draft Version A LTE490 SPID selective mobility profiles (standard) Draft Version A LTE873 SRVCC to GSM Draft Version A LTE872 SRVCC to WCDMA Draft Version A LTE163 Subscriber and Equipment Trace (optional) Draft Version A LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (standard) Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) Draft Version A LTE1139 ZUC security algorithm (optional) Draft Version A LTE442 Network Assisted Cell Change to GSM (optional) Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A LTE492 ANR for LTE (3GPP) with OAM extension (optional) Draft Version A LTE1383 ANR Robustness (standard) Draft Version A Draft Version A n mncLength: if mncLength=2 then range is 00...99, if mncLength=3 then range 000...999 Draft Version A determines whether the mnc is of 2 digits or 3 digits length. LTE502 Cell Outage triggered reset (standard) Draft Version A LTE1089 Downlink carrier aggregation - 2 CC (optional) Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A LTE496 Support of QCI 2, 3 and 4 Draft Version A LTE496 Support of QCI 2, 3 and 4 Draft Version A LTE496 Support of QCI 2, 3 and 4 Draft Version A LTE830 LTE Automatic Lock (standard) Draft Version C LTE914 Graceful cell shut down (optional), LTE830 LTE Automatic Lock (standard), LTE1106 Flexi low power RRH 850 2TX for optical repeater interface (standard) LTE3-c Support of S1 setup message (optional) Draft Version A - Draft Version A Draft Version A Draft Version A Draft Version A n mncLength: if mncLength=2 then range is 00...99, if mncLength=3 then range 000...999 Draft Version A determines whether the mnc is of 2 digits or 3 digits length. - Draft Version A - ds on the mncLength: if mncLength=2, then range is 00..99, if mncLength=3, then range is 000..999 Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A LTE37-c Ciphering (optional), LTE38-b Integrity protection (optional) Draft Version A LTE145 LTE Configuration Management (optional) Draft Version A LTE534 ARP based admission control for E-RABs Draft Version A LTE3 S1 common signalling (optional) Draft Version A LTE908 ANR Inter-RAT UTRAN - Fully UE Based (optional) Draft Version A LTE3 S1 common signalling (optional) Draft Version A LTE3 S1 common signalling (optional) Draft Version A LTE486 PLMN ID selected mobility profiles (standard) Draft Version A LTE498 RAN Information Management for GSM (optional) Draft Version A LTE37-c Ciphering (optional), LTE38-b Integrity protection (optional) Draft Version A LTE145 LTE Configuration Management (optional) Draft Version A Draft Version A Draft Version A LTE9 Service differentiation (standard) Draft Version A Draft Version A er: enbId, mcc, mnc or mncLength in one pciIpAdrMap is configured, all the other must be configured. er: enbId, mcc, mnc or mncLength in one pciIpAdrMap is configured, all the other must be configured. er: enbId, mcc, mnc or mncLength in one pciIpAdrMap is configured, all the other must be configured. enbId, mcc,if mnc or mncLength one is pciIpAdrMap is configured,then all the other must be configured. ner:mncLength: mncLength=2 then in range 00...99, if mncLength=3 range 000...999 determines whether the mnc is of 2 digits or 3 digits length. Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A - Draft Version A - Draft Version A - Draft Version A - Draft Version A - Draft Version A - Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A LTE54 Intra-LTE handover via S1 (standard) Draft Version A LTE1170 Inter-frequency load balancing (optional) Draft Version A - Draft Version A LTE494 Commercial Mobile Alert System Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A - Draft Version A - Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A - Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A - Draft Version A - Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A - Draft Version A Draft Version A Draft Version A Draft Version A - Draft Version A - Draft Version A Draft Version A - Draft Version A - Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A - Draft Version A Draft Version A Draft Version A Draft Version A - Draft Version A - Draft Version A Draft Version A - Draft Version A - Draft Version A NON-GBR', schedulPrio must be equal or greaterer than '9' Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A s set to 'false', qciSupp need to be set to 'ENABLED' Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A LTE435 SW support for RF sharing WCDMA-LTE (optional) Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A - Draft Version A - Draft Version A - Draft Version A - Draft Version A - Draft Version A - Draft Version A - Draft Version A - Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A LTE4 Multi-Operator Core Network (standard) Draft Version A LTE1089 Downlink carrier aggregation - 2 CC (optional) Draft Version A LTE1089 Downlink carrier aggregation - 2 CC (optional) Draft Version A LTE1089 Downlink carrier aggregation - 2 CC (optional) Draft Version A LTE1089 Downlink carrier aggregation - 2 CC (optional) Draft Version A LTE914 Graceful cell shut down (optional) Draft Version A LTE914 Graceful cell shut down (optional) Draft Version A Draft Version A Draft Version A LTE498 RAN Information Management for GSM (optional) Draft Version A LTE498 RAN Information Management for GSM (optional) Draft Version A LTE498 RAN Information Management for GSM (optional) Draft Version A - Draft Version A LTE54 Intra-LTE handover via S1 (standard) Draft Version A LTE56 Inter RAT handover to WCDMA (optional) Draft Version A LTE7 Support of multiple EPS bearer (standard) Draft Version A LTE7 Support of multiple EPS bearer (standard) Draft Version A LTE534 ARP based admission control for ERABs Draft Version A LTE907 TTI bundling (optional) Draft Version A LTE441 Transmission path failure handling (standard) LTE568 DL adaptive closed loop MIMO (4x2) (optional) Draft Version A Abbreviated Name a1TimeToTriggerDeactInterMeas a2TimeToTriggerActGERANMeas a2TimeToTriggerActInterFreqMeas a2TimeToTriggerActWcdmaMeas a2TimeToTriggerRedirect a3Offset a3ReportInterval a3TimeToTrigger a5ReportInterval a5TimeToTrigger acBarCsfbOc - acBarAC acBarCsfbOc - acBarTime acBarCsfbOc - probFac acBarMMTelVideoOc - acBarAC acBarMMTelVideoOc - acBarTime acBarMMTelVideoOc - probFac acBarMMTelVoiceOc - acBarAC acBarMMTelVoiceOc - acBarTime acBarMMTelVoiceOc - probFac acBarOc - ocAcBarAC acBarOc - ocAcBarTime acBarOc - ocAcProbFac acBarSig - sigAcBarAC acBarSig - sigAcBarTime acBarSig - sigAcProbFac actDlsOldtc actDlsVoicePacketAgg actDrx actFastMimoSwitch actLdPdcch actModulationSchemeUL actOlLaPdcch actOtdoa actPrsTxDiv actRepeaterMode actSmartDrx actSuperCell actTtiBundling actUlLnkAdp addAUeRrHo addAUeTcHo addEmergencySessions addGbrTrafficRrHo addGbrTrafficTcHo addNumDrbRadioReasHo addNumDrbTimeCriticalHo addNumQci1DrbRadioReasHo addNumQci1DrbTimeCriticalHo addSpectrEmi administrativeState anrUtraRscpThres applyOutOfSyncState blacklistHoL - blacklistTopo blacklistHoL - freqEutra blacklistHoL - phyCellIdRange blacklistHoL - phyCellIdStart blankedPucch celResTiF - celResTiFHM celResTiF - celResTiFMM cellBarred cellCapClass cellIndOffServ cellName cellReSelPrio cellResetRequest cellSelectionInfoV920 - qQualMinOffsetR9 cellSelectionInfoV920 - qQualMinR9 cellSrPeriod cellType cqiAperEnable cqiAperMode cqiPerNp cqiPerSbCycK cqiPerSimulAck dFListPucch - dFpucchF1 dFListPucch - dFpucchF1b dFListPucch - dFpucchF2 dFListPucch - dFpucchF2a dFListPucch - dFpucchF2b dSrTransMax defPagCyc deltaMargin deltaPreMsg3 deltaPucchShift deltaTfEnabled dl64QamEnable dlCellPwrRed dlChBw dlInterferenceEnable dlInterferenceLevel dlInterferenceModulation dlMimoMode dlOlqcEnable dlPathlossChg dlPcfichBoost dlPhichBoost dlRsBoost dlTargetBler dlamcCqiDef dlamcEnable dlpcMimoComp dlsDciCch dlsFdAlg dlsOldtcTarget dlsUsePartPrb drxApplyDeviceType drxProfile1 - drxProfileIndex drxProfile1 - drxProfilePriority drxProfile101 - drxInactivityT drxProfile101 - drxLongCycle drxProfile101 - drxOnDuratT drxProfile101 - drxProfileIndex drxProfile101 - drxProfilePriority drxProfile101 - drxRetransT drxProfile102 - drxInactivityT drxProfile102 - drxLongCycle drxProfile102 - drxOnDuratT drxProfile102 - drxProfileIndex drxProfile102 - drxProfilePriority drxProfile102 - drxRetransT drxProfile2 - drxInactivityT drxProfile2 - drxLongCycle drxProfile2 - drxOnDuratT drxProfile2 - drxProfileIndex drxProfile2 - drxProfilePriority drxProfile2 - drxRetransT drxProfile3 - drxInactivityT drxProfile3 - drxLongCycle drxProfile3 - drxOnDuratT drxProfile3 - drxProfileIndex drxProfile3 - drxProfilePriority drxProfile3 - drxRetransT drxProfile4 - drxInactivityT drxProfile4 - drxLongCycle drxProfile4 - drxOnDuratT drxProfile4 - drxProfileIndex drxProfile4 - drxProfilePriority drxProfile4 - drxRetransT drxProfile5 - drxInactivityT drxProfile5 - drxLongCycle drxProfile5 - drxOnDuratT drxProfile5 - drxProfileIndex drxProfile5 - drxProfilePriority drxProfile5 - drxRetransT drxSmartProfile2 - drxInactivityT drxSmartProfile2 - drxLongCycle drxSmartProfile2 - drxOnDuratT drxSmartProfile2 - drxProfileIndex drxSmartProfile2 - drxProfilePriority drxSmartProfile2 - drxRetransT drxSmartProfile2 - drxShortCycle drxSmartProfile2 - drxShortCycleT drxSmartProfile2 - smartStInactFactor drxSmartProfile3 - drxInactivityT drxSmartProfile3 - drxLongCycle drxSmartProfile3 - drxOnDuratT drxSmartProfile3 - drxProfileIndex drxSmartProfile3 - drxProfilePriority drxSmartProfile3 - drxRetransT drxSmartProfile3 - drxShortCycle drxSmartProfile3 - drxShortCycleT drxSmartProfile3 - smartStInactFactor drxSmartProfile4 - drxInactivityT drxSmartProfile4 - drxLongCycle drxSmartProfile4 - drxOnDuratT drxSmartProfile4 - drxProfileIndex drxSmartProfile4 - drxProfilePriority drxSmartProfile4 - drxRetransT drxSmartProfile4 - drxShortCycle drxSmartProfile4 - drxShortCycleT drxSmartProfile4 - smartStInactFactor drxSmartProfile5 - drxInactivityT drxSmartProfile5 - drxLongCycle drxSmartProfile5 - drxOnDuratT drxSmartProfile5 - drxProfileIndex drxSmartProfile5 - drxProfilePriority drxSmartProfile5 - drxRetransT drxSmartProfile5 - drxShortCycle drxSmartProfile5 - drxShortCycleT drxSmartProfile5 - smartStInactFactor eCallAcBarred eUlLaAtbPeriod eUlLaBlerAveWin eUlLaDeltaMcs eUlLaLowMcsThr eUlLaLowPrbThr eUlLaPrbIncDecFactor earfcnDL earfcnUL emAreaId enableAmcPdcch enableBetterCellHo enableCovHo enableDl16Qam enableLowAgg enablePcPdcch eutraCelId filterCenterTx filterCoeff filterCoefficientCSFBCpichEcn0 filterCoefficientCSFBCpichRscp filterCoefficientCpichEcn0 filterCoefficientCpichRscp filterCoefficientRSRP filterCoefficientRSRQ filterCoefficientRSSI furtherPlmnIdL - cellReserve furtherPlmnIdL - mcc furtherPlmnIdL - mnc furtherPlmnIdL - mncLength gbrCongHandling grpAssigPUSCH harqMaxMsg3 harqMaxTrDl harqMaxTrUl harqMaxTrUlTtiBundling hopModePusch hsScenario hysA3Offset hysThreshold2GERAN hysThreshold2InterFreq hysThreshold2Wcdma hysThreshold2a hysThreshold3 hysThreshold4 iFLBLoadThresholds - iFLBBearCheckTimer iFLBLoadThresholds - iFLBHighLoadGBRDL iFLBLoadThresholds - iFLBHighLoadNonGBRDL iFLBLoadThresholds - iFLBHighLoadPdcch iFLBLoadThresholds - iFLBNomNumPrb iFLBLoadThresholds - iFLBTargetLoadGBRDL iFLBLoadThresholds - iFLBTargetLoadNonGBRDL iFLBLoadThresholds - iFLBTargetLoadPdcch idleLBCellReSelPrio idleLBPercentageOfUes ilReacTimerUl inactivityTimer iniMcsDl iniMcsUl iniPrbsUl intrFrqCelRes intraPresAntP lcrId lnCelId loadBalancingProfile lowerMarginCIO maxBitrateDl maxBitrateUl maxCrPgDl maxCrRa4Dl maxCrRaDl maxCrSibDl maxGbrTrafficLimit maxNrSymPdcch maxNumActDrb maxNumActUE maxNumCaConfUeDc maxNumQci1Drb maxNumRrc maxNumRrcEmergency maxNumUeDl maxNumUeUl mbrSelector measQuantityCSFBUtra measQuantityUtra mimoClCqiThD mimoClCqiThU mimoClRiThD mimoClRiThU mimoOlCqiThD mimoOlCqiThU mimoOlRiThD mimoOlRiThU minBitrateDl minBitrateUl moPrMappingList - moPrId moPrMappingList - spid moPrMappingList - spidLast mobStateParamNCelChgHgh mobStateParamNCelChgMed mobStateParamTEval mobStateParamTHystNorm modPeriodCoeff n1PucchAn n310 n311 nCqiRb offsetFreqIntra operationalState p0NomPucch p0NomPusch pMax pMaxIntraF pMaxOwnCell pagingNb pdcchAggDefUe pdcchAggMsg4 pdcchAggPaging pdcchAggPreamb pdcchAggRaresp pdcchAggSib pdcchAlpha pdcchCqiShift pdcchHarqTargetBler pdcchUlDlBal periodicCqiFeedbackType periodicUeMeas - activateMeas periodicUeMeas - measurementType periodicUeMeas - reportAmount periodicUeMeas - reportInterval phichDur phichRes phyCellId prachCS prachConfIndex prachFreqOffset prachHsFlag prachPwrRamp preambTxMax primPlmnCellres prsBandwidth prsConfigurationIndex prsMuting - prsMutingInfo prsMuting - prsMutingInfoPatternLen prsNumDlFrames prsPowerBoost pucchNAnCs puschAckOffI puschCqiOffI puschRiOffI qHyst qQualMinR9 qRxLevMinOffset qrxlevmin qrxlevminintraF raContResoT raLargeMcsUl raMsgPoffGrB raNondedPreamb raPreGrASize raRespWinSize raSmallMcsUl raSmallVolUl rcAmbrMgnDl rcAmbrMgnUl rcEnableDl rcEnableUl redBwEnDl redBwMaxRbDl redBwMaxRbUl redBwMinRbUl redBwRpaEnUl riEnable riPerM riPerOffset rootSeqIndex rsrqRedirectParams - a2TimeToTriggerRedirectRsrq rsrqRedirectParams - hysThreshold4Rsrq rsrqRedirectParams - threshold4Rsrq sIntraSearchV920 - sIntraSearchPR9 sIntraSearchV920 - sIntraSearchQR9 sIntrasearch sNonIntraSearchV920 - sNonIntraSearchPR9 sNonIntraSearchV920 - sNonIntraSearchQR9 sNonIntrsearch siWindowLen sib2Scheduling - siMessagePeriodicity sib2Scheduling - siMessageRepetition sib2Scheduling - siMessageSibType sib3Scheduling - siMessagePeriodicity sib3Scheduling - siMessageRepetition sib3Scheduling - siMessageSibType sibSchedulingList - siMessagePeriodicity sibSchedulingList - siMessageRepetition sibSchedulingList - siMessageSibType spStResPars - nCellChgHigh spStResPars - nCellChgMed spStResPars - qHystSfHigh spStResPars - qHystSfMed spStResPars - tEvaluation spStResPars - tHystNormal srbSchedWeightDl srbSchedWeightUl srsConfiguration srsPwrOffset stInactFactor syncSigTxMode t300 t301 t302 t304InterRAT t304InterRATGsm t304IntraLte t304eNaccGsm t310 t311 t320 tExtendedWait tPeriodicBsr tPeriodicPhr tProhibitPhr tReTxBsrTime tReselEutr tStoreUeCntxt taMaxOffset taTimer taTimerMargin tac threshServingLowQR9 threshSrvLow threshold1 threshold2GERAN threshold2InterFreq threshold2Wcdma threshold2a threshold3 threshold3a threshold4 timeToTriggerSfHigh timeToTriggerSfMedium ttiBundlingBlerTarget ttiBundlingBlerThreshold ttiBundlingSinrThreshold ulChBw ulCombinationMode ulRsCs ulTargetBler ulamcAllTbEn ulamcSwitchPer ulatbEventPer ulpcAlpha ulpcEnable ulpcIniPrePwr ulpcLowlevCch ulpcLowlevSch ulpcLowqualCch ulpcLowqualSch ulpcPucchEn ulpcPuschEn ulpcRarespTpc ulpcReadPeriod ulpcSrsEn ulpcUplevCch ulpcUplevSch ulpcUpqualCch ulpcUpqualSch ulsFdPrbAssignAlg ulsMaxPacketAgg ulsMinRbPerUe ulsMinTbs ulsSchedMethod upperMarginCIO useId Full Name Time to trigger for A1 to deactivate inter measurement Time to trigger for A2 to activate GERAN measurement Time to trigger for A2 to activate inter measurement Time to trigger for A2 to activate WCDMA measurement Time to trigger for A2 to start redirect procedure A3 offset A3 report interval A3 time to trigger A5 report interval A5 time to trigger Access class barring list Access class barring time Access probability factor Access class barring list Access class barring time Access probability factor Access class barring list Access class barring time Access probability factor Access class barring list for mobile originating calls Access class barring time for originating calls Access probability factor for originating calls Access class barring list mobile orig signaling Access class barring time for signaling Access probability factor for signaling Activate DL OLDTC Activate DL voice packet aggregation Activate DRX Activate fast adaptive MIMO switch Activate load adaptive PDCCH Activate modulation scheme UL Activate outer loop link adaptation PRS activation PRS Tx diversity activation Repeater mode activation Activate smart DRX Activate supercell configuration Activate TTI bundling Activate uplink link adaptation Additional active UE with reason radio reason handover Additional active UE with reason time critical handover Add emergency sessions Add GBR-DRB traffic for radio reason handover Add GBR-DRB traffic for time critical reason handover Add number drb radioReasHo Add number drb timeCriticalHo Add number QCI1 DRB for radioReasHo Description Time to trigger deactivation of all measurements Duration for which the event A1 must measurements be valid, such Time to trigger activation of GERAN that Inter-Frequency/Inter-RAT measurements are Duration for which the event A2 must Duration for which the event A2 must be be valid, valid, such such deactivated that GSM measurements are activated that measurements are Timeadditional to trigger InterFrequency activation of WCDMA activated measuremenrts Duration for which the event A2 must be valid, such Duration for which the event A2 must be valid, such that redirect is raised Handover margin for better cell Used in that WCDMA measurements areHO. activated measurement type A3interval where with the event This parameterevent defines the whichis triggered when the neighbor cell becomes better measurement are repeatedly sent as long as Time for serving whichreports the criteria the than the cellspecific bythe themeasurement value offor the A3 offset. the specific criteria for event measurement event A3 must be met in order toA3 Defines the interval with which measurement are met. Value definitions as stated in 3GPP trigger aare measurement report. definitions as reports repeatedly sent as Value longfor as the specific TS36.331: value MS120 corresponds to 120 ms, Time for which the specific criteria the stated in 3GPP TS36.331: value MS0 corresponds criteria for the measurement event A5 are met. MS240 toMS40 240 event ms and so on,so while value MIN1 measurement A5 must be met in order to to 0 ms, toas 40 ms and on. Access classto barring list (5 in bit) originating calls. Value definitions stated TS36.331: value corresponds 1 min, MIN6 to3GPP 6formin and so on. trigger a measurement report. Value definitions as Access class barringclass list120 (5 bit) originating MS120 corresponds to ms,for MS240 to 240calls ms Defines the access barring time. stated in 3GPP TS36.331: value MS0 corresponds for AC 11-15 (leftmost bit is for AC 11, the and so on, while MIN1 corresponds to 1 min, The access class barring time defines the second time thatbit to 0 ms, MS40 tovalue 40 ms and so on. Defines probability for asoUE to establish an RRC in the listthe for AC 12, and on...). MIN6 to 6ismin and so on. the access barring check remains unsuccessful connection. The default no access class barred. Access barring list (5 bit) an for emergency originating calls. while theclass UEis is not performing call. In The access probability factor defines the probability Access class barring list (5 bit) for originating this case, the UE starts timer T303 using this calls Defines the access class barring time. for a UE to establish an RRC connection. for AC 11-15Timer (leftmost bitinis for defines AC 11, the bit parameter. value minutes. The access class barring time the second time that The UE draws a random = rand <an 1).RRC If Defines the probability fornumber asoUE to(0establish in the list is for AC 12, and on...). the access barring check remains unsuccessful rand is higher than the value indicated by the connection. The default no access class barred. Access class barring list (5 bit) forconsiders originating while the UEis is not performing an emergency call. In access probability factor, the UE thecalls. The access probability factor defines the probability Access class barring list (5 bit) fortime. originating calls this case, the UE starts timer T303 using this access barring check to be unsuccessful. Defines the access class barring for a UE to establish anbitRRC for AC 11-15 (leftmost forconnection. AC 11, the bit parameter. Timer value inis minutes. The access class barring time defines the second time that UE draws a random = rand <an 1).RRC If Defines the probability fornumber asoUE to(0establish in the list is for AC 12, and on...). the access barring check remains unsuccessful rand is higher than the value indicated by the connection. The default no access class barred. Access class barring list (5 bit) forconsiders originating while the UEis is not performing an emergency call. In access probability factor, the UE thecalls The access probability factor defines the probability for AC 11-15 (leftmost bit is for AC 11, the second this case, the UE starts timer T303 using this access barring check to RRC be unsuccessful. The access class barring time defines the time thatbit for a UE to establish an connection. in the list is Timer for ACvalue 12, and so on...). parameter. innumber minutes. the access barring check remains The UE draws a random (0unsuccessful =the rand < 1). If The access probability factor defines probability The default is no access class barred. while the UE is not performing an emergency rand is higher than the value indicated by the call. In for a UE to establish an RRC connection. Access class listtimer (5 bit) forconsiders signaling for AC this case, the barring UE starts T303 using this access probability factor, the UE the The UE draws abitrandom number = rand < 1). If 11-15 (leftmost is for AC 11,defines the(0second bit inthat the parameter. Timer value in minutes. access barring check to be unsuccessful. The access class barring time the time rand is higher than the value indicated by the list is for ACbarring 12, andcheck so on...). the remains unsuccessful access probability factor, the UE considers the Theaccess access probability factor defines the probability The default is no access class barred. while the UE is not performing an emergency call. In access barring checkan to RRC be unsuccessful. for a UE to establish connection. Switch to activate/deactivate Outer Loop Delay this case, the UE starts timer T303 using this The UEControl draws a random number (0 = rand < 1). If Target (OLDTC) for voice in downlink time parameter. Timer value in minutes. Switch to activate/deactivate voice packet rand is higher than the value indicated by the domain scheduling. aggregation downlink access factor, the an UEactual considers Parameter toinactivate or scheduler. deactivate thescheduling DRXthe feature OLDTCprobability algorithm measures access barring check to be and unsuccessful. in a cell. delay of voice bearer in DL compares it to a Enables "Fast Adaptive MIMO Switching" for Closed targeted delay. Then, if theon measured delay issent more Loop MIMO modes based PMI/RI reports Activate or deactivate the load adaptive and number ofby than the target, UE priority is set increased in case UEs if actFastMimoSwitch is to TRUE. PDCCH symbols in aiscell the measured delay below the differnt target, the This parameter switch on/off the Ul priority Enables "Dynamic MIMO Switching" if for The actual OFDM symbol amount used PDCCH is decreased. modulation schemes. actFastMimoSwitch is set to FALSE. Activate / Deactivate Outer loop Link Adaptation for in a TTI is selected from values between the When set to "16QAMHighMCS" MCS21-MCS24 actFastMimoSwitch isamount set to TRUE: Activation of are PDCCH minimum reasonable of symbols for the Activates the the transmission of PRS signals according enabled and UL AMC proposes to the "Fast Adaptive Switching" O&M switch forMIMO activating anUL selected DL bandwidth and/ deactivating maximum allowed to the PRS configuration scheduler to use the higher 16-QAM MCS, if radio "Fast adaptive MIMO Switching" supports fast rank If Tx Diversity is enabled forAdaptation PRS transmission, additional Loop Link for PDCCH. number of Outer PDCCH symbols (maxNrSymPdcch). conditions allow. selection and fast codebook based precoding of then precoding vector switching will be used and This additional PDCCH Outer Loop Link Adaptation Defines modefor ofthe thefeature the radio module or aRIU unit. Precondition is that UE is Cat.1 data transmission using closed loop feedback of hence allthe configured Tx will be used forto controls PDCCH linkantennas adaptation CQI shift such actRepeaterMode parameter value 'Coupled' Cat.4 device. Parameter to activate/deactivate the Smart DRX precoding matrix indicator (PMI) in combination the transmission of the PRS signal. If Tx diversity that the PDCCH and HARQ Response Target BLER needs toinbe used for coupled mode real cells64-QAM (R typewith Cat.5 devices, which would support feature athen cell. rank indicator (RI). PMI and RI reporting delays is disabled the PRS signal will just be is achieved when the OLQC Target BLER is Activates the transmission of duplicated data configuration), 'Dedicated' for dedicated modulation, willvalue be as well provided withand codecs up shall be minimized byRRHs periodic and aperiodic reports transmitted achieved. streams via different in downlink, the mode cells (cell have resources only from RIU unit) Parameter to activate or deactivate the TTI Bundling to MCS24 (when the appropiated configuration of sent by UEs in order to optimize PMI closed loop on avalue single'none' antenna (the physical antenna combination of uplink signals received from different and for all other cells (cell's have not feature a cell. this parameter isLink given); however the assumption gains inincombination with optimized rank selection. corresponding Activates Uplink Adaptation and defines Link is RRHs. resources from RIU unit). that Cat.5 UEs acts as Cat.1 to Cat.4 devices andin to antenna port {0}). Adaptation mode The super cell configurations can just be applied Possible modes are 'none', 'Dedicated' and Defines the additional number ofbecause active UEs, which utilize16-QAMmodulation in UL. of the actFastMimoSwitch is set to FALSE: Activation of When set to "off" no Uplink link Adaptation function 10 MHz cell to bandwidth configurations, thatwith is HO 'Coupled'. are allowed access a cell viaofhandover setting to 'false' enable64qamPusch" parameter Defines the additional number active UEs,are which "Dynamic MIMO Switching" is active at all. LNCEL "dlChBw" and "ulChBw" parameters The 'Coupled' is supported only with Configuration cause: "HO desirable for radio reasons", when RRC (broadcasted in SIB2). are allowed to access a cell via handover with HO "Dynamic MIMO Switching" supports RIUolink and CQI When set to "eUlLa" new extended Link configured to 10 MHz. Additional margin for the Emergency Sessions; Type R. connection (maxNumRrc) or active UERRC cause: "Time critical handover", when based rank selection after filtering of CQI and RI Adaptation function is the activated. Super cellismargin configurations are not released in or UEs, this margin increases thresholds for active The RIU able tolimit work either in 'Dedicated' (maxNumActUE) already reached. Additional on the threshold MCS (MCS21-MCS24) for UL AMC may be used connection (maxNumRrc) or active UE reports sent by the UE. "Dynamic MIMO Switching" The other choices allow to configure the old UL Link conjunction with RF sharing and Repeater Interface active DRBs with a factor and active QCI1-DRBs in 'Coupled' mode also in case a RF unit is chained via "maxGbrTrafficLimit" in case of handover only when this parameter is set to (maxNumActUE) limit already reached. is using RI and CQI thresholds for rank selection by Adaptation functions as it was up to RL20 so by Additional margin on the threshold Units. the cell it. for radio reasons. "16QAMHighMCS". comparison with old filtered values. The threshold "slowAMC" only SlowAMC activated, by "maxGbrTrafficLimit " the inhave case Emergency traffic shall aofis high preference Additional margin for maximum number of active The amount of radio resources With the coonfiguration "16QAM" only the codec up parameters "mimoClCqiThD", "mimoClCqiThU", "slowAmcOlla" the SlowAMC and EDG and FUG handover for time critical reasons. against normal traffic in the cell. DRBs in the cell accessing the cell via HO with HO(PRBs) is calculated in % of the available to MCS20 are enable. Additional margin for the maximum number of active "mimoClRiThD", "mimoClRiThU" are activated and are active, by "slowAmcATB" only old SlowAMC and The amount of radio resources The addEmergencySession value is usedThis to cause: desirable for radio reasons". PRBs depending onare the "QPSK" allows utilization only up to DRBs in"HO the cell accessing via HO HOused for rank switching. SlowATB functions active finally bywith (PRBs) isconfiguration calculated in %system. ofthe the available increase several thresholds; itand iscell worth noting Additional margin for the maximum number ofthat active margin is added to the threshold maxNumActDrb. For 5 MHz system 25 PRBs*, MCS10 cause: "Time Critical HO". This margin is added "slowAmcOllaATB" all the 3 old function are active PRBs depending on the system. the system limits are50never exceeded all overto GBRs in thetraffic cell accessing the cellpreference viafor hand Hand over shall have some for 10 MHz system PRBs*, the threshold maxNumActDrb. together as up to RL20 For 5 MHz system 25 PRBs*, resources. with HO-cause: "HO desirable for radio reasons". against newsystem upcoming trafficsome in thepreference cell. for 15 MHz 75 PRBs*, Hand over shall for 10margin MHztraffic system 50tohave PRBs*, This is added the threasold for 20 Mhz system 100 PRBs* are against new upcoming traffic in the cell. for MHz system 75 PRBs*, The maximum additional margin maxNumQci1Drb. The15 maximum additional margin depends depends on on the the available. for 20 Mhz system 100 PRBs* are bandwidth of the cell. The following values are Hand over traffic shall have some preference bandwidth of the cell. The following values are *available. reduced by common resources like The maximum additional margin depends on the allowed: against new upcoming trafficSIBs in the cell. allowed: PUCCH, PDCCH, etc. of common the cell. The following values are *bandwidth reducedRACCH, by resources like which canRACCH, consume some PRBs (e.g. allowed: PUCCH, PDCCH, SIBs depends etc. 3 on the 5 bandwidth 0 The maximum additional margin 5 MHz MHz bandwidth 0 .. .. 480 2400 Add number QCI1 DRB for timeCriticalHo Additional spectrum emission mask Administrative state ANR UTRA RSCP threshold Apply UL out-of-sync state Blacklisted topologies eUTRA carrier frequency Range of physical cell id range Start of physical cell id range Blanked PUCCH resources Cell reselection timer factor high mobility Cell reselection timer factor medium mobility Cell barred flag Cell capacity class value Cell individual offset of own serving cells PCI Cell name Cell reselection priority Cell reset requested Offset for minimum required RSRQ in cell (Rel9) Offset for minimum required RSRQ in cell (Rel9) Cell scheduling request periodicity Cell type Enable aperiodic CQI reporting on PUSCH Aperiodic CQI feedback reporting mode CQI periodicity network period Periodic subband CQI cycles K Enable simultaneous CQI and ACK/NACK DeltaF PUCCH format 1 DeltaF PUCCH format 1b DeltaF PUCCH format 2 DeltaF PUCCH format 2a DeltaF PUCCH format 2b Dedicated SR transmission maximum Default paging cycle Handover margin Delta preamble random access message 3 Delta cyclic shift for PUCCH Enabled TB size impact to UE PUSCH power calculation Enable 64QAM in downlink Cell power reduce Downlink channel bandwidth Enable downlink interference generation Interference level for generated downlink interference Modulation scheme for downlink interference Downlink MIMO mode Enable OLQC Downlink pathloss change Downlink PCFICH transmission power boost Downlink PHICH transmission power boost Additional margin for the maximum number of active GBRs in the cell accessing the cellmask via hand over The additional spectrum emission parameter with HO-cause: "Time Critical HO". This margin is is broadcast into a cell to indicate theisUE Administrative state of the cell, thethat value set by added to the an threshold maxNumQci1Drb. should meet additional requirement. the operator. Hand overthe traffic shall have some It defines minimum power levelpreference that a UE should against newaupcoming traffic incell the for cell. report from measured UTRA considering Determines which UEs shall be actively sent to UL the corresponding PCI, respectively PSC, as a out-of-sync state provided that bearer combination The maximum additional margin depends on the This parameter is introduced to allow possible UTRA neighbor cell candidate. (Mapping and appliedof DRX profile allows forother this. bandwidth the cell. The following values are blacklisting X2-Handover only between thefor UE measured RSCP the SFS This parameter must be configured for an interextendedDrxOnly: only UEs being and configured with allowed: HO variants are still allowed values is according to 3GPP TS 25.133/25.123) frequency cell. It will be taken as an extended settings for the long DRX cycle Indicates the number of PCIs in the range (including If set to "all" thecell respective entry intra-frequency if configured this parameter is set to PCI allDrx: all UEs being for DRX provided startPCI). If Parameter rangePCI isof only one, 5 MHz bandwidth 0 PCI .. 150 in blacklistHoL is valid for allthe kinds Indicates the lowest in range ownCarrierFreq that applied DRX profile allows (startPCI) is specified. 10 MHz bandwidth 200to "onlyX2", Handover Topology.0If..set allUEs: UEs of where DRX configuration Defines the pointer from the CQI15 MHzall bandwidth 0to..PRB 200 entry handover to theindependently respective in blacklistHoL provided that bearer combination allows. allocation starts to leave some PRBs free and 20 MHz 0timer .. as 200 shall onlybandwidth be excluded targets The cell reselection (t-ReselectionEUTRAN) is therefore avoid interference with neighbor bands. for X2-based handover but may still be multiplied by this factor if the UE is in the medium The cell reselection timer (t-ReselectionEUTRAN) When set to that 0 the Flexible UL Bandwidth feature for isis Please note default value is not suitable used as target forthe S1 based high mobility multiplied by state. this factor if thehandover. UE is cell in the medium deactivated. The cell barred flag indicates if the status all bandwidths. The recommended values are:is This parameter is only evaluated mobility state. barred oreNodeB not. A indicates barred iswhich a cell can that be a UE is not for target cell cells Thisinter parameter the value that The physical allocation policy on the RFclassifies of thecalls. PRBIf allowed to camp on, not even to forthe emergency 5 MHz bandwidth 15 used as target forwith X2-Handover as well the cell capacity regards other cells of defined by blankedPucch follows that typical of Cell Individual Offset (CIO) of own served cell for a cell on whichThe a UE currently Class camped becomes 10 MHz bandwidth 20is Capacity as for S1-Handover the eUTRAN. Cell Value only PUCCH PRB resources, which are symmetrically insertion into CIO Cell of EUTRA Serving barred, abandwidth cell the reselection isList triggered. 15 30 ThisMHz parameter allows the operator to give cell a indicates resources that are configured for a traffic distributed at the edges of the given system BW. Carrier Measurement Object 20 MHz bandwidth 40 unique name. purposes. The cell reselection priority parameter defines In other terms blankedPucch resources Only if CIO is different from zero, will theare eNB the absolute priority of the serving layer. 0 means distributed at the BW edges the very same waythe as consider it for Measurement Configuration. Reset request for Cell Dependencies: lowest priority. the resources defined by current nCqiRbtimestamp (of which they are Will be downloaded with to maxNumQci1Drb + Offset to the signaled qQualMinR9 taken into a subset) indicated reset request, new request will receive max( addNumQci1DrbRadioReasHo, account Squal evaluation aallresult of a Equal priorities between RATs are supported When setinrequired tothe values different from 0not theless PRBs Minimum quality level inas the cell. new timestamp and therfeore cause parameter addNumQci1DrbTimeCriticalHo) must be than periodic search for UEs a36.304]. higher priority PLMN while according to [3GPP from 0 up to "blankedPucch" value are not used by Not recognized by < Rel9. change. the margin values for the used bandwidth (see Define the admitted Scheduling Request periodicity camped normally in a VPLMN. the PUCCH allocation algorithm for allocating the Cell reset will be exceuted automatically, since values above (150,200)) in the cell, once allows theUEs scheduling request reproting Not recognized by < Rel9. This parameter the operator to specify the periodic CQI. parameter change requires cell lock/unlock. has been set tocell. enable size of an LTE In other words all those PRBs up to e.g. blankedPucch String is in human readable format, O&M switch for enabling / disabling aperiodic This parameter is part of feature LTE1140 CQI / It will be reporting considered if:PUSCH. the are skipped by theon periodic CQI allocation Cell reset requested YYYYMMDD hhnnssalgorithm. RI / PMI sr-ConfigIndex Corresponds to cqi-ReportingModeAperiodic of 'Intrafrequency where YYYYMMDD hhnnss is timestamp. Parameter . See 36.213indicator [23,10.1]. 3GPP-36.213. CQI format for for aperiodic load balancing' isTS activated deriving Example: blankedPucch = 6for would mean that CQISets the CQI Reporting Periodicity Np Operator define periodicity and system anone reporting on The can choose the corresponding coeffcient . define allocation willPUSCH. start CellBeta from theoperator seventh PRB, the PRB CQI reporting. allocation offset in time; these subband two lelements This is2the number of periodic reporting of the family modes available, the MIMO algorithm #6. For each the RRC algorithm calculates combined define the above mentioned sr-mode cycles (K).UE, Itinfor isRRM required only for configuring a embedded chooses the effective O&M switch enabling / disabling simultaneous All the PRB up to the PRB#6 excluded (three at and adds to this parameter a ConfigIndex periodic wideband + subband reporting. It indicates based on the UE capabilities and the family mode transmission of accordingly periodic CQI RI on / PMI feedback each BWNOffset,CQI, edge to/ PUCCH physical specific depending the The parameter defines the transport format the number of periodic subband reporting cycles chosen by the operator and forwards this to UE; and HARQ ACK/NACK on PUCCH. allocation policy) are left free, to avoid interferences UE offsettwo allocation within the chosen dependent offset in power control for PUCCH format between consecutive wideband FTB1 selects the reporting mode 2.x, FTB2 selects The parameter defines theperiodic transport format with neighbor bands supported by other radio periodicity determining the iCQI/PMI 1. reporting instances. the reporting 3.x; x UE. iscontrol determined by theformat dependent in power forformat PUCCH technologies. index valueoffset tomode be sent tothe The parameter defines transport MIMO algorithm internal in control eNB. for PUCCH format 1b. EXAMPLE: dependent offset in power The parameter defines transport format Thedefault configuration thethe blanked PRBs region in one by value ofinof20ms only 2. dependent offset power control for PUCCH format The parameter defines the operators network shallamong be transport the 17 same for iCQI/PMI index values andformat 36all the cells 2a. dependent offset in power control for PUCCH having same E-UTRA Operating Band, same format will be by CQI/PMI allocation This is allocated the maximum number of the allowed 2b. channel bandwidth and same center carrier algorithm. dedicated Requests. Once this limit is The defaultScheduling paging cycle defines the cell-specific frequency (that is same Transmission bandwidthThe exceeded, UE releases all PUCCH resources. paging DRX cycle duration. It also determines configuration according to4 3GPP-36.104). This parameter defines the minimum signal the value 4n corresponds transmissions, maximum paging DRXtoduration applicable8n in the difference corresponds to 8 transmissions and so on. Used forofthe calculation of cell. In case contemporary activation of the LTE46: between the target and the source cell P0_NOMINAL_PUSCH(j=2) for PUSCH Referred to as 'T ' inshift TS 36.304. Value rf32 Channel-aware Scheduler (UL) feature one This is a for delta cyclic for PUCCH formats required triggering an intra-frequency HOmust due to Indirectly provides the UE-specific maximum time (re)transmission corresponding to the random corresponds to 32 radio frames, rf64 corresponds to take care of the correct choice of the SRS 1/1a/1b. The shift is the cyclic shift difference load unbalance. within which the UE must receive a valid uplink Enabling/disabling of the transport format access grant. 64 radioresponse frames and sothat on.SRS signal is sent within configuration to avoid between two adjacent ACK/NACK/Scheduling grant for a new UL-SCH. time dependent offsettransmission on a per UE basis. If thisIf this for Enables/disables downlink 64on QAM modulation the blanked RF area. Request resources using the same orthogonal cover expires, the releases PUCCH resources and no parameter isUE enabled, PUSCH power calculation in link adaptation use in PDSCH. sequence and can be decided considering multipath Sets the power reduction from the antenna longer performs acontrol dedicated Scheduling Request, UE uplink power equation (P1) takes the delay spreads forsize thein cell access deployment. maximum TX power. but instead performs agiven random Scheduling Transport Block account duringthe the power Downlink channel bandwidth defines DL Parameter is one parameter in a setcell which defines Request. This timeeNode-B is calculated by Scheduling calculation. bandwidth for the transmission in cell, the maximum PUCCH allocationSR called as a for The parameter dlInterferenceEnable is used Request periodicity * dedicated transmission and also defines the number of available Physical MaxPucchResourceSize. All the restdefines of the enabling and disabling interference generation in maximum. The dlInterferenceLevel parameter Resource Blocks. parameters arephysical related resource to each others according to downlink. percentage of blocks (PRB) that The downlink channel bandwidth mapping to The dlInterferenceModulation parameter defines this formula: are usedoffor downlink data andBlocks interference number Physical Resource modulation scheme to be=used for generated MaxPucchResourceSize nCqiRb + is: The used=DL MIMO mode for each transmission. 5.0 MHz 25 DL PRBS downlink interference. That is, for a non-existing UE roundup{[((maxNumOfCce) + n1PucchAn physical channel isPRBS the following: 10.0 MHz = 50 DL O&M switch for enabling /isdisabling downlink Outer the downlink interference transmitted. pucchNAnCs * 3 / deltaPucchShift ) * 0: Single Stream Downlink: All is acting based on 15.0 MHz = 75 DL PRBS which loop Link Quality deltaPucchShift] /Control (3*12)} + (pucchNAnCs / This is a trigger condition forroundup power headroom downlink physical channels are transmitted 20.0 MHz = 100 DL PRBS the 1st transmission HARQ result, that is, 1st 8) submission due to pathloss change; named using this mode; Transmission power of the Physical Control Format transmission BLER. maxNumOfCce depends on dlChBw parameter: ULATB_DLPL_CHANGE inTransmit RRM SFS. 1: Single Streamis Downlink Indicator Channel is boosted by set value This parameter one of the parameters in a power then ofphysical themaxNumOfCce Physical Hybrid -Transmission if dlChBwAllisdownlink 5MHz isARQ 21set Diversity: channels which defines the maximum PUCCH allocation Indicator Channel is boosted by set value - if dlChBw is 10MHz maxNumOfCce is 43 are transmitted using then this mode; called as MaxPucchResourceSize. All the rest -2:ifDual dlChBw is 15MHz then maxNumOfCce is 65of the Stream MIMO Spatial Multiplexing: parameters are related to each others according - if dlChBw is 20MHz then maxNumOfCce is 87 to SRB1 (DCCH) and RBs(DTCH) this formula: All the rest of the parameters in formula are O&M on PDSCH are transmitted using Dual MaxPucchResourceSize = nCqiRb + parameters, and MaxPucchResourceSize has a Stream MIMO with spatial multiplexing; roundup{[((maxNumOfCce) + n1PucchAn maximum allowed value, which shall not be SRB0 (CCCH), BCCH and PCCH on pucchNAnCs * 3 / deltaPucchShift ) * exceeded PDSCH and all other physical channels deltaPucchShift] / (3*12)} + roundup (pucchNAnCs / are transmitted using Single Stream Downlink reference signals transmission power boost DL target BLER Default CQI Enable DL AMC MIMO power compensation DCI format for common channel transmission DL scheduler FD algorithm DL OLDTC target Use of partly allocated PRBs DRX apply device type DRX profile index DRX profile priority DRX inactivity timer DRX long cycle DRX on duration timer DRX profile index DRX profile priority DRX retransmission timer DRX inactivity timer DRX long cycle DRX on duration timer DRX profile index DRX profile priority DRX retransmission timer DRX inactivity timer DRX long cycle DRX on duration timer DRX profile index DRX profile priority DRX retransmission timer DRX inactivity timer DRX long cycle DRX on duration timer DRX profile index DRX profile priority DRX retransmission timer DRX inactivity timer DRX long cycle DRX on duration timer DRX profile index DRX profile priority DRX retransmission timer DRX inactivity timer DRX long cycle DRX on duration timer DRX profile index DRX profile priority DRX retransmission timer DRX inactivity timer Transmission power of the downlink reference signals a cellBlock is boosted by set(BLER) value compared to Definesin target Error Ratio for PDSCH downlink Link Adaptation in percents. Used with Defines the default Channel Quality Indicator (CQI) downlink Outer loop Link Quality Control (OLQC) value for downlink Link Adaptation use. Default CQI O&M switch for enabling / disabling downlink functionality. is used when there is no valid CQI available, that is, Adaptive Modulation and Sets compensation in Coding. TxDiv 2x2 MIMO SM a CQIthe report is not received or it and is too old. case into the power whether control. common channel Parameter to DL configure signalling (SI, paging RACH ) use DCI format 1A or Parameter to choose between different available Compensation of MIMO Coverage effects for MIMO 1C on PDCCH. algorithms for frequency domain scheduling. Spatialvalue Multiplexing and MIMO Diversity Target for Outer Loop Delay Target Control. Available algorithms area probability The parameter determines theonpower This parameter defines ofcompensation packets Currently only DCI format 1C PDCCH Determines whetherproperty PRBsmaximum partly TTA: fair allocation basedallocated onpower ratioisfor of factor for antenna-specific in case exceeding a set delay target. supported. transmission of Primary (PSS) and Secondary relative to wideband channel quality of a downlink transmission using at least two TXtype This parameter determines whether the device synchronization Signals (SSS) and Physical PFsch: proportional fairthat allocation property based on antennas. This means every single subcarrier "noBenFromBatConsumpOpt" DRX profile index. Broadcasting Channel (BPCH)scheduled should be used in ratio of immediate to average channel power determined for multiple TX antenna of the UE shall be considered for DRX configuration. Uniquely identifies a DRX profile. dynamic scheduling. quality DRX profile priority. transmission is reduced by thistofactor. The benefit Such an UE does not foresee particularly parameter does not apply in case aoptimisation. single TX from NW-based battery consumption Configures the Inactivity Timer for of DRX. Applied to identify the DRX profile to be usedthe if a UE (TM1) transmission, and thus neither affects If drxApplyDeviceType is set to The Inactivity Timer determines Configures the long DRX cycle. It is recommended has multiple bearers established. power of cell-specific reference transmission. "APPLY" and the device type is signal "noBenthe number of consecutive PDCCH-subframes to carefully use thelimited 40DRX ms Note: Modification of profile priority is not Note that only the set of FromBatConsumpOpt", DRX willdlpcMimoComp not Configures the On Duration Timer forbe DRX. for which the UE monitors the value, as so far tested UEs are not able recommended; preparation for future use.can values (0dB, 1.77dB, 3dB, 4.77dB, 6dB) activated for this UE. The On Duration determines the number of be PDCCH after decoding an UL or DL DRX index. to do profile ReportCGI measurement with this communicated to the UE due to p-a signaling consecutive PDCCH-subframes at the beginning of resource assignment on PDCCH Uniquely identifies a DRX profile. for an cycle size. DRX profile priority. restrictions and the extended has been a DRX cycle during which the range UE monitors the initial data transmission. The long DRX cycle determines determined only forset finetuning purposes. PDCCH. If drxLongCycle is to Configures the Retransmission Timer for Please DRX. be the periodic repetition of '160ms', theprofile DRX On Applied to identify the DRX to bethe used if a UE informed that Nokia Siemens Networks does not drxInactivityT should be set to '200'(ms) The Retransmission Timer determines maximum Duration. Configures the Inactivity Timer for DRX. using has multiple bearers established. quarantee a successful DL transmission otherwise may go out-of-synch number of UEs PDCCH-subframes athe UEnumber monitorsofthe The Inactivity Timer determines Note: Modification DRX profile priority is not amplitude modulations, especially Configures the long DRX Cycle. when DRX profile isofa applied for afor longer PDCCH asdependent soon as retransmission in DL is UE consecutive PDCCH-subframes which the recommended; preparation for future use. 64QAM, if other values than the values presented in The long DRX cycle determines the periodic period of time. expected by the UE. Configures the On Duration Timer for DRX. monitors PDCCH afterDuration. decoding an UL6dB) or DLare the limitedthe set (0dB, 1.77dB, 3dB, 4.77dB, repetition of the DRX On The On Duration the number of data resource assignment on PDCCH for an initial DRX indexdetermines used.profile consecutive PDCCH-subframes at the beginning of transmission. Uniquely identifies a DRX profile. Please note, that if the Cell-Specific Reference DRX profile a DRX cyclepriority. during which the UE monitors the Symbol Power Boost is activated by setting the PDCCH. Configures the Retransmission Timer for DRX. dlRsBoost parameter, only the values 0dB andif 3dB Applied to identify theTimer DRX profile to be used a UE The Retransmission determines the maximum are allowed for dlpcmimocomp. Configures the Inactivity Timer for DRX. has multiple bearers established. number of PDCCH-subframes a UE monitors the The Inactivity Timer determines Note: Modification DRX profile priority is not Configures long DRX cycle. PDCCH as the soon asofa retransmission in DL is the number of consecutive PDCCH-subframes recommended; preparation for future use. The long DRX cycle determines the periodic expected by the UE. Configures the On Duration Timer for DRX. for which the UEDRX monitors the repetition of the On Duration. The Duration determines number of PDCCH afterindex. decoding an ULthe or DL DRXOn profile consecutive PDCCH-subframes atforthe resource identifies assignment on PDCCH anbeginning of Uniquely a DRX profile. DRX profile priority. a DRX cycle during which the UE monitors the initial data transmission. PDCCH. Note: It is not to Timer set for DRX. Configures therecommended Retransmission Applied totoidentify the DRXdetermines profile to bethe used if a UE this timer shorter values than theDRX. The Retransmission Timer maximum Configures the Inactivity Timer for has multiple bearers established. Note: It is not recommended to set this timer to default value to allowdetermines for sufficient scheduling number of PDCCH-subframes athe UE monitorsofthe The Inactivity Timer number Note: Modification DRX profile priority is not shorter values than default value to Configures long DRX cycle. flexibility. PDCCH as the soon asofthe a retransmission in allow DL is UE consecutive PDCCH-subframes for which the recommended; preparation for future use. sufficient scheduling flexibility. The long DRX cycle determines the periodic expected by the UE. Configures the On Duration Timer for DRX. monitors the PDCCH afterDuration. decoding an UL or DL repetition of the DRX On The On Duration determines the number of data resource assignment on PDCCH for an initial DRX profile index. Note: It is notPDCCH-subframes recommended to set this beginning timer to of consecutive at the transmission. Uniquely identifies DRX profile. shorter values thanathe default value to allow DRX profile priority. a DRX cycle during which the UE monitors the sufficient scheduling flexibility. PDCCH. Configures the Retransmission Timer for DRX. Applied to identify theTimer DRXdetermines profile to bethe used if a UE The Retransmission maximum Configures the Inactivity Timer DRX. has bearers established. Note:multiple It is not recommended toafor set this timer tothe number of PDCCH-subframes UE monitors The Inactivity Timer determines the number of Note: Modification DRX profile priority is not shorter values than default value to Configures long DRX cycle. PDCCH as the soon asofthe a retransmission in allow DL is UE consecutive PDCCH-subframes for which the recommended; preparation for future use. sufficient scheduling flexibility. The long DRX cycle determines the expected bythe the UE. Configures On Duration Timer forperiodic DRX. monitors the PDCCH afterDuration. decoding an UL or DL repetition of the DRX On The On Duration determines the number of data resource assignment on PDCCH for an initial DRX profile index. Note: It is notPDCCH-subframes recommended to set this beginning timer to of consecutive at the transmission. Uniquely identifies DRX profile. shorter values thanathe default value to allow DRX profile priority. a DRX cycle during which the UE monitors the sufficient scheduling flexibility. PDCCH. the Retransmission Timer for DRX. Configures Applied to identify theTimer DRXdetermines profile to be used if a UE The Retransmission Configures the Inactivity Timer for DRX.the maximum has multiple bearers established. number of PDCCH-subframes for which the of UE The Inactivity Timer the number Note: Modification DRX profile priority is not Configures the longofdetermines DRX cycle. monitors the PDCCH as soon as a retransmission in consecutive PDCCH-subframes for which recommended; preparation for future use. the UE The DRX cycle determines the DL islong expected by the UE. decoding Configures the On Duration Timer forperiodic DRX. monitors the PDCCH after an UL or DL repetition of the DRX On Duration. The On Duration the number of data resource assignment on PDCCH for an initial DRX profile index.determines consecutive PDCCH-subframes at the beginning of transmission. Uniquely identifies a DRX profile. DRX profile a DRX cyclepriority. during which the UE monitors the PDCCH. the Retransmission Timer for DRX. Configures Applied to identify theTimer DRXdetermines profile to be used if a UE The Retransmission Configures the Inactivity Timer for DRX.the maximum has multiple bearers established. number of PDCCH-subframes for which a UE The Inactivity Timerofdetermines the number of Note: Modification DRX profile priority is not monitors the PDCCH as soon as a retransmission consecutive PDCCH-subframes for which the UE in recommended; preparation for future use. DL is expected by the after UE. decoding an UL or DL monitors the PDCCH resource assignment on PDCCH for an initial data transmission. Note: It is not recommended to set this timer to shorter values than the default value to allow for DRX long cycle DRX on duration timer DRX profile index DRX profile priority DRX retransmission timer DRX short cycle DRX short cycle timer Short term inactivity factor for smart DRX DRX inactivity timer DRX long cycle DRX on duration timer DRX profile index DRX profile priority DRX retransmission timer DRX short cycle DRX short cycle timer Short term inactivity factor for smart DRX DRX inactivity timer DRX long cycle DRX on duration timer DRX profile index DRX profile priority DRX retransmission timer DRX short cycle DRX short cycle timer Short term inactivity factor for smart DRX DRX inactivity timer DRX long cycle DRX on duration timer DRX profile index DRX profile priority DRX retransmission timer DRX short cycle DRX short cycle timer Short term inactivity factor for smart DRX Access barred for emergency calls Extended uplink link adaptation ATB periodicity Extended uplink link adaptation BLER averaging window Extended uplink link adaptation delta MCS Extended uplink link adaptation low MCS threshold Extended uplink link adaptation low PRB threshold Extended uplink link adaptation PRB factor EARFCN downlink EARFCN uplink Emergency area ID Enable AMC for PDCCH link adaptation Enable better cell HO Enable coverage HO Enable downlink 16QAM Configures the long DRX cycle. The long DRX determines the Configures the cycle On Duration Timer forperiodic DRX. repetition of the DRX On Duration. The On Duration determines the number of Smart DRX profile index. consecutive PDCCH-subframes at the beginning of Uniquely identifies a DRX profile. Smart a DRXDRX cycleprofile duringpriority. which the UE monitors the PDCCH. Configures the Retransmission Timer for DRX. Applied to identify theTimer Smart DRX profile be used The Retransmission determines thetomaximum Configures the shortbearers DRX cycle. ifnumber a UE has multiple established. of PDCCH-subframes a UE monitors It is recommended to Smart set this parameter equalthe to the Note: Modification DRX profile priority Configures short cycle timer. PDCCH as the soon asofaDRX retransmission in DL is is drxLongCycle in order to optimize battery not recommended; preparation for future use. Integer value multiplied with drxShortCycle to expected by the Factor is used forUE. theVoLTE calculation of the Short Term consumption calls. determine theduring run time when of short DRXDRX cycle. Inactivity Timer (STIS) Smart is used. Configures therecommended Inactivity Timer DRX. Note: It is not to for set thisshort timerDRX to smartStInactFactor is multiplied to the The Inactivity Timer determines the number offor shorter values than the default value for to allow Configures theto long DRX cycle.value cycle duration provide STIT smart DRX consecutive PDCCH-subframes for which the UE sufficient scheduling flexibility. The long DRX cycle determines the profile. Configures the On Duration Timer forperiodic DRX. monitors the PDCCH after decoding an UL or DL repetition of the DRX On Duration. The OnDRX Duration the number of data resource assignment on PDCCH for an initial Smart profiledetermines index. consecutive PDCCH-subframes at the beginning of transmission. Uniquely identifies a DRX profile. Smart a DRXDRX cycleprofile duringpriority. which the UE monitors the PDCCH. Configures the Retransmission Timer for DRX. Applied to identify theTimer Smart DRX profile be used The Retransmission determines thetomaximum Configures the shortbearers DRX cycle. ifnumber a UE has multiple established. of PDCCH-subframes a UE monitors the It is recommended to DRX set this parameter to Note: Modification profile priority is smaller not Configures the short cycle timer. PDCCH asdrxLongCycle. soon asofaDRX retransmission in DL is value than recommended; preparation future use. to Integer multiplied withfor drxShortCycle expected by the Factor isvalue used forUE. the calculation of the Short Term determine the run time of short DRXDRX cycle. Inactivity Timer (STIS) when Smart is used. Configures Inactivity Timer for DRX. In case the the parameter drxShortCycle isshort set to '20', smartStInactFactor is multiplied to the DRX The Inactivity Timer determines the number of then it is recommended to set drxShortCycleTimer Configures the long DRX cycle. cycle duration to provide STIT value for smart DRX consecutive PDCCH-subframes for which the UE to '16'. The long DRX cycle determines the profile. Configures the On Duration Timer forperiodic DRX. monitors the PDCCH after decoding an UL or DL repetition of the DRX On Duration. The OnDRX Duration the number of data resource assignment on PDCCH for an initial Smart profiledetermines index. consecutive PDCCH-subframes at the beginning of transmission. Uniquely identifies priority. a DRX profile. Smart a DRXDRX cycleprofile during which the UE monitors the PDCCH. the Retransmission Timer for DRX. Configures Applied to identify theTimer Smart DRX profile be used The Retransmission determines thetomaximum the shortbearers DRX cycle. ifConfigures a UE has multiple established. number of PDCCH-subframes a UE monitors It is recommended toDRX set this parameter equalthe to the Note: Modification of Smart DRX profile priority Configures the short cycle timer. PDCCH as soon as a retransmission in DL is is drxLongCycle in order to optimize battery not recommended; preparation for future use. Integer multiplied with drxShortCycle to Term expected by the Factor isvalue used forUE. theVoLTE calculation of the Short consumption calls. determine theduring run time when of short DRXDRX cycle. Inactivity Timer (STIS) Smart is used. Configures therecommended Inactivity Timer DRX. Note: It is not to for set thisshort timerDRX to smartStInactFactor is multiplied to the The Inactivity Timer determines the offor shorter values than the default valuenumber to allow Configures theto long DRX cycle.value cycle duration provide STIT for smart DRX consecutive PDCCH-subframes for which the UE sufficient scheduling flexibility. The long DRX cycle determines the periodic profile. Configures the On Duration Timer for DRX. monitors the PDCCH afterDuration. decoding an UL or DL repetition of the DRX On The OnDRX Duration the number of data resource assignment on PDCCH for an initial Smart profiledetermines index. consecutive PDCCH-subframes at the beginning of transmission. Uniquely identifies a DRX profile. Smart a DRXDRX cycleprofile duringpriority. which the UE monitors the PDCCH. Configures the Retransmission Timer for DRX. Applied to identify theTimer Smart DRX profile be used The Retransmission determines thetomaximum Configures the shortbearers DRX cycle. ifNote: a UE has multiple established. It is not recommended to set this timer tothe number of PDCCH-subframes a UE monitors It is recommended to setdefault this parameter to Note: Modification of DRX profile priority is smaller not shorter values than the value to allow for Configures the short DRX cycle timer. PDCCH as soon as a retransmission in DL is value than drxLongCycle. recommended; preparation for future use. to sufficient scheduling flexibility. Integer value multiplied with drxShortCycle expected by the UE. Factor is used for the calculation of the Short Term determine the run time when of short DRXDRX cycle. Inactivity Timer (STIS) Smart is used Access Class barring for AC 10. In case the parameter drxShortCycle isshort set <= '40', smartStInactFactor is multiplied to the The access barred for emergency calls Loop flag DRX then itduration is recommended toSTIT set by drxShortCycleTimer When not externally triggered Outer Link cycle to provide value for smart DRX indicates accessthe is Adaptive barred forTransmission emergency calls to '16'. that Adaptation (OLLA), profile Averaging window for BLER in E-ULA. in this cell. In case the parameter drxLongCycle is set towhen '640' Bandwidth (ATB) activated It is expressed in algorithm number ofwill TTIbe when been and the parameter drxShortCycle is setUE to '80', then Defines howofmany MCS indexes above thehas minimal the amount TTI events here defined has been actively scheduled itDefines is sufficient and recommended to set MCS index are required before ATB may increase reached.the lowest possible MCS index before drxShortCycleTimer to '8'. the amount of allocable PRBs Adaptive Transmission Bandwith (ATB) algorithm Defines the lowest possible amount of allocable may act and decrease the amount of allocable PRBs Incremental and decremental factor for the Adaptive PRBs. This shall be always biggercalculation than or equal to Transmission Bandwidth's of allocable E-UTRA Absolute Radio Frequency Channel redBwMinRbUl PRBs Number in downlink. E-UTRA Absolute RadioofFrequency Channel Multiplying the amount PRBs by this factor the Supported Bands and related downlink EARFCNs Number in uplink. total amount of allocable PRBs is decreasing. Identifies the Emergency Area ID (emAreaId) of the are the following: Supported and uplink EARFCNs Dividing theBands amount ofrelated PRBs factor, thenare the eNB cell. Band 1 (2110-2170 MHz): - by 599this The parameter defines theis0switch for enable/disable the following: number of allocable PRB increasing An "emAreaId" ID IE may be used in signaling Band 2 (1930-1990 MHz): 600 1199 Channel Quality (CQI) based Adaptive Band (1920-1980 18000 - 18599 Flag if1 better cell Indicator HOMHz): is enabled. messages received via S1-i/f tofor Band 3 (1805-1880 MHz): 1200 - -1949 Modulation and Coding (AMC) PDCCH link Band 2 (1850-1910 MHz): 18600 19199 indicate the Ifset cells with1950 emergency impact Band (2110-2155 MHz): - 2399 Flag if4 coverage is enabled. adaptation. theofHO parameter is disabled, default (e.g. Band 3 (1710-1785 MHz): 19200 19949 which have to the - 2649 Band 5 MHz): aggregation is broadcast used implicitly. Band 4 (869-894 (1710-1755 MHz): 19950 - Link 20399 The parameter defines if2400 downlink Adaptation is Warning Message). Band 6 (875-885 MHz): 2650 - -2749 Band 5a (824-849 MHz): 20400modulation 20649 for allowed to select the 16QAM If e.g. WRITE-REPLACE Band 7 MHz): 2750- -20749 3449 Band 6 (2620-2690 (830-840 MHz): 20650 PDSCH. WARNING REQUEST message with Band 8 (925-960 MHz): 3450 - 3799 Band 7 (2500-2570 MHz): 20750 21449 "emAreaId" is received, MHz): the Warning Band 9 (1844.9-1879.9 3800 - 4149 Band 8 (880-915 MHz): 21450 21799 Message shall be broadcasted by- an Band 10 (2110-2170 MHz): 4150 4749 Band 9 (1749.9-1784.9 MHz): 21800 - 22149 eNB cell if(729.0-744.9 "pwsWithEmAreaId" is true Band 12 MHz):22150 5010 -- 5169 Band 10 (1710-1770 MHz): 22749 and the "emAreaId" received in-the Band 13 (746-756 MHz): 5180 5279 Band 12message (699.0-714.9 MHz): 23010 - 23169 request matches with the Band 14 (758-768 MHz): 5280 5379 Band 13 (777-787 MHz): 23180 23279 "emAreaId" assigned to the eNB cell. Enable lower aggregation selection for PDCCH LA Enable PDCCH power control E-UTRAN cell identifier Filter center TX Filter coefficient Filtering coefficient used for CSFB Cpich-Ecn0 Filtering coefficient used for CSFB Cpich-RSCP Filtering coefficient used for cpich ecN0 Filtering coefficient used for cpich RSCP Filtering coefficient used for RSRP Filtering coefficient used for RSRQ Filtering coefficient used for RSSI Cell reserved for operator use Mobile country code Mobile network code Mobile network code length GBR congestion handling Group assignment for PUSCH Maximum number of message 3 HARQ transmissions Maximum number of HARQ transmission in DL Maximum number of HARQ transmission in UL Max number of UL HARQ transmissions during TTI bundling Hopping mode of PUSCH Highspeed scenario Related hysteresis of offset a3Offset for RSRP intra F Related hysteresis of threshold th2 GERAN for RSRP Related hysteresis of threshold th2 interFreq for RSRP Related hysteresis of threshold th2 WCDMA for RSRP Related hysteresis of threshold th2a for RSRP Related hysteresis of thresholds th3 and th3a for RSRP Related hysteresis of threshold th4 for RSRP Inter Freq load bal QCI1 Bearer check timer Inter Freq load bal GBR high load DL Inter Freq load bal nonGBR high load DL Inter-frequency load balancing PDCCH high load Inter Freq load bal nominal number of PRBs Inter Freq load bal GBR target load DL Inter Freq load bal nonGBR target load DL Inter-frequency load balancing PDCCH target load Cell reselection priority for idle mode load balancing Percentage of UE for idle mode load balancing Uplink improved latency reaction timer Inactivity timer Initial MCS in downlink Initial MCS in uplink Initial amount of PRBs in uplink Intra-frequency cell reselection allowed Presence antenna port1 Local cell resource ID The parameter determines the enabling/disabling switch for automatic selection of lower aggregation The parameter defines the switch for enabling / during PDCCH scheduling. This means that a disabling power control on PDCCH. If the parameter The E-UTRAN cell identifier is unique withinfrom one required aggregation level which isSpectral defined is disabled, a flat downlink Power Density PLMN and has adefines length of 28 bits. The leftmost UE's Channel Quality Indicator (CQI) reports may This parameter absolute TX frequency in20 (PSD) is used. bits of the value correspond to the value of the eNB be downgraded by one step without any other kHz for overriding normal filter center frequency Filter coefficient for RSRP ID (parameter lnBtsId) andmeasurements the 8due rightmost bits to particular reason (e.g. blocking to UE used hash tuning. calculate lossvalue ascoefficient specified in [3GPP-36.213. correspond tofiltering the of Assigning the local cell resource ID function orpath overall space). offorlower Specifies the used 5.1.1.1]. Value fc0 corresponds to k =by0,operator, fc1 (lcrId). This parameter cannot be set aggregation decreases number of blocked UEs filter init UTRAWCDMA This parameter can be used to override Specifies the system filtering coefficient used fornormal corresponds to kresource = 1,internally and deficiency, so on. is calculated and is only readable. case of PDCCH and gives CSFB Cpich-Ecn0 tuning to minimize noise to neighboring frequency UTRAWCDMA Specifies the filtering used for UTRA possibility for greater coefficient number PDCCH Specifies the filtering coefficient used for messages Cpichband. IfCpich-RSCP the parameter value isofnot defined, TX filter CSFB Cpich-EcNo per TTI. A corresponding increase in PDCCH power Ecn0 within the measurement quantity configuration frequencythe is evaluated as an average of the Specifies filtering coefficient used for UTRA Specifies the filtering coefficient used for CpichSpecifies the filtering coefficient used for Cpichcompensates caused degradation in PDCCH code of UTRA-WCDMA configured center frequencies. Cpich-RSCP RSCP within the measurement quantity Specifies thethe filtering coefficientquantity used forconfiguration RSRP (to EcNo within measurement robustness. Specifies the filtering coefficient used for Cpichconfiguration be set in QuantityConfigEUTRA) of UTRA. Specifies the the filtering coefficientquantity used for RSRQ (to RSCP within measurement of UTRA-WCDMA There are some restrictions for utilitizing the be set in QuantityConfigEUTRA) configuration of UTRA Specifies the filtering coefficient used for RSSI filterCoefficientCpichEcNo within quantity automatic lower aggregation for an UE: Specifies usedIEforisRSSI configuration of UTRAcoefficient is an optional Indicates ifthe thefiltering cell/PLMN combination reserved -filterCoefficientCpichRscp the required aggregation shall be at least 4, within quantity within the measurement quantity configuration of for operator use. -The enableAmcPdcch and enablePcPdcch shall configuration of UTRA is an optional IE Mobile Country Code parameter indicatesbe the GERAN Cells reserved operator use treated as enabled, and for Mobile Country Code and is partare of the PLMN The Mobile Network Code parameter indicates barred by 'normal' UEs without a USIM with AC the 11 -identifier. used PDCCH capacity for all uplink and downlink Mobile Network Code and is part of the PLMN or 15 inserted. UEs with AC 11 or 15 USIM inserted allocations shall exceed a limit defined by the The Mobile Network Code length parameter identifier. are specific operator UEs thusNetwork allowedCode, to camp threshold pdcchLowAggTh of total PDCCH capacity indicates the the and Mobile Determines iflength and onof which layer congestion on and access such cells. The default value is not for allocated number of PDCCH symbols in TTI either 2 or 3 digits. handling shall be applied congestion reserved. The parameter defines theif assigned PUSCH group. is detected by layer 2. Indicates maximum number of HARQ It is highlythe recommended to configure transmissions used for message of the contentionthe value 'l2andl3' if 'Enhanced AC and Indicates the maximum number of3 HARQ based randomin access procedure. GBR services' are activated, i.e. if transmissions DL that is configured for each UE Indicates the maximum number of HARQ actEnhAcandGbrServices at initial access to a specific cell. transmissions in UL thatnumber is configured for each UE equals 'true'. Indicates the maximum of transmissions at initial access tofor a specific cell. that is configured a UE in TTI bundling operation. This parameter defines if hopping is only intersubframe or both interand intra-subframe. Defines highspeed scenario for a cell. Scenario 1 (open space scenario) and scenario 3 Related Hysteresis of Handover Margin for Better (tunnel scenario). Cell Handover of Intra-Frequency Related Hysteresis of Threshold forAnnex RSRPB.3: of Scenarios are described in Parameter isfor used within the36.141 entry and leave serving cell start ofThreshold GERAN measurements Scenario 1: Open space Related Hysteresis of for RSRP of condition of the A3 within triggered reporting Parameter used thefrequency entry andcondition. leave Scenario 3:isfor Tunnel for multi-antennas serving cell start of inter The IE value is multiplied by 2. Related Hysteresis of Threshold for RSRP of condition of the A2 triggered reporting condition. measurements serving cell for start ofThreshold WCDMA measurements The IE value is multiplied by 2. Related Hysteresis of for RSRP of Parameter is used within entry leave Parameter isfor used withinofthe the entry and and leave serving cell stopping Inter-RAT (InterFreq) condition of the A2 triggered reporting condition. Related Hysteresis of Handover Margin for condition of the A2 triggered reporting condition. Measurements The IE value is multiplied by 2. Coverage Handover ofThreshold Intra-Frequency The IE value is multiplied by 2. Related Hysteresis of for RSRP of Parameter is used within entry Parameter isfor used within the the entry and and leave leave serving cell redirection trigger condition of the A1 triggered reporting condition. Percentage of UE be selected for Idle Mode Load condition ofisthe A5to triggered reporting Parameter used within the entry andcondition. leave The IE value is multiplied by 2. Balancing. The IE value is multiplied by 2. High Load for usage of GBR Uu I/F resources in DL condition of the A2 triggered reporting condition. direction. The IE value is multiplied by 2. High Load for usage of nonGBR Uu I/F resources in High Load is the treshold that controls the Inter DL direction. High Load for usage of PDCCH Uu I/F resources Frequency High Load is the that the High Load the treshold treshold thatofcontrols controls the Inter Inter Load Balancing. Defines theisnominal number PRBs which would Frequency Frequency Load Balancing. If iFLBHighLoadGBRDL and be assigned to a nonGBR bearer with QCI weight Load Balancing. Target Load for usage of GBR Uu I/F resources in 1. iFLBHighLoadNonGBRDL If iFLBHighLoadGBRDL and DL direction. If iFLBHighLoadGBRDL are setLoad to 100%, the cell will never Uu enter Target for usage ofand nonGBR I/F resources iFLBHighLoadNonGBRDL Target Load represents the operating point = load iFLBHighLoadNonGBRDL and iFLBHighLoadPdcch active Inter Frequency Load Balancing in DL direction. are set to 100%, the will never enter Target for ofwork PDCCH Uu I/Fstate. resources at cellusage should according to its arewhich setLoad tothe 100%, the cell cell will never enter active Inter Target Load represents the operating point = active Inter Frequency Balancing state. Target Load represents the state. operating point = load load dimensioning Frequency Load Balancing Absolute priority of the Load serving cell frequency layerat at which the cell should work according to its which the cellMode should work according to its and the traffic model. used for Idle Balancing. dimensioning Percentage ofand UE the toLoad be selected for Idle Mode Load dimensioning traffic model. If iFLBTargetLoadGBRDL or iFLBTargetLoadNon0 means the lowest priority and the traffic model. Balancing. If iFLBTargetLoadGBRDL or GBRDL are set to 0%, the cell will never anythe Improved latency reaction timer in uplink offer defines If iFLBTargetLoadGBRDL or or iFLBTargetLoadNoniFLBTargetLoadNonGBRDL iFTargetLoadPdcch available capacity for Inter Frequency Load time in which the UE has to send useful data after GBRDL setthe to cell 0%, will the cell never The parameter defines thenever timewill period foroffer the any are set toare 0%, offer any available Balancing either the initial dummy grant or both a previous available capacity forinactivity Inter Frequency Load indication of Inter thedefines UE in DL andand UL capacity for Frequency Load Balancing to its The parameter an initial Modulation to its neighbor cells.data. If the timer expires the, reception of useful UE Balancing directions. neighbor cells. Coding Scheme (MCS) to be used on PDSCH will not get dummy grant anymore. The parameter defines an initial Modulation andfor to its neighbor cells. other use than BCCH, PCH random access Coding Scheme to of beor used on PUSCH Defines the initial(MCS) amount maximum PRBs infor messages. other use than random access message 3. uplink. Used to control cell reselection on intra-frequency cells whenwhether the highest ranked cell is barred, or is Indicates all the neighboring cells use considered as barred by the UE, as specified in TS Antenna ID of the Port Local1.Cell Resource. The value for each 36.304. When set to TRUE, the UE may assume that at cell shall be unique in the eNB. least two cell-specific antenna ports are used in all neighboring cells. LTE cell configuration identifier Load balancing profile Cell individual offset change lower margin Maximum bitrate downlink Maximum bitrate uplink Maximum code rate for paging Maximum code rate for random access message 4 Maximum code rate for random access message 2 Maximum code rate for SIB Maximum GBR-DRB Traffic Limit Maximum number of OFDM symbols for PDCCH Max number act DRB Maximum number of active UEs Max number Carrier Aggr configured UEs double carrier Max number QCI1 DRBs (GBRs) Maximum number of RRC connections Maximum number RRC emergency Maximum amount of users per TTI in DL Maximum amount of users per TTI in UL Maximum bitrate selector Measurement quantity for UTRA-CSFB FDD measurements Measurement quantity used for UTRA FDD measurements CQI threshold for fallback to CL MIMO 1 CW mode CQI threshold for activation of CL MIMO 2 CW mode Rank threshold for fallback to CL MIMO 1 CW mode Rank threshold for activation of CL MIMO 2 CW mode CQI threshold for fallback to MIMO diversity CQI threshold for activation of OL MIMO SM Rank threshold for fallback to MIMO diversity Rank threshold for activation of OL MIMO SM Minimum bitrate downlink Minimum bitrate uplink Mobility profile ID Subscriber profile ID Last subscriber profile ID of a range Mobility state parameters NCellChangeHigh Mobility state parameters NCellChangeMedium Mobility state parameters tevaluation Mobility state parameters THystNormal Modification period coefficient ACK/NACK offset Maximum number of out-of-sync indications Maximum number of in-sync indications PUCCH bandwidth for CQI Intra EUTRA offset frequency Operational state Nominal power for UE PUCCH TX power calculation Nominal power for UE PUSCH TX power calculation Maximum output power Instance identifier of the object LNCEL. This used the onlycell for load O&Mbalancing purposes. This parameter parameter is selects Important Note: profile. From thedefines profile the parameters controlling the This parameter minimum If theload lnCelId shall be it is value that a cell condition willmodified bechanged derived. CIO can assume, when autonomously by recommended to use Maximum bit rate that BTSSM. shall not The be exceeded in DL the eNB during e.g. the intra-frequency load BTSSM will automatically perform a full TTI. Maximum bit rate that shall becommissioning. exceeded in UL balancing commissioning instead of a not delta TTI. function. Otherwise 2 plan file operations The parameter defines the maximum code rate for are as is taken paging. This because maximum code rate Therequired parameter definesLNCEL the maximum codeinto rate for well as the related LCELL object must4be account during PDSCH scheduling. random access procedure messages (SRB0 The parameter defines the maximum code rate for deleted andThis recreated. Those two objects message). maximum code rate is2taken into random access procedure messages (RA are strongly coupled and must be created The parameter defines the maximum code rate for account during PDSCH scheduling. response). This maximum coderate is taken into and deleted in common. System Information Broadcast. This maximum Maximum radioPDSCH resource consumption account during scheduling. coderate is taken into account during PDSCH (PRBs) for GBRdefines traffic in UL many and DL The parameter how OFDM symbols scheduling. The amount of radio resources can be used channel transmission. eNB Threshold forfor thePDCCH maximum of established (PRBs) is calculated in %the of number the available selects based on usage actual value for each DRBs in the cell. PRBs depending on the system. The maximum UEs in to thethe cell TTI, which and number value is of signaled UEs in The number of established DRBs For 5maximum MHz system 25 PRBs*, with established DRB. PCFICH. Threshold tosystem limitbandwidth the maximum number of following carrier depends on the of the cell. The for 10 MHz 50 PRBs*, The maximum margin depends aggregation configured UEs number in aon cell of PCell (Pvalues are allowed: for 15 MHz system 75 PRBs*, Threshold for the maximum established the bandwidth of the cell. Theindicates followingthat these LNCEL); Dc (Double carrier) for 20 Mhz system 100 PRBs* are QCI1-GBR-DRBs in cell. values are1 allowed: Maximum number of..the UEs in the cell with1 an UEs have PCell (P-LNCEL) and only SCellin(S5 MHz bandwidth 0 2400 available. QCI1-DRBs are additional data radio bearers the 5 MHz bandwidth 0 .. 600 established RRC connection. LNCEL). 10 MHz bandwidth 0 .. 2400 Threshold for the maximum number of * reduced byalso common resources cell and bandwidth are checked againstlike the threshold 10 MHz 0 .. 600 Carrier aggregated UEs with 1 SCell 15 MHz bandwidth 0 4200 UEs in the cell which may establish PUCCH, RACCH, PDCCH, SIBs etc.a need double maxNumActDrb. 15 MHz bandwidth 0 .. .. 720 This is the maximum number of simultaneous users amount of UL resources compared with 20 MHz bandwidth 0 .. 4200 RRC connection for an emergency call which can consume some PRBs (e.g. 3 single 20 MHz bandwidth 0as .. 840signalling scheduled inasa long TTI in downlink carrier UEs UL is done only via This is the maximum number of simultaneous users The emercency call is only recognized PRBs) in average. The maximum additional margin on the Please note that the default valuedepends is is relevant. PCell. That's why the information Dc scheduled in a TTI in uplink Please note that the default value is not suitable for when the UE was in idle state Thesuitable parameter isthe only relevant if orrecommended bandwidth offor the cell. The following values Selects whether UECapability O andare M not all bandwidths. The all bandwidths. The recommended are: before initiating the connection. "actEnhAcAndGbrServices" is set tovalues allowed: parameters limits the Maximum Bitrate UL and values are: Defines which quantity to use for Event B1 The maximum margin 'true' and ignored otherwise. Maximum Bitrate DL 5 MHz bandwidth 300 depends on measurements 5 MHz bandwidth 270 the bandwidth of the following Defines which quantity to The use for Event B2 5 MHz bandwidth 0300 ..cell. 150 10 MHz bandwidth towards thisallowed: frequency set infrequency Quantity- set in 10 MHz bandwidth 360 values are measurements towards thisto 10 MHz bandwidth 0 .. 200 15 MHz bandwidth 600 CQI Threshold for fallback closed loop MIMO ConfigUTRA-FDD 15 MHz bandwidth 360 5 bandwidth 00 ....480 QuantityConfigUTRA 15 MHz bandwidth 200 20MHz MHz bandwidth 600 single codeword transmission (in CQI) The quantities used to evaluate the triggering CQI Threshold for activation 20 720 10 MHz bandwidth 0 .. 600 20 200 of closed loop MIMO condition dual codeword transmission (inclosed CQI) 15 MHz bandwidth 0fallback 840 to The quantities used to.. evaluate the triggering Rank Threshold for loop MIMO for the event. Dependencies: 20 MHz bandwidth 0 .. 840 condition for the event. Please note that the default value is not suitable for single codeword transmission cpich-RSCP corresponds to CPICH_RSCP TS Rank Threshold for activation of closed loopin maxNumActDrb +the max( addNumDrbRadioReasHo, Please note that default isvalues cpich-RSCP corresponds to value CPICH_RSCP inMIMO TS all bandwidths. The recommended are: 25.133 for FDD, and P-CCPCH_RSCP in TS dual codeword transmission addNumDrbTimeCriticalHo) lessMIMO than the not suitable forfor all fallback bandwidths. Thebe recommended 25.133 for FDD. CQI threshold to must Open Loop 25.123 for TDD. margin values for the used bandwidth (see in values values are: cpich-EcN0 corresponds to CPICH_Ec/No TS diversity (in CQI). 5 MHz bandwidth 75 CQI threshold for activation of Open Loop MIMO cpich-EcN0 corresponds to CPICH_Ec/No in TS above (2400,4200)) 5 MHz bandwidth 440 25.133 for FDD. 10 MHz bandwidth 100 Spatial Multiplexing (in CQI). 25.133 for FDD refers only, and isto not applicable for TDD. Rank threshold for fallback Open MIMO 10 MHz bandwidth 440 This parameter to event B2 forLoop HO to 15 MHz bandwidth 100 This parameter refers to event B1 for CSFB to diversity. 15 MHz bandwidth 800 WCDMA. 20 MHz bandwidth 100 Rank threshold for activation of Open Loop MIMO WCDMA. 20 MHzMultiplexing. bandwidth 800 Spatial Minimum bit rate that shall be granted in DL TTI. Recommendation: Dependencies: maxNumRrcEmergency should be Minimum bit rate that be granted in UL TTI. maxNumQci1Drb + shall greater than the actual configured threshold max( addNumQci1DrbRadioReasHo, Identifier of the Mobility Profile, which is mapped to maxNumRrc addNumQci1DrbTimeCriticalHo) must be less than one or SPID more value SPIDs.or first SPID value Single range maxNumRrcEmergency less of a (see the margin values for themust usedbe bandwidth which shall mapped to a Mobility Profile. than the margin values for the used bandwidth values above (150,200)) Last SPID value if a range of SPID values shall be (see values (480,840)) mapped to aabove Mobility Profile.to enter the high The number of cell changes mobility state.ofCorresponds TS 36.304. The number cell changes to to NCR_H enter theinmedium mobility state. Corresponds to NCR_M in The duration for evaluating criteria to enterTS mobility 36.304. states. Corresponds to TCRmax in TS 36.304. The additional duration for evaluating criteria to Value in seconds, s30 corresponds to 30 s and enter the normaldefines mobility state. Corresponds to so The parameter the length of the modification on. TCRmaxHyst in TS 36.304. Value in seconds, s30 period. This is the AckNack corresponds to 30 s=index and sooffset on. relative to the * Modification period modificationPeriodCoeff lowest CCE index of the associated DL scheduling This is the maximum number defaultPagingCycle / 10 ms. of consecutive "out of PDCCH. sync" indications received lower layers. Modification equalfrom or than 1024. Maximum number ofisconsecutive "in-sync" Parameter isperiod onetoparameter in lower a set which defines n1 corresponds 1value and so on. (n2 corresponds to 2, n4 corresponds to value indications received from lower layers. the maximum PUCCH allocation called asBlocks This is the number of Physical Resource that 4 and n8 corresponds to value 8.)rest of the n1 corresponds to 1 and so on. MaxPucchResourceSize. All the are reserved for PUCCH formats 2/2a/2b. Offset valueare applicable to the EUTRA serving carrier parameters related each This parameter is part oftothe setothers which according defines theto frequency. this formula: This is the operational state of the cell, the value is maximum PUCCH allocation called The IEthe Q-OffsetRange is = used to indicate a cell or MaxPucchResourceSize nCqiRb + set by system. MaxPucchResourceSize. All other parameters are This parameter defines cellapplied specificwhen nominal frequency specific offsetthe to be roundup{[((maxNumOfCce) + power n1PucchAn related each other according to this formula: power totobe used for PUCCH calculation in evaluating candidates for cell re-selection or when This parameter defines the cell specific nominal pucchNAnCs * 3 / deltaPucchShift ) * MaxPucchResourceSize = nCqiRb + UE uplink power control equation (P2), for evaluating triggering conditions for measurement power for the PUSCH. Used P0_PUSCH deltaPucchShift] /received (3*12)} +SNR roundup (pucchNAnCs / roundup{[((maxNumOfCce) +for n1PucchAn -data. This parameter defines the maximum controlling mean for control reporting. calculation in UE power control 8) pucchNAnCs * 3the /uplink deltaPucchShift ) * equation (P1) output power of cell per antenna for controlling received SNR for user data/ maxNumOfCce depends on dlChBw parameter: deltaPucchShift] / mean (3*12)} + roundup (pucchNAnCs carrier in dBm.the The maximum output during (re)transmission corresponding to aisreceived - if dlChBw 5MHz then maxNumOfCce 21 8) power is theismaximum value for the linear PDCCH with format 0on associated with is a new -sum if dlChBw is DCI 10MHz then maxNumOfCce 43 maxNumOfCce depends dlChBw parameter: of the power of all downlink physical packet transmission. This parameter to dlChBw is 5MHz 15MHz then maxNumOfCce 65 -- ifif dlChBw is then maxNumOfCce isis21 channels that is allowed to be used inisaused control SNR forantenna user data. is -cell. is 20MHz then - ifif dlChBw dlChBw is received 10MHz then maxNumOfCce is 87 43 Themean reference point is maxNumOfCce the the rest of the parameters in formula areisO&M -Allif dlChBw is 15MHz then maxNumOfCce 65 connector. parameters, MaxPucchResourceSize - if dlChBw isand 20MHz maxNumOfCce is 87a The configurable dBmthen values correspond has Pmax intra-frequency neighboring E-UTRA Max. uplink transmission power own cell Paging nB PDCCH LA UE default aggregation PDCCH aggregation for RA msg4 PDCCH aggregation for paging PDCCH aggregation level for preamble assignments PDCCH aggregation for random access response message PDCCH aggregation for secondary system information PDCCH allocation limit PDCCH LA CQI shift PDCCH and HARQ response target BLER PDCCH LA UL DL allocation balance initial value Periodic CQI feedback type Activate measurement Measurement type Report amount Report interval PHICH duration PHICH resource Physical layer cell identity PRACH cyclic shift PRACH configuration index PRACH frequency offset PRACH high speed flag Power ramping step Preamble transmission maximum Cell reserved for operator use PRS bandwidth PRS configuration index PRS muting info PRS muting info pattern length PRS Number of DL frames PRS power boost PUCCH cyclic shift for mixed formats PUSCH decoding offset index for ACK PUSCH decoding offset index for CQI PUSCH decoding offset index for rank indicator Cell reselection procedure hysteresis value Min required RSRQ in intra-freq neighbor cells (Rel9) Q RX level min. offset Minimum required RX level in cell Min. required RX level for intra-freq neighboring cells Maximum content resolution timer Large size random access MCS in uplink RA message power offset for group B selection Number of random access preambles Random access preambles group A size Random access response window size Pmax to be used for the intra-frequency neighboring EUTRA cells. Ifispmax maximum The IE P-Max used is to absent, limit thethe UE's uplink power according to the UE capability is used. transmission power on a carrier frequency; it is also Paging nB defines the number of possible paging used to calculate theframe, parameter P-compensation occasions per radio i.e. the density of The parameter defines aggregation forpaging UE to defined in TS 36.304 . default occasions. This parameter is used to calculate the be used in PDCCH Link Adaptation when Corresponds to parameter PEMAX in TS 36.101. The parameter defines the reserved number of DRX number of paging occasions within one paging enableAmcPdcch has been disabled when The UE Channel transmit power should not exceed the Control Elements (CCEs) forordedicated duration, which in turn is used to calculate the PDCCH aggregation for paging defines how many enableAmcPdcch has (in been enabled and on there no minimum of this value dBm), if provided, andisthe Random Access Message 4 PDCCH. assingment paging occasion. CCEs shall bepower used for one valid Channel Quality Indicator maximum UE for theaggregation UE (CQI) poweravailable class, The parameter defines the level bydue PDCCH. to an expiry of thechannel timer determining CQI for PUMAX, as specified in TS 36.101. means ofaggregation control elements (CCEs) PDCCH for Random Access response remembering. preamble assignments on PDCCH. The preamble message defines how many CCEs are used for one PDCCH aggregation for 0secondary system assignment is message sent during the nonPDCCH. information defines how many CCEs should be contention based Random The parameter defines the Access limit for procedure PDCCH if DL used for onePDCCH PDCCH. data arrives during UL out-of-sync. allocations. UE-specific search The fine-tuning parameter for adjustmentspace of capacity is and multiplied by this factor. measured averaged CQI towards lower or BLER target for PDCCH outer loop link adaptation higher aggregation in PDCCH Link Adaptation. in percent. PDCCH allocation balance initial between UL and Defines target Block PDCCH Error Ratio (BLER) of PDCCH DL for load adaptive The gives the initial starting Parameter determines if Wideband CQIpoint for and parameter UL HARQ response for initial downlink PDCCH shift dynamic control in case actOlLaPdcch or UE_selected subband CQI report transmissions for PDCCH Outer Loop Link Activates the periodic measurement type The parameter determines initialon value the PDCCH is true. mode for periodic CQI reporting Adaptation in percents. allocation balance constant between uplink and Specifies measurement type , which shall be PUCCH orthe PUSCH should be used. downlink. The Load Adaptive PDCCH algorithm The configured PDCCH CQI shift value is periodically performed by the UE If periodicCqiFeedbackType is set to Number of periodic ReportStrongestCells optimizes the subband value depending the actualboosting load automatically adjusted for control channels UE_selected CQI this on means measurement reportsDL configured at the periodic UE distribution between and UL Time interval between two consecutive in need basis. that UEs supporting subband CQI In fact, thevia PDCCH UE-specific space ReportStrongestCells measurement (prooved check of FGI) use itsearch andreports UEs Indicates the duration of PHICH. When phichDur is capacity is divided into uplink and downlink based configured at the UE which do not support subband CQI will set to value (Normal), PHICH is transmitted Thethe Physical Hybrid ARQdynamic Indicatior Channelin the on parameter before schedulings. use wideband CQI. first OFDMA symbol, and when phichDur is set to (PHICH) carries theidentity hybrid-ARQ ACK/NAK. Multiple The parameter pdcchUlDlBal (PDCCH UL DL Physical layer cell defines a cellLA uniquely. Note for the case where periodic value (Extended), PHICH is transmitted in first three PHICHs mapped toconstant) the physical samehas setlayer of resource allocation balance been originally It consists of two parts; cell identity subband CQI reporting is enabled OFDMA symbols. Preamble cyclic shift the configuration which elements constitute adefines PHICH group and theDL PHICH introduced as fixed factor of split of UL and group and physical layer identity, and is calculated together with DRX functionality (actDrx): is used for preamble generation. The configuration resource parameter defines the number of PHICH PDCCH resources. When Usage Based PDCCH is Defines allowed system frame and subframe with thenot following formula: It may possible to phichDur isbe transmitted insynchronize system information as determines how many cyclic shiftsactLdPdcch, are and needed to groups. activated by means of parameter the numbers for random access attempts, the physical layer cell identity = 3 x physical layer cell DRX start offset the information is cellsuch specific, andwideband allset UEs need to Defines the location inthat frequency for the generate preamble. Unrestricted is supported. pdcchUlDlBal parameter is used as an initial preamble format. identity group +tophysical layer identity. CQI report is received during the DRX know whether receive PHICH from 1generation or 3 value PRACH transmissions. Configuration also defines the zero correlation zone High speed flag for PRACH preamble of the split and as a sort of target value of OnDuration (due toits periodicities) and that the symbols. For UL scheduling recommended and respective maximum cell range. determines whether an unrestricted or a restricted algorithm adapting the split. Guidance configuration: The power ramping step sizetoparameter defines the may PRACH causefor small performance degradation that located next PUCCH set hasincrement tocells beisused by the UE. The unrestricted set, Neighbor should have different values, power step size for Random Access in DLpreamble whenever fresh wideband phichDur also puts a lower limit on the size ofand the either on the lower or upper edge of the The transmission maximum defines thein a and thus the parameter value 'false', is supported. three cell eNB all cells should have phyCellId which preamble transmission. channel quality information cannot be getTherefore, control region signalled by the PCFICH. bandwidth because PRB allocation maximum number ofUL Random Access Indicates the cell/PLMN combination is reserved belongs physical layer cell identity group. in time. Ittoifissame up of to an whether when isconsecutive setoperator to value (Extended), three for UEphichDur consist PRBs. If to transmissions. for operator use. For example, in gap ainneed three cell eNB, goodfor PhyCellIds prevent of periodic subband OFDMA symbols to bePRBs enabled PDCCH there is aactivation small between PUCCH and PRS Bandwidth terms of Note: The values n50, n100 and n200 should be Cells reserved for use are treated as not values are 0, 1, 2 operator CQI maxNrSymPdcch reporting and DRX in parallel and needs to be set to value 3. PRACH PRBs, UL scheduler cannot used. Determines the periodicity and offset of with the PRS barred by 'normal' UEs without a USIM AC 11 because ofinfo thissee restriction. For futher Table 6.9.3-1 in TS 36.211. utilize those effectively. prachoccasions forPRBs FDD or 15prsMutingInfo inserted. UEsiswith 11 should orconsisting 15 USIM The a bitAC string FreqOffset for each bandwidth be inserted 151-157: 160ms period are specific operator UEs and thus allowed to camp of 16 bit. Only the first prsMutingInfoset aligned with the parameters determining The prsMutingInfoPatternLen determines 471-477: 320ms period on and access such cells. The default value is not PatternLen bits will be into account the number of PRBs fortaken PUCCH, so used how many PRS Muting Info Bits are 1111-1117: 640ms period reserved. Number of DL Frames that are used for PRS per starting from prsMutingInfoBit1. that PRACH is located next to PUCCH. to describe PRS muting sequence. Thetransmission 2391-2397: 1280ms period PRS occasion FDD. With this PRS This means thefor first prsMutingInfoPatternLen It is recommended to set the value Power Boosting for PRS increases hearability and sequence starts from the The periodicity and offset can be computed can be repeated within a PRS occasion in order to bits ofthat the prsMutingInfo bit such PRACH doesit not overlap with allows for a more flexible use of the DL Tx power prsMutingInfoBit1 and corresponds to according This iswill thethe number ofthe cyclic shifts for PUCCH increase hearability of PRS string determine PRS Muting Info PUCCH RBs and isoccasion, located adjacent to the first positioning to 3GPP TS a36.211 formats 1/1a/1b in aRel9 resource block used pattern with given periodicity. Details of for a The parameter defines the delta offset index formix the PUCCH; thus recommended parameter prsMutingInfoBit2 corresponds to second of formats 1/1a/b and 2/2a/2b. the description can be found in decoding of the HARQ ACK / NACK information on alternatives are: positioning occasion and so on. The parameter defines offset index This parameter is one ofthe thedelta parameters in a for setthe TS36.355. PUSCH channel. 1) roundup(MaxPucchResourcedecoding of the Channel Quality Indicator (CQI) / which defines the maximum PUCCH allocation The parameter defines delta offset index Muting configuration allows to Size/2) if itmatrix is located at the theinformation lower edge,on or for the precoding indicator called as the MaxPucchResourceSize. All thePUSCH rest of the decoding of the Rank Indicator information on value the increase reuse of the PRS signal. 2) ulChBw-6-roundup(MaxPucchResourceSize/ The Qhyst parameter provides the hysteresis channel. parameters are related to each other according to PUSCH channel. PRS of individual cells can be muted in 2 ifdB it is at the in the cell reselection in forlocated ranking this formula: Minimum requiredcriteria quality level in intra-frequency order to increase hearability of cells with upper edge of the PUSCH area procedure. The parameter= is used to MaxPucchResourceSize nCqiRb + minimize neighbor cells the same frequency Affects the minimumreuse. required RX level in the cell. The MaxPucchResourceSize in pingpong. roundup{[((maxNumOfCce) + n1PucchAn Not recognized by UEs < Rel9 above defines the maximum number of Specifies the minimum required RX RSRP level in pucchNAnCs * 3 / deltaPucchShift ) * allocated PUCCH RBs, and it can be calculated the cell. deltaPucchShift] / (3*12)} + roundup (pucchNAnCs / Specifies the minimum with following formula: required RX RSRP level for (Qrxlevmin in 36.304) 8) the intra-frequency neighbouring E-UTRA cells. MaxPucchResourceSize = nCqiRb + parameter The maximum content resolution timer maxNumOfCce depends on dlChBw parameter: (Qrxlevmin in 36.304) roundup{[((rounddown (((maxNrSymPdcch defines the maximum amount of time allowed for - if dlChBw isModulation 5MHz thenand maxNumOfCce is 21 Defines the Coding Scheme (MCS) * 12 - 4) * dlChBw - roundup contention resolution. - ifbe dlChBw is 10MHz then maxNumOfCce is 43 3 to used for large size random access message Path loss threshold selecting one (phichRes * (dlChBwin/ dB 8)) required * 12 - 16)for / 36)) - ifcase dlChBw is 15MHz then maxNumOfCce is 65 in of initial access or handover. of the two groups of Random Access preambles. + n1PucchAn pucchNAnCs * 3 / deltaparameter determines the total number -This if dlChBw is 20MHz then maxNumOfCce is of 87nonThe UE willRA use preambles from group it PucchShift )only * preambles deltaPucchShift] (3*12)} + B iffrom dedicated that in a /UE can select All the rest ofsize theofparameters formula are O&M Defines the the Random Access preambles needs to send a large Msg3 AND its measured path roundup (pucchNAnCs / 8), (i.e. forA. contention based RA). The minimum parameters, and MaxPucchResourceSize hascannot a Group loss is less thaninPmax - are All parameters formula configurable Random Access Window parameter be zero. maximum allowedResponse value, which shallSize not be PREAMBLE_INITIAL_RECEIVED_TARGET_POW parameters defines the window size for the random access exceeded ER - DELTA_PREAMBLE_MSG3 As an example, if MaxPucchResourceSize response in TTIs. messagePowerOffsetGroupB (see 36.321 ch 5.1.2) equals to 7 and ulChBw is 10MHz (50 RBs), recommended prachFreqOff alternatives are 4 or 40 Small size random access MCS in uplink Small size random access data volume in uplink DL rate capping AMBR margin Rate capping AMBR margin in uplink Enable rate capping in downlink Enable rate capping in uplink Enable reduced bandwidth DL Maximum number of PRBs assigned in downlink Maximum number of PRBs assigned in uplink Minimum number of PRBs assigned in uplink Enable restricted PRB assignment in uplink Rank indication reporting enable Multiplier M for periodic RI reporting period Periodic ri reporting offset RACH root sequence Time to trigger for A2 by RSRQ to start redirect Related Hysteresis of Threshold Th4 for RSRQ Threshold Th4 for RSRQ Intra-frequency measurements power threshold (Rel9) Intra-frequency measurements quality threshold (Rel9) Intra-frequency measurements threshold Inter-freq and inter-RAT power meas threshold (Rel9) Inter-freq and inter-RAT quality meas threshold (Rel9) Inter-frequency and inter-RAT measurements threshold SI window length Periodicity Repetition Message Mapping Periodicity Repetition Message Mapping Periodicity Repetition SIB type Number cell changes high mobility Number cell changes medium mobility Cell reselection hysteresis high mobility Cell reselection hysteresis medium mobility Timer TCRmax Timer TCRmaxHyst Scheduling weight downlink for SRB Scheduling weight uplink for SRB SRS Configuration Power offset for SRS transmission power calculation Short term inactivity factor Synchronization signals transmission mode Timer T300 Timer T301 Timer T302 Defines the Modulation and Coding Scheme (MCS) to be used thevolume small size random access Defines thefor data to be used for small size message 3 in case of UL or DL data arrival. Random Access message 3 in case of UL DL The parameter determines the multiplier forornondata arrival. GBR (non-Guaranteed Bit Rate) radio bearers Margin factor for the comparison of the measured AMBR (Aggregated Maximum Bit Rate) in order to AMBR and the UE AMBR in uplink. The parameter switches the capping consider overhead caused byrate PDCP and RLC functionality on/off in direction. Rate layers. Enabling/disabling of downlink rate capping in uplink. capping functionality in downlink restricts non-GBR The parameter switches Restricted RB Assignment (non-Guaranteed Bit Rate) radio bearers bitrate to functionality on/off inMaximum thethe downlink direction. When AMBR (Aggregated Bit Rate). This parameter defines maximum UE-specific the functionality is enabled, the UE-specific PRB PRB assingment per TTI in downlink. Note that this Defines the maximum number of PRBs which assignment restricted limit defined in themay value will beisto rounded upto in athe RRM algorithm to fit be assigned a UE scheduled in UL when redBwMaxRbDl parameter. Defines the bandwidth minimum number of PRBs which may the system dependent RGB granularity. restricted PRB in uplink enabled. be assigned to assignment a UE scheduled inPRB ULiswhen Enabling/disabling the restricted Note that the actual amount ofuplink PRBs inassignment UL restricted PRB assignment in is enabled. functionality in uplink. allocation must be of the form 2^i*3^j*5^k where i, or j Determines whether RI reporting is is enabled (true) However, a lower number of PRBs allowed if the and k are block non-negative integers, so effectively the not (false). transport size with this number of PRBs and Multiplier M defining periodic feedback value will selected befor rounded down to theRI next value the MCS by AMC would exceed the UE reporting period. It defines the complying with the rule. The parameter defines the offset for periodic Rank capabilities. multiplier for the cqiPerNp which results in the time Indicator instance. The offset Note that reporting the actual amount of PRBs intells UL The premable generation is started from thethe Root periodicity for RI periodic reports. shift for themust periodic CQI/PMI reporting instance. allocation be of the form 2^i*3^j*5^k where i,isj Sequence which is pointed by the logical root RI periodicity = cqiPerNp * riPerM. When riPerM Timerange to trigger foroffset A2-RSRQ. The of the depends on the periodicity and k are non-negative integers, so effectively the sequence number. 64 preambles can be transmitted equal to 0for (M=1) the Duration theparameter event A2-RSRQ mustofbe (cqiPerNp) ofwhich periodic CQI/PMI reporting. Related Hysteresis Threshold for RSRQ value will bethat rounded toraised. next value complying in the such PRACH frame. Ifup one root is not enough to riPerOffset must be of set to -1the (CQI and Ri are valid, redirect is serving for redirection trigger. with the cell rule. generate all the 64 preambles, consecutive adjiacent) while when isthen set totheserving Threshold for RSRQ ofriPerM intra-frequency cell. Parameter is used within the entry and leave number is untilriPerOffset the full setmust isthen generated. 1 (M=2)threshold the parameter set to 0 (inis If RSRQ ofselected serving value < Th4Rsrq re-direct Power condition ofsequence the A2-RSRQ triggered RACH root is cell specific reporting information and this case CQI and alternate). triggered. Not recognized by RI UEs < Rel9 condition. neighbouring cells should have a different value. Quality threshold The IE root value is multiplied by 2. RACH sequence system Not byparameter UEsis <transmitted Rel9 The recognized Sintrasearch definesinthe threshold information. (in dB) for intra-frequency measurements. Power threshold The UE can omitbymeasurements Not recognized UEs < Rel9 of intra-frequency Quality treshold neighbor cells if the serving cell is above a certain Not by UEs < Rel9 defines the threshold threshold. The recognized sNonintrsearch parameter (in dB) for inter-RAT and inter-frequency The parameter SI Window Length defines the measurements. common System Information window for Indicates the periodicity of thescheduling SI-2 message. all SIs. The parameter System Information 2 Periodicity Indicates the repetition of the SI-2 indicates the repetition period of the SI-2 message. message within the SI window. Indicates which System Information Block is contained Indicates the repetition period of the SI-3 message. in theparameter SI-2 message. The System of Information 3 Periodicity Indicates the repetition the SI-3 message within The parameter System period Information Mapping indicates the repetition of the2SI-3 message. the SI window. Information indicates which System Information Indicates which System Information Block is The parameter System Information 3 Repetition Blocks is contained in the SI-2 message. contained Periodicitythe of repetition this SI-Message. Formessage SI-message indicates of the SI-3 within in the SI-3 message. containing SIB10/11/12 (warning notifications) a the SI window. Number of SI-Message Repetitions The parameter Information 3 Mapping small value, e.g.System 80ms should be used. This SI-Message should be System broadcasted Information indicates Information Indicates which SIB iswhich contained in the SI-Message This SI-Message is broadcasted with the "Repetition" Block is contained in the SI-3 message. This SIB Information Element is contained in the administered The parameter defines the number of cell changes times in each of its related SI-Message broadcast SIMessage periodicity. to enter the high mobility state. the idle mode, it windows. The repetitions can beFor used by UE The parameter defines the number of cell changes scheduled in to the System Information corresponds NCR_H in TS 36.304. for enhanced decoding in case of bad radio to enter the List medium mobility state. For idle mode, it Scheduling The parameter defines an additional hysteresis conditions. corresponds to NCR_M inhigh TS 36.304. value to be applied in the mobility state to the If theparameter SI-Message contains a warninghysteresis The defines an additional cell reselection procedure hysteresis value (q-Hyst). message (SIB10/11/12), the number of repetitions value be applied in the medium mobility state to Timer to TCRmax defines the duration forcorresponds evaluating Value db-6 corresponds to -6dB, could be raised autonomously bydb-4 eNodeB ifmode, needed the cell reselection procedure hysteresis value (qthe criteria to enter mobility states. For idle to -4dBTCRmaxHyst and so on. defines Timer theforadditional durationit (absolute maximum code rate SIB (maxCrSibDL) Hyst). corresponds tothe TCRmax in TS 36.304. for evaluating criteria enter normal mobility is exceeded, as the message would be Value db-6scheduling corresponds toto-6dB, db-4 corresponds Downlink weight forsize Signalling Radio state. For idle mode, it corresponds to TCRmaxHyst too big to transmit otherwise). to -4dB 1and so2 on. Bearer and for the uplink scheduler in MAC. Uplink scheduling weight for Signalling Radio in TS 36.304. Bearer 1 and 2 for the scheduler in MAC. Parameter to define theuplink srs configuration. Each option defines the values of a set of 3GPP UE specific power offset to be used for Sounding parameters (Csrs, Bsrs) dedicated to SRS. See Reference Signal powerTimer calculation Factor with whichintransmission the DRX Inactivity of the in Tables 5.5.3.2-x TS.36.21l.. UE uplink power control equation (P3). DRX profile as applied forconfiguration awhether UE is multiplied in order Operator choses a given number for a The parameter determines Primary and to determine how long to keep a UE UL cell and the system depending on system BW and Secondary Synchronization Signals (PSS, SSS) are Timer T300 supervises thethe RRC connection synchronized following last transmission of new configuration value define correct sounding transmitted into a cell via one antenna port establishment procedure. data. setting. Timer T301orsupervises the RRC connection (SingeTx) via twoofantenna ports using TX reStart: Transmission RRCConnectionRequest All the odd numbered configurations imply 10ms UE establishment procedure. diversity with Precoding Vector Switching eNB sends this parameter to the UE in the(PVS). message Stop: Reception or periodicity, while of theRRCConnectionSetup configurations Start: Transmission ofeven-numbered RRC CONNECTION REJECT. RRCConnectionReject message, cell re-selection imply UEwill periodicity set to 5ms. RRCConnectionReestabilshmentRequest The UE consider access to the cell as barred for and upon abortion of connection establishment ulChBw =20MHz => Configuration 1: SRS C1: by Stop: Reception of RRCConnectionReestablishment the time specified by t302. upper layers CSRS=1, BSRS=2 (16 PRBs per UE); SRSmessage C2: or RRCConnectionReestablishmentReject CSRS=1, PRBs per as well as BSRS=3 when the(4 selected cellUE) becomes At expiry: Perform theC1: actions as specified in (16 Configuration 2: SRS CSRS=1, BSRS=2 unsuitable 36.331, 5.3.3.6 PRBs per UE); SRS C2: CSRS=1, BSRS=3 (4 PRBs per Go UE)to RRC_IDLE At expiry: Timer T304 for interRAT Timer T304 for interRAT GSM Timer T304 intra-LTE Timer T304 for eNACC to GSM Timer T310 Timer T311 Timer T320 Timer ExtendedWaitTime-r10 Periodic BSR time Periodic PHR timer Prohibited PHR timer Retransmission BSR timer Cell reselection timer Timer to store UE context Time alignment maximum offset Time alignment timer Time alignment timer margin Tracking area code Q-threshold for reselection towards lower prio RAT/freq Threshold serving low Threshold th1 for RSRP Threshold th2 GERAN for RSRP Threshold th2 interFreq for RSRP Threshold th2 WCDMA for RSRP Threshold th2a for RSRP Threshold th3 for RSRP Threshold th3a for RSRP Threshold th4 for RSRP Time to trigger SF high Time to trigger SF medium TTI bundling BLER target TTI bundling BLER threshold TTI bundling SINR threshold Uplink channel bandwidth Uplink combination mode Uplink reference signals cyclic shift UL AMC target BLER Enable all TBs in UL AMC UL AMC MCS switch period UL ATB period Alpha Enable closed loop uplink power control Preamble initial received target power Lower RSSI threshold for PUCCH power command decision Lower RSSI threshold for PUSCH power command decision Lower SINR threshold for PUCCH power command decision Lower SINR threshold for PUSCH power command decision Include PUCCH measurements in CL power control Include PUSCH measurements in CL power control This timer value is passed to the UE in an RRC:MobilityFromEUTRANCommand message and This timer value is used eNodeB internally to is used by the UE to identify CCO Failure estimate thesupervises time the UE may spend tocompletion access theof Timer T304 the successful target GSM or system after receiving RRC:MOBILITY a handover cell change. 3GPP Timer T304 (used for RRC Re-RRC FROMdefined EUTRAN COMMAND before starting Establishment) for the case of eNACC to GSM Re-Establishment. It is used eNodeB internally to Timer T310 supervises the recovery from physical This timer value is passedtimer to the an RRC: calculate the supervision forUE theinHandover layer problems. Timer T311Phase supervises the RRC connection re- is MobilityFromEUTRANCommand message and Execution (TS1RELOCoverall) establishment. used by the UE to identify CCO Failure Despite this timer is transparently provided priorities by T320 defines the validity time of dedicated GERAN Target system its value is needed in defined in IdleModeMobilityControlInfo. tExtendedWait suppresses the reselection of LTE a cellto calculate TS1RELOCOverall for a period while. of the periodic Buffer Status Report for Time eNB sends this to the UE buffer in the message the reporting of parameter the transmission UE configuration forUE sending periodic power RRC CONNECTION REJECT and RRC utilization. Further information to the O&M headroom reports. CONNECTION RELEASE, and only in case of Minimum time between two parameterintermediate can be found in [SFS-BM]. Delay Tolerant access request. The UE will consider consecutive Power Headroom Reports. Time when the regular BSRsfor are repeated when the access to the cell as barred the time specified by UE has data available for transmission teWait. The Treselection parameter defines theand cell no corresponding ULvalue. grant Itisallows received so far. of the reselection This timer istimer started when an UEaveraging enters a cell by target cell quality before cell reselection is handover or the RRC Re-Establishment. Determines maximum allowed Time Alignment performed. The timer controls how long the TA context needed to offset. If the value is exceeded, command is sent Determines the HANDOVER number of subframes which send an X2AP: REPORTafter is stored ina to the UE to adjust UL timing. UE it is out-of-sync in UL if no Time the assumes new cell after handover. The parameter defines lead with respect to the Alignment command was No special action istime triggered on timer expiry taTimer expiration forreceived. starting send the A code that commonly identifies thetotracking area periodic timing advance command. for all PLMNs listed for this cell. This specifies the Squal threshold used by the UE on the serving cell whenfor reselecting towards a lower Specifies the threshold the serving frequency priority RAT/ frequency. used in reselection evaluation towards lower priority Threshold for RSRP. If RSRP Not recognized by UEs < Rel9of serving cell is EUTRAN frequency or RAT. greater than only serving measured. Threshold forTh1, RSRP ofthe serving cellcell for is start of GERAN Measurements Threshold for RSRP of serving cell. If the value is Threshold for RSRP ofinter serving cell. If the value is below Th2_InterFreq, frequency Threshold for RSRP of serving start of below threshold2GERAN (eventcell A2)for , GERAN measurements are started. WCDMA Measurements measurements are started. Threshold for RSRP of serving cell for stopping of Threshold for RSRP ofMeasurements serving cell. If the value is Inter-RAT (InterFreq) Threshold for RSRP of serving RSRP of below threshold2Wcdma (eventcell. A2) If WCDMA Threshold for RSRP of serving cell. If,and Inter-RAT serving cellfor is RSRP lower than threshold3 RSRP of measurements are started. Threshold of intra-frequency neighbor (InterFreq) measurements are active and value neighbor cell is greater than threshold3a, a cell. If RSRP of serving cell is lower than threshold3 exceeds Th2a (event then Inter-RAT Threshold fortriggered. RSRP ofA1) intra-frequency neighbor cell handover is and RSRP of of neighbor cell isTh2_XXX greater than measurements are stopped. <=re-direct Th2a foris cell. If RSRP serving value < Th4 then The timeToTrigger in ReportConfigEUTRA and in threshold3a, a handover is GSM triggered. XXX= InterFreq, WCDMA, triggered. ReportConfigInterRAT are multiplied with the scaling The timeToTrigger in ReportConfigEUTRA and in factor applicable for theare UE's speed state, thatscaling is, if ReportConfigInterRAT multiplied with the BLER target value for link adaption while in TTI the UEapplicable is in the high mobility defined factor for the UE's state speedasstate, thatinis,TS if Bundling mode 36.304 . the Controls BLER threshold for switching UEs from the UE is in the medium mobility state as defined in non-bundling mode into TTI-Bundling TS 36.304. SINR threshold for switching UEs frommode TTI-Bundling mode into non-TTI-bundling mode Uplink channel bandwidth defines the UL bandwidth for the eNB in a cell,mode, and also defines Identifies thetransmission uplink combination the number of available Physical Resource Blocks. possibilities are MRC and IRC. Defines cyclic shift of uplink reference signals. The uplink channel bandwidth mapping number IRC reception is supported on FSM Rel3toonly. of Physical Resource Blocks is: Defines target Block Error Ratio for uplink Adaptive 5.0 MHz = 25 ULCoding. PRBS Modulation and O&M switch for UL enabling/disabling the counting of all 10.0 MHz = 50 PRBS Transport Blocks instead of the 1st 15.0 parameter MHz = 75 UL PRBS The defines the period intransmission sent Transport Transport Blocks foruplink defining uplink Modulation Adaptive 20.0 MHz = 100 UL PRBS Maximum 10 MHz uplink Blocks (TBs) when Adaptive and The parameter defines the period in MCS Modulation and Coding inner loop factor. channel bandwidth may be used with single FSMD Coding inner loop functionalities should be increase/decrease events when uplink Adaptive UE-specific fractional loss compensation to configure more thanpath 2 cells orfunctionality with single should FSME executed. Depending on the parameter Transmission Bandwidth (ATB) factor: alpha value in UE uplink power control to configure more than 3 cells. ulAmcEnableAllTbs, all TBs or 1st transmission TBs Enabling/disabling of the closed loop uplink power be performed. MCS change eventsreceived are calculated equations (P1) and (P3) control SNR have been calculated forto the period. MCS control and UL ATB functionality is executed every time the The parameter defines theon initial power forinner Random variance (fairness) for user data sounding increase/decrease based the and UL AMC loop event counter reaches the value defined in the Access preamble transmission. reference symbol. factor can be onlyofdone after the period ends.for the Lower threshold the power control window parameter. RSSI (signal level) for PUCCH component Lower threshold of the power control window for the RSSI level) / SRS window component Lower(signal threshold of for the PUSCH power control for the SINR quality) forpower PUCCH component Lower(signal threshold of the control window for the SINR (signal quality) for PUSCH / component Including or excluding of RSSI andSRS SINR measurements from PUCCH the SINR closed loop PC Including or excluding of RSSIinand component. measurements from PUSCH in the closed loop PC component. TPC command in random access response Time interval for power command decisions Include SRS measurements In CL power control Upper RSSI threshold for PUCCH power command decision Upper RSSI threshold for PUSCH power command decision Upper SINR threshold for PUCCH power command decision Upper SINR threshold for PUSCH power command decision UL scheduler FD type Max packet aggregation UL Minimum PRB allocation for UEs which are power limited Minimum UL transport block size Scheduling method of the UL scheduler Cell individual offset change upper margin Unique sector electronics ID TPC command indicated in the Random Access response related to Random AccessRSSI message 3 or Time interval for sending averaged and SINR 1st scheduled uplink transmission. values to the decision matrix toand determine Including or excluding of RSSI SINR power corrections in closed loop uplink power control. measurements Upper threshold of the power control window for the from SRS in the closed loop PCcomponent. component RSSI level) Upper(signal threshold of for the PUCCH power control window for the RSSI level) / SRS window component. Upper(signal threshold of for the PUSCH power control for the SINR quality) forpower PUCCH component. Upper(signal threshold of the control window for the SINR (signal quality) for PUSCH/SRS component. Scheduler Type for FD scheduler Defines thenumber scheduling method which Maximum of aggregated VoIP packets in UL shall be20 applied in frequency domain for (IAT of ms) Defines the minimum PRB allocation UEs which the scheduler in UL number of VoIPfor Defines thelimited. maximum packets are power -which The "RoundRobinFD" scheduler Defines thebe minimum UL TBS (segment size). UL transmission This ismay used foraggregated the UEs forfor which the maximum assigns the physical resources equally The lower limit of the range is defined equal to the based on a IAT of 20 ms. If the IAT of the Defines scheduling which shall be number oftransport PRBs due tomethod power limitation isVoIP limited to fair to thethe selected by the(TBS) TD scheduler minimum block size in the Table packets isUEs 10 ms the maximum packet aggregation applied in the cell for the UL branch. low values (e.g. <= 5). until the PRBs are sufficient for the This parameter defines the maximum value that a 7.1.7.2.1-1 in 3GPP for TSthe 36.213. is {1,3,5,7}. Selects the method scheduling service the physical of theof the UEsbyin CIO canor assume, whenresources changed autonomously Unique sector electronics ID provided UL. Two methods can be chosen - the by channel cell are exhaust the eNB during e.g. the intra-frequency load to the The upperUL limit of the range is defined equal operator. scheduler and the interference aware -unaware The "ExhaustiveFD" scheduler balancing TBS belonging to modulation order 2 and 10 PRBs. This parameter allows the operator UL scheduler. assigns in the priority sequence defined function. to assign a unique sector electronics ID by scheduler as many physical to athe cellTD period. resources as possible to the UEs until the Note: number of PRBs are sufficient the In RL30 RIU coupled mode cellfor information service or the resources of the cell are defined to the LNCEL-useId exhaust parameter is not used after system -upgrade The "MixedFD" to RL40.scheduler is a joint FD scheduler which assigns the PRBs for SRB and GBR bearers by the exhaustive FD scheduler and the PRBs for the nonGBR bearers by the Round Robin FD scheduler to the UEs Modification Range and step NSN Default On-line 0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms 128ms 160ms (6), 256ms 0ms (0),(4), 40ms (1), (5), 64ms (2), 80ms (3), (7), 320ms (8), 480ms (9), 512ms (10), 100ms (4), 128ms (5), 160ms (6), 256ms 0ms (0), 40ms (1), 64ms (2), 80ms (3), 640ms (11),(8), 1024ms (12), (13), (7), 320ms 480ms (9), 1280ms 512ms (10), 100ms (4), 128ms (5), 160ms (6), 256ms 2560ms (14), 5120ms (15), notUsed (16) 0ms (0),(11), 40ms (1), 64ms (2), 80ms (13), (3), 640ms 1024ms (12), (7), 320ms (8), 480ms (9), 1280ms 512ms (10), 100ms (4), 128ms (5), 160ms (6), 256ms 2560ms (14), 5120ms (15) 0ms (0),(11), 40ms (1), 64ms (2), 80ms (13), (3), 640ms 1024ms (12), (7), 320ms (8), 480ms (9), 1280ms 512ms (10), 100ms (4), 128ms (5), 160ms (6), 256ms 2560ms (14), 5120ms (15), notUsed (16) -15...15(11), dB, step 0.5 dB 1280ms (13), 640ms 1024ms (7), 320ms (8), 480ms(12), (9), 512ms (10), 2560ms (14), 5120ms (15), notUsed (16) 120ms 240ms (1),(12), 480ms (2), 640ms 640ms (0), (11), 1024ms 1280ms (13), (3), 1024ms (4), 2048ms (5), 5120ms 2560ms (14), 5120ms (15) 0ms (0), 40ms (1), 64ms (2), 80ms (3),(6), 10240ms (7), 1min(5), (8), 6min (9), 12min 100ms (4), (6), 120ms (0), 128ms 240ms (1), 160ms 480ms (2), 256ms 640ms (10), 30min (11), 60min (12) (7), 320ms (8), 480ms (9),(5), 512ms (10),(6), (3), 1024ms (4), 2048ms 5120ms 0ms (0),(11), 40ms (1), 64ms (2), 80ms (13), (3), 640ms 1024ms (12), 1280ms 10240ms (7), 1min (8), 6min (9), 12min 100ms (4), 128ms (5), 160ms (6), 256ms 2560ms (14), 5120ms (15) Bit 0: 30min AC 11,(11), Bit 1:60min AC 12, Bit 2: AC 13, Bit (10), (12) (7), 320msBit(8), 480ms (9), 512ms (10), 3: 4:16s AC(2), 15,32s 4sAC (0),14, 8s (1),1024ms (3), 64s (4), 640ms (11), (12), 1280ms (13), 128s (5), 256s (6), 512s (7) 2560ms (14), 5120ms (15) 0% (0), 5% (1), 10% (2), 15% (3), 20% (4), 25% (6), (7),Bit 50% (8),13, 60% Bit 0:(5), AC 30% 11, Bit 1: 40% AC 12, 2: AC Bit (9), 70% (10), 75% (11), 80% (12), 85% 3: AC 14, Bit 4: AC 15, 4s (0),90% 8s (1), (2),(15) 32s (3), 64s (4), (13), (14),16s 95% 128s (5),5% 256s 512s 0% (0), (1),(6), 10% (2), (7) 15% (3), 20% (4), 480ms (9) On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line 25% (6), (7),Bit 50% (8),13, 60% Bit 0:(5), AC 30% 11, Bit 1: 40% AC 12, 2: AC Bit (9), 70% (10), 75% (11), 80% (12), 85% 3: AC 14, Bit 4: AC 15, 4s (0), 8s (1), 16s (2), 32s (3), 64s (4), (13), 90% (14), 95% (15) 128s (5),5% 256s 512s 0% (0), (1),(6), 10% (2), (7) 15% (3), 20% (4), 25% (5), 30% (6), 40% (7),Bit 50% (8),13, 60% Bit 0: AC 11, Bit 1: AC 12, 2: AC Bit (9), 70% (10), 75% (11), 80% (12), 85% 3: AC 14, Bit 4: AC 15, 4s (0),90% 8s (1), (2),(15) 32s (3), 64s (4), (13), (14),16s 95% 128s (5),5% 256s 512s 0% (0), (1),(6), 10% (2), (7) 15% (3), 20% (4), 480ms (9) 480ms (9) 640ms (3) 320ms (8) 640ms (3) 320ms (8) 0 0 0 0 - 25% (6), (7),Bit 50% (8),13, 60% Bit 0:(5), AC 30% 11, Bit 1: 40% AC 12, 2: AC Bit (9), 70% (10), 75% (11), 80% (12), 85% 3: AC 14, Bit 4: AC 15, 4s (0), 8s (1), 16s (2), 32s (3), 64s (4), (13), 90% (14), 95% (15) 128s (5),5% 256s 512s 0% (0), (1),(6), 10% (2), (7) 15% (3), 20% (4), 25% (5), 30% (6), 40% (7), 50% (8), 60% false (0), true (1) (9), 70% (10), 75% (11), 80% (12), 85% false 90% (0), true (1)95% (15) (13), (14), false (0), true (1) false (0) Requires object locking 0 (false), 1 (true) false (0) On-line false (0), true (1) false (0) On-line QPSK (0) On-line QPSK (0), 16QAM (1), 16QAMHighMCS (2) false (0), true (1) On-line false (0), true (1) false (0) On-line false (0), true (1) true (1) none (0), Dedicated (1), Coupled (2) none (0) On-line 0 (false), 1 (true) false (0) Requires object locking 0 (false), 1 (true) false (0) On-line 0 (false), 1 (true) false (0) On-line eUlLa (5) On-line off (0), slowAmc (1), slowAmcATB (2), slowAmcOlla 0...840, step 1(3), slowAmcOllaATB (4), eUlLa (5) 0...840, step 1 On-line 0...840, step 1 On-line 0... 30 % 5 On-line 0... 30 % 10 On-line 0...4200, step 1 35 On-line 0...4200, step 1 60 On-line 0...200, step 1 15 On-line On-line On-line On-line On-line On-line BTS restart needed On-line 0 true (1) true (1) true (1) 15 20 70 On-line 0...200, step 1 On-line 1...32, step 1 On-line unlocked (1), shutting down (2), locked (3) On-line -5...91, step 1 On-line extendedDrxOnly (0), allDrx (1), allUEs (2) On-line allEqual (0), onlyX2 (1) On-line 0...65535, step 1 On-line On-line n4 (0), n8 (1), n12 (2), n16 (3), n24 (4), n32 (5), n48 step (6), n64 0...503, 1 (7), n84 (8), n96 (9), n128 (10), n168 (11), n252 (12), n504 (13), 0...60, step 2 noRange (14) 0.25 (0), 0.5 (1), 0.75 (2), 1 (3) On-line 0.25 (0), 0.5 (1), 0.75 (2), 1 (3) On-line barred (0), notBarred (1) On-line 1... 100 On-line -24dB (0), -22dB (1), -20dB (2), -18dB (3), -16dB (4), -14dB (5), -12dB (6), -10dB (7), 0...80 characters -8dB (8), -6dB (9), -5dB (10), -4dB (11), 0...7, step 1-2dB (13), -1dB (14), 0dB (15), -3dB (12), 1dB (16), 2dB (17), 3dB (18), 4dB (19), 15...15 characters 5dB (20), 6dB (21), 8dB (22), 10dB (23), 1...8 step 1 dB 12dBdB, (24), 14dB (25), 16dB (26), 18dB (27), 20dB -34...-3 dB,(28), step 22dB 1 dB (29), 24dB (30) 0dB (15) 5ms (0), 10ms (1), 20ms (2), 40ms (3), 80ms (4) (0), small (1), medium (2), large very_small 20ms (2) On-line (3) false (0), true (1) Requires object locking FBT1 (0), FBT2 (1) FBT2 (1) Requires object locking 2ms (0), 5ms (1), 10ms (2), 20ms (3) 20ms (3) Requires object locking 1...4, step 1 On-line Requires object locking On-line On-line Requires object locking On-line On-line Requires object locking On-line 20 1 locked (3) 47 extendedDrxOnly (0) allEqual (0) 65536 0 notBarred (1) 100 large (3) true 1 On-line false (0), true (1) true (1) On-line -2 (0), 0 (1), 2 (2) 0 (1) On-line 1 (0), 3 (1), 5 (2) 1 (0) On-line -2 (0), 0 (1), 1 (2), 2 (3) 0 (1) On-line -2 (0), 0 (1), 2 (2) 0 (1) On-line -2 (0), 0 (1), 2 (2) 0 (1) Requires object locking 4n (0), 8n (1), 16n (2), 32n (3), 64n (4) 64n (4) On-line 32rf (0), 64rf (1), 128rf (2), 256rf (3) 128rf (2) On-line -8... 8 dB 0 On-line -1...6, step 1 1 Requires object locking 1...3, step 1 2 On-line false (0), true (1) false On-line false (0), true (1) false (0) Requires object locking 0...20 dB, step 0.1 dB 0 dB On-line 1.4 MHz (14), 3 MHz (30), 5 MHz (50), 10 MHz false (0), (100), true (1)15 MHz (150), 20 MHz (200) 0...100 %, step 1 % On-line QPSK (0), 16QAM (1), 64QAM (2) QPSK (0) TXDiv (1) On-line SingleTX (0), TXDiv (10), 4-way TXDiv (11), (0), Static false trueOpen (1) Loop MIMO (20), Dynamic Open Loop MIMO (30), 1 db (0), 3 db (1), 6 db (2), infinite (3) Closed Loop Mimo (40), Closed Loop 0...6 dB,(4x2) step 0.1 MIMO (41)dB On-line 0...6 dB, step 0.1 dB BTS restart needed On-line Requires object locking On-line On-line 10 MHz (100) false 0% true 3 db (1) 0 dB 0 dB On-line 0dB (0), 1.77dB (1), 3dB (2), 4.77dB (3), 6dB (4) step 0.1 0.1..99.9, On-line 0...15, step 1 On-line false (0), true (1) true 0...10 dB, step 0.01 dB 0 dB Requires object locking Requires object locking 0dB (0) 10 2 Not modifiable DCI format 1C (0) DCI format 1C (0) Requires object locking TTA (0), PFsch (1) PFsch (1) On-line 0.9...0.99, step 0.01 On-line On-line Not modifiable On-line 0.98 not used (0), PRBs with PSS or SSS used PRBs with PSS or SSS and PBCH used (2) (1), with(1) PSS or SSS and PBCH falsePRBs (0), true true used (2) 1 (1) 1 (1) 0...50, step 1 45 On-line 10 (10), 20 (20), 30 (30), 40 (40), 50 (50), 60 (60), 80 80ms (80), 200 40ms (40), (80),(200) 160ms (160) On-line 6 (6), 8 (8), 10 (10), 20 (20) On-line Not modifiable 101 (101) 200 (200) 160ms (160) 6 (6) 101 (101) On-line 0...50, step 1 30 On-line 4 (4), 6 (6), 8 (8) 4 (4) On-line 750 (750), 1280 (1280), 1920 (1920), 2560 (2560) 320ms (320), 640ms (640), 1280ms On-line On-line Not modifiable (1280), 10 (10),2560ms 20 (20), (2560) 30 (30), 40 (40), 50 (50), 60 (60), 80 (80), 100 (100), 200 (200) 102 (102) On-line 0...50, step 1 On-line 4 (4), 6 (6), 8 (8), 16 (16), 24 (24), 33 (33) On-line 1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 8 (8) On-line 20ms (20), 40ms (40) On-line 1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 8 (8), 10 (10) 2 (2) Not modifiable 2560 (2560) 1280ms (1280) 10 (10) 102 (102) 30 16 (16) 4 (4) 40ms (40) 6 (6) 2 (2) On-line 0...50, step 1 40 On-line 1 (1), 2 (2), 4 (4), 6 (6) 4 (4) On-line 10 (10), 20 (20), 30 (30), 40 (40), 50 (50), 60 40 (60), (40), 80 80 (80) (80) 10 (10) 1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 8 (8), 10 (10) 3 (3) 6 (6) On-line 0...50, step 1 30 On-line 1 (1), 2 (2), 4 (4), 6 (6) On-line 200 (200), 300 (300), 500 (500), 750 (750), 1280 (1280), 1920 (1920), 2560 (2560) 160 (160), 320 (320) 500 (500) 10 (10), 20 (20), 30 (30), 40 (40), 50 (50), 60 (60), 80 (80), 100 (100) 4 (4) 10 (10) On-line On-line Not modifiable On-line On-line Not modifiable 80 (80) 3 (3) 4 (4) 320 (320) 4 (4) On-line 0...50, step 1 On-line 4 (4), 6 (6), 8 (8), 16 (16), 24 (24), 33 (33) 16 (16) On-line 750 (750), 1280 (1280), 1920 (1920), 2560 (2560) 640 (640), 1280 (1280), 2560 (2560) 2560 (2560) 10 (10), 20 (20), 30 (30), 40 (40), 50 (50), 60 (60), 80 (80), 100 (100), 200 (200) 5 (5) 10 (10) On-line On-line Not modifiable 20 2560 (2560) 5 (5) On-line 0...50, step 1 On-line 4 (4), 6 (6), 8 (8), 16 (16), 24 (24), 33 (33) 16 (16) On-line 1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 8 (8) 4 (4) 10 On-line 20ms (20), 40ms (40) On-line 1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 8 (8), 10 (10) 2 (2) Not modifiable 40ms (40) 6 (6) 2 (2) On-line 0...50, step 1 40 On-line 4 (4) On-line 1 (1), 2 (2), 4 (4), 6 (6) 10ms (10), 20ms (20), 40ms (40) On-line 1...16, step 1 On-line 2...124, step 2 On-line 10 (10), 20 (20), 30 (30), 40 (40), 50 (50), 60 (60), 80 80ms (80) (80) 40ms (40), On-line On-line Not modifiable 1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 8 (8), 10 (10) 3 (3) 40ms (40) 1 124 10 (10) 80ms (80) 6 (6) 3 (3) On-line 0...50, step 1 30 On-line 1 (1), 2 (2), 4 (4), 6 (6) 4 (4) On-line 20ms (20), 40ms (40) 40ms (40) On-line 1...16, step 1 On-line 2...124, step 2 On-line 1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 8 (8), 10 (10),(160), 20 (20), 30 (30), 40 (40), 50 (50), 160ms 320ms (320) 60 (60), 80 (80), 100 (100), 200 (200), 300 10 (10), 20(500), (20), 30 (30), 40 (40), (50), (300), 500 750 (750), 1280 50 (1280), 60 (60), 80 (80), 100 (100) 1920 (1920), 2560 (2560) 4 (4) On-line On-line Not modifiable 5 6 50 (50) 320ms (320) 10 (10) 4 (4) On-line 0...50, step 1 On-line 4 (4), 6 (6), 8 (8), 16 (16), 24 (24), 33 (33) 16 (16) On-line 80ms (80) On-line 10ms (10), 20ms (20), 40ms (40), 80ms (80), 1...16,160ms step 1(160) On-line 2...124, step 2 On-line 1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 8 (8), 10 (10),(640), 20 (20), 30 (30), 40 (40), 50 (50), 640ms 1280ms (1280), 2560ms 60 (60), 80 (80), 100 (100), 200 (200), 300 (2560) 10 (10), 20(500), (20), 30 (30), 40 (40), (50), (300), 500 750 (750), 1280 50 (1280), 60 (60), 80 (80), 100 (100), 200 (200) 1920 (1920), 2560 (2560) 5 (5) On-line On-line Not modifiable 20 4 4 50 (50) 2560ms (2560) 10 (10) 5 (5) On-line 0...50, step 1 On-line 4 (4), 6 (6), 8 (8), 16 (16), 24 (24), 33 (33) 16 (16) On-line 80ms (80) On-line 10ms (10), 20ms (20), 40ms (40), 80ms (80), 1...16,160ms step 1(160), 320ms (320), 640ms (640) 2...124, step 2 On-line Not used (0), barred (1), Not barred (2) - On-line 10...50, step 5 30 On-line 20...50, step 5 30 On-line 1...6, step 1 3 On-line 1...4, step 1 1 On-line 1...5, step 1 1 On-line 0.5...0.9, step 0.05 0.8 Requires object locking 0...65535, step 1 0 Requires object locking 0...65535, step 1 18000 On-line 0... 16777215 - On-line false (0), true (1) true (1) On-line false (0), true (1) true (1) On-line false (0), true (1) false (0) BTS restart needed false (0), true (1) true (1) On-line 10 16 32 On-line false (0), true (1) false (0) On-line false (0), true (1) true (1) Not modifiable BTS restart needed 0...268435455, step 1 0...3000000 kHz, step 1 kHz On-line fc0 (0), fc1 (1), fc2 (2), fc3 (3), fc4 (4), fc5 (5), fc6 (6), fc7 (7), fc8 fc3 (8), (3), fc9 fc4 (9), (4), fc11fc5 fc0 (0), fc1 (1), fc2 (2), (10), fc13 (11), fc15 (12), fc17 (13), fc19 (5), fc6 fc1 (1), fc2 (2), fc3 (3), fc4 (4), fc0 (0), fc5 (14) (6), fc7 (7), fc8 (8), fc9 (9), fc11 (10), (5), fc6 fc1 (1), fc2 (2), fc3 (3), fc4 (4),fc13 fc0 (0), fc5 (11), fc15 (6), fc7 (7), fc8 (8), fc9 (9), fc11 (10), fc13 (5), fc6 (6), fc7 (7), fc8 (8), fc9 (9), fc11 (12), fc17 (13), fc19 (14) fc0 (0), fc1 (1), fc2 (2), fc3 (3), fc4 (4), fc5 (11), fc15 (10), fc13 (11), (12), fc19 (5), fc6 (6), fc7 fc15 (7), fc8 (8),fc17 fc9 (13), (9), (4), fc11 (12), fc17 fc19(2), (14) fc0 (0), fc1(13), (1), fc2 fc3 (3), fc4 fc5 (14), notUsed (15) (10), fc13 (11), fc15 (12), fc17 (13), fc19 (5), fc6 (6), fc7 (7), fc8 (8), fc9 (9), fc11 fc0 (0), fc1 (1),(15) fc2 (2), fc3 (3), fc4 (4), fc5 (14), notUsed (10), fc13 (11), fc15 (12), fc19 (5), fc6 (6), fc7 fc8 (8),fc17 fc9 (13), (9), (4), fc11 fc0 (0), fc1 (1), (7), fc2 (2), fc3 (3), fc4 fc5 (14) (10), fc13 fc15 (12), (13), fc19 (5), fc6 (6),(11), fc7(0), (7),Reserved fc8 (8),fc17 fc9 (9), fc11 Not Reserved (1) (14) (10), fc13 (11), fc15 (12), fc17 (13), fc19 0...999, step 1(15) (14), notUsed 0...999, step 1 On-line 2...3, step 1 On-line none (0), l2only (1), l2andl3 (2) On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc2 (2) Not Reserved (0) none (0) BTS restart needed 0...29, step 1 0 On-line 1...8, step 1 5 On-line 1...16, step 1 5 On-line 1...7, step 1 5 On-line 4...28, step 4 12 Not modifiable interSubFrame (0) interSubFrame (0) scenario1 (1), scenario 3 (3) - On-line 0...15 dB, step 0.5 dB - On-line 0...15 dB, step 0.5 dB - On-line 0...15 dB, step 0.5 dB - On-line 0...15 dB, step 0.5 dB - On-line 0...15 dB, step 0.5 dB 2 dB On-line 0...15 dB, step 0.5 dB - On-line 0...15 dB, step 0.5 dB - On-line 0... 100 % 0 On-line 0... 100 % 60 On-line 0... 100 % 85 On-line 0...100 %, step 1 % 80% On-line On-line 0.001 (1), 0.002 (2), 0.005 (5), 0.01 (10), 0.02 (20), 0... 100 % 0.05 (50), 0.1 (100), 0.2 (200), 0.5 (500), 1 0... 100 (1000), % 2 (2000), (5000), 0...100 %,5step 1 %10 (10000) On-line 0... 7 - 0... 100 % 0 Requires object locking On-line On-line 1 (1000) 50 75 50% On-line 0...2000 ms, step 5 ms 200 ms On-line 10...65535 s, step 1 s 30 s On-line 0...28, step 1 4 On-line 0...20, step 1 5 On-line 1...100, step 1 10 On-line allowed (0), notAllowed (1) - On-line false (0), true (1) - Not modifiable 0...255, step 1 1 Not modifiable 0...65535, step 1 - On-line slow (0), medium (1), fast (2) On-line -10... 0 dB On-line 1000...300000 kbps, step 500 kbps 170000 kbps On-line 1000...75000 kbps, step 500 kbps 60000 kbps On-line 0.05...0.5, step 0.01 0.12 On-line 0.05...0.5, step 0.01 0.12 On-line 0.05...0.5, step 0.01 0.12 On-line 0.05...0.5, step 0.01 0.26 On-line 30... 90 % 75 On-line 1...3, step 1 3 On-line 0...4200, step 1 600 On-line 0...840, step 1 300 On-line 0...50, step 1 20 On-line 0...200, step 1 100 On-line 0...840, step 1 300 On-line 0...840, step 1 440 On-line 1...20, step 1 14 On-line 1...20, step 1 On-line ueCapability (0), OaM (1) ueCapability (0) On-line cpichRSCP (0), cpichEcN0 (1) cpichRSCP (0) On-line cpichRSCP (0) On-line cpichRSCP (0), cpichEcN0 (1), notUsed (2) 0...16, step 0.1 On-line 0...16, step 0.1 8 On-line 1...2, step 0.05 1.4 On-line 1...2, step 0.05 1.6 On-line 0...16, step 0.1 7 On-line 0...16, step 0.1 8 On-line 1...2, step 0.05 1.4 On-line 1...2, step 0.05 1.6 On-line 5...300000 kbps, step 5 kbps 30 kbps On-line 5...75000 kbps, step 5 kbps 30 kbps On-line 1...8, step 1 - On-line 1...128, step 1 - On-line 2...128, step 1 - On-line 1...16, step 1 On-line 1...16, step 1 On-line 30s (0), 60s (1), 120s (2), 180s (3), 240s (4), (6),180s spare1 30s spare3 (0), 60s(5), (1),spare2 120s (2), (3),(7) 240s - On-line On-line Requires object locking On-line On-line Requires object locking On-line Not modifiable On-line On-line BTS restart needed medium (1) -10 14 7 (4), spare3 spare2 2 (0), 4 (1), (5), 8 (2), 16 (3)(6), spare1 (7) 2 (0) 10...2047, step 1 36 n1 (0), n2 (1), n3 (2), n4 (3), n6 (4), n8 (5), n10 (6),n2 n20 n1 (0), (1),(7) n3 (2), n4 (3), n5 (4), n6 (5), n10 (6) -24dB (0), -22dB (1), -20dB (2), -18dB (3), -16dB (4),(0), -14dB (5), -12dB (6), -10dB (7), disabled enabled (1) -8dB (8), -6dB (9), -5dB (10), -4dB (11), -127...-96 step 1-1dB dBm(14), 0dB (15), -3dB (12), dBm, -2dB (13), 1dB (16), dBm, 2dB (17), (18), 4dB (19), -126...24 step 3dB 1 dBm 5dB (20), 6dB (21), 8dB (22), 10dB (23), 10.0 37.0(25), (370), 39.0 (390), 12dB (100), (24), 14dB 16dB (26), 18dB 40.0 (400),(28), 41.8 (418), 43.0 (430), (27), 20dB 22dB (29), 24dB (30) 0dB (15) n8 (6), step n10 (7) 1...98, 1 44.3 (443), 44.8 (448), 46.0 (460), 47.8 (478), 49.0 (490) n1 (0) 2 disabled (0) -100 dBm -80 dBm - On-line -30...33 dBm, step 1 dBm On-line -30...33 dBm, step 1 dBm On-line On-line oneT (2), halfT (3), quarterT (4), oneEighthT (6), 1 (0), 2 (1), 4(5), (2),oneSixteenthT 8 (3) oneThirtySecondT (7) 4...8, step 4 On-line 4...8, step 4 4 On-line 4...8, step 4 4 On-line 4...8, step 4 4 On-line 4...8, step 4 4 On-line 0.5...2, step 0.05 0.8 On-line -10...10, step 0.1 -5 On-line 0.1...3 %, step 0.1 % 1% On-line 0.1...0.9, step 0.05 On-line wideband (0), UE_selected (1) On-line false (0), true (1) On-line periodicIntraFreq (0) On-line 8 (0), 32 (1), 64 (2), infinity (3) On-line 120ms (1), 240ms (2), 480ms (3), 640ms (0), (4),Extended 1024ms (1) (5), 2048ms (6), Normal 5120ms (7), N = 1/6 (0), N = 1/2 (1), N = 1 (2), N = 2 (3) 10240ms (8), 1min (9), 6min (10), 0...503, step 130min (12), 60min (13) 12min (11), On-line Requires object locking Requires object locking Requires object locking quarterT (4) 4 (2) 4 0.5 wideband (0) false periodicIntraFreq (0) 32 (1) 10240ms (8) Normal (0) N = 1/6 (0) - BTS restart needed 0...15, step 1 12 BTS restart needed 3...24, step 1 3 BTS restart needed 0...94, step 1 - false (0), true (1) false On-line 0dB (0), 2dB (1), 4dB (2), 6dB (3) 2dB (1) On-line 3 (0), 4 (1), 5 (2), 6 (3), 7 (4), 8 (5), 10 (6), 20 50 (8), 100 (9), 200 (10) Not(7), Reserved (0), Reserved (1) Requires object locking On-line On-line 6 PRB (6), 15 PRB (15), 25 PRB (25), 50 PRB (50), 152 (152), 153 (153), 156 (156), 151 (151), 75 PRB (75), 100 PRB (100) 157 Bit 0: prsMutingInfoBit16, Bit 1: (157), 471 (471), 472 (472), 473 (473), 476 prsMutingInfoBit15, 2 (2 bits), 4 (4 bits), 8 (8 bits), 16 (16 bits) (476), Bit 2: prsMutingInfoBit14, Bit 3: 477 1... 2(477), 1111 (1111), 1112 (1112), 1113 prsMutingInfoBit13, (1113), Bit 4: prsMutingInfoBit12, Bit 5: -3... 7.78 dB 1117 (1117), 2391 1116 (1116), (2391), prsMutingInfoBit11, 2392 0...0, 1 Bit 6: step prsMutingInfoBit10, Bit 7: (2392), 23931 (2393), 2396 (2396), 2397 prsMutingInfoBit9, 0...10, step (2397) Bit 8: prsMutingInfoBit8, Bit 9: 2...15, step 1 prsMutingInfoBit7, 0...12, 1 Bit 10: step prsMutingInfoBit6, Bit 11: prsMutingInfoBit5, 0dB (0), 1dB (1), 2dB (2), 3dB (3), 4dB (4), Bit 12: Bit 13: 5dB (5),prsMutingInfoBit4, 6dBstep (6),18dB -34...-3 dB, dB (7), 10dB (8), 12dB prsMutingInfoBit3, (9), 14dB (10), 16dB (11), 18dB (12), 20dB Bit 14:22dB prsMutingInfoBit2, 2...16 dB, step dB (15)Bit 15: (13), (14),224dB prsMutingInfoBit1 -140...-44 dBm, step 2 dBm On-line -140...-44 dBm, step 2 dBm On-line On-line On-line On-line On-line On-line Not modifiable Requires object locking Requires object locking Requires object locking On-line On-line On-line Requires object locking Not modifiable Requires object locking Requires object locking Requires object locking Requires object locking 10 (6) Not Reserved (0) 151 (151) 0 1 0 0 10 8 10 - 8ms (0), 16ms (1), 24ms (2), 32ms (3), 40ms 0...15,(4), step48ms 1 (5), 56ms (6), 64ms (7) 64ms (7) -infinity (0), 0 dB (1), 5 dB (2), 8 dB (3), 10 dB (4),8 12 4 (0), (1),dB 12(5), (2),15 16dB (3),(6), 2018 (4),dB 24(7) (5), 28 10 dB (4) (6), 328(7), 48(5), (11),28 4 (0), (1),36 12(8), (2),40 16(9), (3),44 20(10), (4), 24 52 (12), 56 (13), 60 (14), 64 (15) (6), 323(7), (8),540 (9), 44 (10), 2 (0), (1),36 4 (2), (3), 6 (4), 7 (5),488 (11), (6), 52 10 (12), (7) 56 (13), 60 (14) 5 40 (9) 32 (7) 10 (7) Not modifiable 0...15, step 1 5 On-line 56 bits (0), 144 bits (1), 208 bits (2), 256 bits (3) step 0.01 1...1.5, On-line 1...1.5, step 0.01 1.02 On-line false (0), true (1) false On-line false (0), true (1) false On-line false (0), true (1) false On-line 1...100 PRB, step 1 PRB 50 PRB On-line 1...100 PRB, step 1 PRB 25 PRB On-line 1...100 PRB, step 1 PRB 1 PRB On-line false (0), true (1) false BTS restart needed false (0), true (1) false(0) Requires object locking 1 (0), 2 (1) 2 (1) BTS restart needed -1...0, step 1 0 BTS restart needed 0...837, step 1 On-line 144 bits (1) 1.03 - On-line 0ms (0), 40ms (1), 64ms (2), 80ms (3), 100ms (4),step 128ms 0...15 dB, 0.5 (5), dB 160ms (6), 256ms (7), 320ms (8), 480ms (9), 512ms (10), -19.5...-3 dB,1024ms step 0.5(12), dB 1280ms (13), 640ms (11), 2560ms 0...62 dB,(14), step5120ms 2 dB (15) On-line 0...31 dB, step 1 dB - On-line 0...62 dB, step 2 dB - On-line 0...62 dB, step 2 dB - On-line 0...31 dB, step 1 dB - On-line 0...62 dB, step 2 dB - On-line 1ms (0), 2ms (1), 5ms (2), 10ms (3), 15ms (4), 20ms 40ms 80ms (0), (5), 160ms (1),(6) 320ms (2), 640ms - On-line On-line On-line On-line On-line Not modifiable On-line On-line Not modifiable (3), 1... 4 1280ms (4), 2560ms (5), 5120ms (6) SIB2 (0) 80ms (0), 160ms (1), 320ms (2), 640ms (3), 1... 4 1280ms (4), 2560ms (5), 5120ms (6) SIB3 (1) 480ms (9) 0 dB -19 dB - 1 SIB2 (0) 1 SIB3 (1) On-line 80ms (0), 160ms (1), 320ms (2), 640ms (3), 1... 4 1280ms (4), 2560ms (5), 5120ms (6) SIB4 (2), SIB5 (3), SIB6 (4), SIB7 (5), SIB8 (6), 1...16, step 1 SIB10 (7), SIB11 (8), SIB12 (9) 1...16, step 1 On-line -6 dB (0), -4 dB (1), -2 dB (2), 0 dB (3) - On-line -6 dB (0), -4 dB (1), -2 dB (2), 0 dB (3) - On-line 30s (0), 60s (1), 120s (2), 180s (3), 240s (4) 30s (0), 60s (1), 120s (2), 180s (3), 240s - On-line On-line On-line On-line On-line 1 - - BTS restart needed (4) 1...1000, step 1 10 BTS restart needed 1...100, step 1 10 1... 8 1 On-line 0...15, step 1 7 On-line 1...10, step 1 1 Requires object locking BTS restart needed On-line On-line On-line SingleTx (0), TxDiv (1) SingleTx (0) 100ms (0), 200ms (1), 300ms (2), 400ms (3), 600ms (4), 1000ms (5), 1500ms (6), 100ms (0), 200ms (1), 300ms (2), 400ms 2000ms (7) (3), 600ms (4),ms, 1000ms (5), 1500ms (6), 1000...16000 step 1000 ms 2000ms (7) 400ms (3) 400ms (3) 8000 ms On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line 100ms (0), 200ms (1), 500ms (2), 1000ms (3), 2000ms (4), 4000ms (5), 8000ms (6), 100ms (1), 200ms (2), 500ms (3), 1000ms notUsed (7) (4), 50ms (0), 100ms (1), 150ms (2), 200ms 2000ms (5),(4), 4000ms (6),(5), 8000ms (7)(6) (3), 500ms 1000ms 2000ms 100ms (0), 200ms (1), 500ms (2), 1000ms (3), (4),(1), 4000ms (6) 0ms2000ms (0), 50ms 100ms(5), (2),8000ms 200ms (3), 500ms (4), 1000ms (5), 2000ms (6) 1000ms (0), 3000ms (1), 5000ms (2), 10000ms (3), 15000ms (4), 20000ms (5), 5min (5), 10min (10), 20min (20), 30min 30000ms (6) (30), 60min 1...1800 s, step 1 s (60), 120min (120), 180min (180) 5ms (0), 10ms (1), 16ms (2), 20ms (3), 32ms (4),20sf 40ms 64ms 80ms 10sf (0), (1),(5), 50sf (2), (6), 100sf (3), (7), 200sf 128ms (8), 160ms (9), 320ms (10), 640ms (4), 500sf (5), 1000sf (6), infinity (7) 0sf 10sf (1), 20sf (2), 50sf (3),infinity 100sf (11),(0), 1280ms (12), 2560ms (13), (4), 200sf (5), 500sf (6), 1000sf (7) (14) 320 ms (0), 640 ms (1), 1280 ms (2), 2560 500ms (2) 500ms (3) 1000ms (5) 2000ms (4) 2000ms (6) 3000ms (1) 180min (180) 300 s 10ms (1) 20sf (1) 0sf (0) 320 ms (0) On-line ms 51201ms 0...7(3), s, step s (4), 10240 ms (5) On-line 100...20000 ms, step 100 ms On-line 0...5 us, step 0.01 us 0.52 us On-line 500 (0), 750 (1), 1280 (2), 1920 (3), 2560 (4), 5120subframes, (5), 10240 step (6) 1 subframes 0...2560 10240 (6) On-line 2000 ms 2000 subframes BTS restart needed 0...65535, step 1 On-line 0...31 dB, step 1 dB - On-line 0...62 dB, step 2 dB - On-line 0...97 dBm, step 1 dBm - On-line 0...97 dBm, step 1 - On-line 0...97 dBm, step 1 dBm 33 On-line 0...97 dBm, step 1 98 On-line 0...97 dBm, step 1 dBm 35 On-line 0...97 dBm, step 1 dBm - On-line 0...97 dBm, step 1 dBm - On-line 0...97 dBm, step 1 dBm On-line 0.25 (0), 0.5 (1), 0.75 (2), 1.0 (3) 0.5 (1) On-line 0.25 (0), 0.5 (1), 0.75 (2), 1.0 (3) 0.5 (1) On-line 5...25 %, step 0.5 % 6% On-line 8...50 %, step 1 % 15% On-line -10...10 dB, step 0.1 dB BTS restart needed Requires object locking BTS restart needed 1.4 MHz (14), 3 MHz (30), 5 MHz (50), 10 MHz MRC (0), (100), IRC (1)15 MHz (150), 20 MHz (200) 0...7, step 1 1 dB 10 MHz (100) MRC (0) 0 On-line 0...50 %, step 1 % 10 % On-line false (0), true (1) true (1) On-line 10...500 tb, step 10 tb 30 tb On-line 1...50, step 1 On-line On-line alpha 0 (0), alpha 0.4 (1), alpha 0.5 (2), alpha 0.6 true (3), (1) alpha 0.7 (4), alpha 0.8 (5), false (0), alpha 0.9 (6), alpha 1 (7) -120 dBm (0), -118 dBm (1), -116 dBm (2), -114 dBm (3), step -112 1dBm -127...0 dBm, dBm(4), -110 dBm (5), -108 dBm (6), -106 dBm (7), -104 dBm (8), -127...0 dBm, dBm(10), -98 dBm -102 dBm (9), step -100 1dBm (11), -96dB, dBm (12), -94 dBm (13), -92 dBm -47...80 step 1 dB (14), -90 dBm (15) -47...80 dB, step 1 dB On-line false (0), true (1) true (1) On-line false (0), true (1) true (1) On-line On-line On-line On-line On-line 1 alpha 0.8 (5) false (0) -96 dBm (12) -118 dBm -103 dBm -1 dB 0 dB On-line -6...8 dB, step 2 dB On-line 10...2000 ms, step 10 ms 50 ms false (0), true (1) true (1) On-line -127...0 dBm, step 1 dBm -113 dBm On-line -127...0 dBm, step 1 dBm -88 dBm On-line -47...80 dB, step 1 dB 2 dB On-line -47...80 dB, step 1 dB 20 dB BTS restart needed On-line RoundRobinFD (0), ExhaustiveFD (1), MixedFD 1...4, step(2) 1 On-line 1...100, step 1 On-line 16...1544, step 8 Requires object locking On-line channel unaware (0), channel aware (1), interference 0... 10 dB aware (2) On-line 0...80 characters Requires object locking 4 dB ExhaustiveFD (1) 2 3 104 channel unaware (0) 10 - VF Default Shared Default (VF) Shared Default (O2) 480ms (9) 480ms (9) 480ms (9) 480ms (9) 480ms (9) 480ms (9) notUsed (16) notUsed (16) notUsed (16) 480ms (9) 480ms (9) 480ms (9) 512ms (10) 512ms (10) 512ms (10) 3 dB 3 dB 3 dB 640ms (3) 640ms (3) 640ms (3) 160ms (6) 160ms (6) 160ms (6) 640ms (3) 640ms (3) 640ms (3) 320ms (8) 320ms (8) 320ms (8) - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - false (0) false (0) false (0) false (0) false (0) false (0) true(1) true(1) true(1) false (0) false (0) false (0) true (1) true (1) true (1) 16QAMHighMCS (2) 16QAMHighMCS (2) 16QAMHighMCS (2) true (1) true (1) true (1) false (0) false (0) false (0) false (0) false (0) false (0) none (0) none (0) none (0) true (1) true (1) true (1) false (0) false (0) false (0) false (0) false (0) false (0) eUlLa (5) eUlLa (5) eUlLa (5) 15 15 15 20 20 20 70 70 70 5 5 5 10 10 10 35 35 35 60 60 60 15 15 15 20 20 20 1 1 1 - - - 47 47 47 extendedDrxOnly (0) extendedDrxOnly (0) extendedDrxOnly (0) allEqual (0) allEqual (0) allEqual (0) 65536 65536 65536 - - - - - - 0 0 0 1 (3) 1 (3) 1 (3) 1 (3) 1 (3) 1 (3) notBarred (1) notBarred (1) notBarred (1) 100 100 100 0dB (15) 0dB (15) 0dB (15) - - - 5 5 5 - - - - - - - - - 20ms (2) 20ms (2) 20ms (2) large (3) large (3) large (3) true true true FBT2 (1) FBT2 (1) FBT2 (1) 20ms (3) 20ms (3) 20ms (3) 1 1 1 true (1) true (1) true (1) 0 (1) 0 (1) 0 (1) 1 (0) 1 (0) 1 (0) 0 (1) 0 (1) 0 (1) 0 (1) 0 (1) 0 (1) 0 (1) 0 (1) 0 (1) 64n (4) 64n (4) 64n (4) 128rf (2) 128rf (2) 128rf (2) 0 0 0 1 1 1 2 2 2 false false false true (1) true (1) true (1) 0 dB 0 dB 0 dB 10 MHz (100) 10 MHz (100) 10 MHz (100) false false false 0% 0% 0% QPSK (0) QPSK (0) QPSK (0) Dynamic Open Loop MIMO (30) Dynamic Open Loop MIMO (30) Dynamic Open Loop MIMO (30) true(1) true(1) true(1) 3 db (1) 3 db (1) 3 db (1) 0 dB 0 dB 0 dB 0 dB 0 dB 0 dB 3dB (2) 3dB (2) 3dB (2) 10 10 10 2 2 2 true true true 0 dB 0 dB 0 dB DCI format 1C (0) DCI format 1C (0) DCI format 1C (0) PFsch (1) PFsch (1) PFsch (1) 0.98 0.98 0.98 PRBs with PSS or SSS and PBCH used PRBs (2)with PSS or SSS and PBCH used PRBs (2)with PSS or SSS and PBCH used (2) true(1) true(1) true(1) 1 (1) 1 (1) 1 (1) 45 45 45 200 (200) 200 (200) 200 (200) 160ms (160) 160ms (160) 160ms (160) 6 (6) 6 (6) 6 (6) 101 (101) 101 (101) 101 (101) 30 30 30 4 (4) 4 (4) 4 (4) 2560 (2560) 2560 (2560) 2560 (2560) 1280ms (1280) 1280ms (1280) 1280ms (1280) 10 (10) 10 (10) 10 (10) 102 (102) 102 (102) 102 (102) 30 30 30 16 (16) 16 (16) 16 (16) 4 (4) 4 (4) 4 (4) 40ms (40) 40ms (40) 40ms (40) 6 (6) 6 (6) 6 (6) 2 (2) 2 (2) 2 (2) 40 40 40 4 (4) 4 (4) 4 (4) 10 (10) 10 (10) 10 (10) 80 (80) 80 (80) 80 (80) 6 (6) 6 (6) 6 (6) 3 (3) 3 (3) 3 (3) 30 30 30 4 (4) 4 (4) 4 (4) 500 (500) 500 (500) 500 (500) 320 (320) 320 (320) 320 (320) 10 (10) 10 (10) 10 (10) 4 (4) 4 (4) 4 (4) 20 20 20 16 (16) 16 (16) 16 (16) 2560 (2560) 2560 (2560) 2560 (2560) 2560 (2560) 2560 (2560) 2560 (2560) 10 (10) 10 (10) 10 (10) 5 (5) 5 (5) 5 (5) 10 10 10 16 (16) 16 (16) 16 (16) 4 (4) 4 (4) 4 (4) 40ms (40) 40ms (40) 40ms (40) 6 (6) 6 (6) 6 (6) 2 (2) 2 (2) 2 (2) 40 40 40 4 (4) 4 (4) 4 (4) 40ms (40) 40ms (40) 40ms (40) 1 1 1 124 124 124 10 (10) 10 (10) 10 (10) 80ms (80) 80ms (80) 80ms (80) 6 (6) 6 (6) 6 (6) 3 (3) 3 (3) 3 (3) 30 30 30 4 (4) 4 (4) 4 (4) 40ms (40) 40ms (40) 40ms (40) 5 5 5 6 6 6 100 (100) 100 (100) 100 (100) 320ms (320) 320ms (320) 320ms (320) 10 (10) 10 (10) 10 (10) 4 (4) 4 (4) 4 (4) 20 20 20 4 (4) 4 (4) 4 (4) 80ms (80) 80ms (80) 80ms (80) 1 1 1 4 4 4 50 (50) 50 (50) 50 (50) 2560ms (2560) 2560ms (2560) 2560ms (2560) 10 (10) 10 (10) 10 (10) 5 (5) 5 (5) 5 (5) 10 10 10 16 (16) 16 (16) 16 (16) 80ms (80) 80ms (80) 80ms (80) 16 16 16 32 32 32 Please read comments Please read comments Please read comments 30 30 30 30 30 30 3 3 3 1 1 1 1 1 1 0.8 0.8 0.8 6300 6300 6400 24300 24300 24400 - - - true (1) true (1) true (1) true (1) true (1) true (1) false (0) false (0) false (0) true (1) true (1) true (1) true (1) true (1) true (1) true (1) true (1) true (1) - - - - - - fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc4 (4) fc2 (2) fc2 (2) fc2 (2) Not Reserved (0) - Please read comments - - 234 - - 10 - - 2 none (0) none (0) none (0) Refer Site Specific Template V1.5 Refer Site Specific Template V1.5 Refer Site Specific Template V1.5 5 5 5 5 5 5 5 5 5 12 12 12 interSubFrame (0) interSubFrame (0) interSubFrame (0) - - - 0 dB 0 dB 0 dB 0 dB 0 dB 0 dB 0 dB 0 dB 0 dB 0 dB 0 dB 0 dB 0 dB 0 dB 0 dB 0 dB 0 dB 0 dB 0 dB 0 dB 0 dB 31 31 31 60 60 60 85 85 85 80% 80% 80% 1 (1000) 1 (1000) 1 (1000) 50 50 50 75 75 75 50% 50% 50% 0 0 0 0 0 0 200 ms 200 ms 200 ms 10 s 10 s 10 s 4 4 4 5 5 5 10 10 10 allowed (0) allowed (0) allowed (0) true (1) true (1) true (1) - - - - - - medium (1) medium (1) medium (1) -10 -10 -10 170000 kbps 170000 kbps 170000 kbps 60000 kbps 60000 kbps 60000 kbps 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.26 0.26 0.26 75 75 75 3 3 3 600 600 600 300 300 300 20 20 20 100 100 100 300 300 300 440 420 420 14 14 14 14 14 14 OaM (1) OaM (1) OaM (1) cpichRSCP (0) cpichRSCP (0) cpichRSCP (0) cpichEcN0 (1) cpichEcN0 (1) cpichEcN0 (1) 7 7 7 8 8 8 1.4 1.4 1.4 1.6 1.6 1.6 7 7 7 8 8 8 1.4 1.4 1.4 1.6 1.6 1.6 30 kbps 30 kbps 30 kbps 30 kbps 30 kbps 30 kbps - - - - - - - - - 8 8 8 8 8 8 30s (0) 30s (0) 30s (0) 30s (0) 30s (0) 30s (0) 2 (0) 2 (0) 2 (0) 18 18 18 n10 (6) n10 (6) n10 (6) n1 (0) n1 (0) n1 (0) 2 2 2 0dB (15) 0dB (15) 0dB (15) - - - -100 dBm -100 dBm -100 dBm -80 dBm -80 dBm -80 dBm 43.0 (430) 43.0 (430) 43.0 (430) - - - 23 dBm (23) 23 dBm (23) 23 dBm (23) quarterT (4) quarterT (4) quarterT (4) 4 (2) 4 (2) 4 (2) 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 0.8 0.8 0.8 -5 -5 -5 1% 1% 1% 0.5 0.5 0.5 wideband (0) wideband (0) wideband (0) false false false periodicIntraFreq (0) periodicIntraFreq (0) periodicIntraFreq (0) 32 (1) 32 (1) 32 (1) 10240ms (8) 10240ms (8) 10240ms (8) Normal (0) Normal (0) Normal (0) N = 1/6 (0) N = 1/6 (0) N = 1/6 (0) - - - 12 12 12 3 3 3 41 41 41 false false false 2dB (1) 2dB (1) 2dB (1) 10 (6) 10 (6) 10 (6) Please read comments Please read comments Reserved (1) - - - 151 (151) 151 (151) 151 (151) 0 0 0 - - - 1 1 1 0 0 0 0 0 0 10 10 10 8 8 8 10 10 10 1 dB 1 dB 1 dB - - - Not Used(18) Not Used(18) Not Used(18) -120 dBm -120 dBm -120 dBm -120 dBm -120 dBm -120 dBm 64ms (7) 64ms (7) 64ms (7) 5 5 5 10 dB (4) 10 dB (4) 10 dB (4) 40 (9) 40 (9) 40 (9) 32 (7) 32 (7) 32 (7) 10 (7) 10 (7) 10 (7) 5 5 5 144 bits (1) 144 bits (1) 144 bits (1) 1.03 1.03 1.03 1.02 1.02 1.02 false false false false false false false false false 50 PRB 50 PRB 50 PRB 25 PRB 25 PRB 25 PRB 1 PRB 1 PRB 1 PRB false false false true (1) true (1) true (1) 1 (0) 1 (0) 1 (0) -1 -1 -1 - - - 480ms (9) 480ms (9) 480ms (9) 15 dB 15 dB 15 dB -19 dB -19 dB -19 dB - - - - - - 50 dB 50 dB 50 dB - - - - - - 10 dB 10 dB 10 dB 10ms (3) 10ms (3) 10ms (3) 160ms (1) 160ms (1) 160ms (1) 1 1 1 SIB2 (0) SIB2 (0) SIB2 (0) 160ms (1) 160ms (1) 160ms (1) 1 1 1 SIB3 (1) SIB3 (1) SIB3 (1) 160ms (1) 160ms (1) 160ms (1) 1 1 1 - - - - - - - - - - - - - - - - - - - - - 10 10 10 10 10 10 1 1 1 7 7 7 1 1 1 TxDiv (1) TxDiv (1) TxDiv (1) 400ms (3) 400ms (3) 400ms (3) 400ms (3) 400ms (3) 400ms (3) 8000 ms 8000 ms 8000 ms 500ms (2) 500ms (2) 500ms (2) 500ms (3) 500ms (3) 500ms (3) 1000ms (5) 1000ms (5) 1000ms (5) 2000ms (4) 2000ms (4) 2000ms (4) 2000ms (6) 2000ms (6) 2000ms (6) 3000ms (1) 3000ms (1) 3000ms (1) 180min (180) 180min (180) 180min (180) 300 s 300 s 300 s 10ms (1) 10ms (1) 10ms (1) 20sf (1) 20sf (1) 20sf (1) 0sf (0) 0sf (0) 0sf (0) 320 ms (0) 320 ms (0) 320 ms (0) 2s 2s 2s 2000 ms 2000 ms 2000 ms 0.52 us 0.52 us 0.52 us 10240 (6) 10240 (6) 10240 (6) 2000 subframes 2000 subframes 2000 subframes - - - - - - 4 dB 4 dB 4 dB 90 90 90 0 0 0 Not Used (98) Not Used (98) Not Used (98) 0 0 0 85 dBm 85 dBm 85 dBm 26 dBm 26 dBm 26 dBm 28 dBm 28 dBm 28 dBm 24 24 24 1.0 (3) 1.0 (3) 1.0 (3) 1.0 (3) 1.0 (3) 1.0 (3) 6% 6% 6% 15% 15% 15% 1 dB 1 dB 1 dB 10 MHz (100) 10 MHz (100) 10 MHz (100) MRC (0) MRC (0) MRC (0) 0 0 0 10 % 10 % 10 % true (1) true (1) true (1) 30 tb 30 tb 30 tb 1 1 1 alpha 0.8 (5) alpha 0.8 (5) alpha 0.8 (5) true (1) true (1) true (1) -96 dBm (12) -96 dBm (12) -96 dBm (12) -118 dBm -118 dBm -118 dBm -103 dBm -103 dBm -103 dBm -1 dB -1 dB -1 dB 0 dB 0 dB 0 dB true (1) true (1) true (1) true (1) true (1) true (1) 4 dB 4 dB 4 dB 50 ms 50 ms 50 ms false (0) false (0) false (0) -113 dBm -113 dBm -113 dBm -88 dBm -88 dBm -88 dBm 2 dB 2 dB 2 dB 20 dB 20 dB 20 dB MixedFD (2) MixedFD (2) MixedFD (2) 2 2 2 3 3 3 104 104 104 interference aware (2) interference aware (2) interference aware (2) 10 10 10 - - - Parameter relationships Related features If adjWInfList is not empty then LTE56 Inter RAT handover to WCDMA (optional), a1TimeToTriggerDeactInterMeas must be LTE55 handover (optional), The parameter is mandatory required if LTE442Inter-frequency Network Assisted Cell Change to GSM 0ms...5120ms. LTE442 Network Assisted Cell Change to GSM adjGInfList is not empty. (optional) ifIf actIfHo is enabled then LTE55 Inter-frequency handover (optional) adjGInfList is not empty then (optional) a2TimeToTriggerActInterFreqMeas shall a1TimeToTriggerDeactInterMeas bebe 0 LTE56 Inter RAT handover to WCDMA (optional) If adjWInfList is not empty then must (0ms)...15 (5120ms) 0ms...5120ms. a2TimeToTriggerActWcdmaMeas must be LTE761 Advanced target cell selection and ifif0ms...5120ms. actIfHo actIfHo is is disabled 'enabled' then then handover retry for intra frequency handover a2TimeToTriggerActInterFreqMeas shall not be a1TimeToTriggerDeactInterMeas must be (optional), LTE423 RRC connection release with specified (special value 16 (notUsed) used 0ms...5120ms. redirect (standard) instead) Change Control Draft Version A Draft Version A Draft Version A Draft Version A Draft Version B Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A If at least one bit of acBarAC AC 11 ... AC 15 is set to '1', probFac must be configured to '0%'. Only if all bits of acBarAC AC 11 ... AC 15 are If atto least one bit ofcan acBarAC AC 11 ...toAC set '0', probFac be configured any15 is set '1', probFac be configured value. If atto least one bit ofmust acBarAC AC 11 ... to AC'0%'. 15 is Only all probFac bits of acBarAC 11 ... ACto 15'0%'. are set toif'1', must beAC configured set can be configured to 15 anyare Onlytoif'0', all probFac bits of acBarAC AC 11 ... AC value. If atto least one bit ofcan acBarAC AC 11 ...toAC set '0', probFac be configured any15 is set to '1', probFac must be configured to value. If at least one bit of acBarAC AC 11 ... AC'0%'. 15 is Only all probFac bits of acBarAC 11 ... ACto 15'0%'. are set toif'1', must beAC configured set to '0', probFac can be configured to any Only if all bits of acBarAC AC 11 ... AC 15 are value. If atto least one bit ofcan acBarAC AC 11 ...toAC set '0', probFac be configured any15 is set '1', probFac be configured value. If atto least one bit ofmust ocAcBarAC AC 11 to ... '0%'. AC Only alltobits acBarAC ACmust 11 ...be AC 15 are 15 is ifset '1',ofocAcProbFac set to '0', probFac configured to '0%'.can be configured to any value. If at least one bitocAcBarAC of ocAcBarAC 11AC ... AC Only if all bits of ACAC 11 ... 15 15 is set to '1', ocAcProbFac must be are set to '0', ocAcProbFac can be configured If at least one bit of sigAcBarAC AC 11 ... AC configured to any value. 15 is set to to '1','0%'. sigAcProbFac must be Only if all bits of ocAcBarAC AC 11 ... AC 15 configured to '0%'. are to one '0', ocAcProbFac can If at set least bitsigAcBarAC of sigAcBarAC AC 11AC ... AC Only if all bits of ACbe 11configured ... 15 to any value. 15 is set to '1', sigAcProbFac must be are set to '0', sigAcProbFac configured LTE10 EPS bearers for conversational voice dlsOldtcTarget is applicable can only be if actDlsOldtc configured to '0%'. to anytovalue. is set 'true', otherwise the the default value (standard) Only if all bits of sigAcBarAC AC 11 ... AC 15 LTE10 EPS bearers for conversational voice is used are set must to '0',be sigAcProbFac actDrx set to 'false' can be configured (standard) LTE42 DRX in RRC connected mode (standard) to any value. -If ifactFastMimoSwitch riEnable is set to 'true' and additionally is set to 'true' following LTE568 DL adaptive closed loop MIMO (4x2) riPerOffset is nottoset tofulfilled: '-1' conditions need be actLdPdcch can be set to 'true' only if following (optional) LTE616 Usage based PDCCH adaptation or -conditions riPerOffset must be configured to '-1' are fulfilled (standard) --ULAMC_INI_MCS ifriPerM riEnable is set to 'true' and additionally can be located LTE829 Increased uplink MCS range (standard), must be to configured to '1' only -between phichDur is set 'Normal' AND riPerM is not '1' MCS0 and MCS20, MCS21 to LTE788 of 16QAM in UL (optional) -- riEnable must be configured to 'true'. The parameter actOlLaPdcch can be set to LTE1035Support Outer loop link adaptation for PDCCH maxNrSymPdcch isapplicable greater than 1 AND MCS24 shall not be even if only if dlOlqcEnable is set to 'true'. If (standard) -'true' dlChBw is configured greater than '5MHz' If actOtdoa set to 'true'set siWindowLen actModulationSchemeUL = "16QAMHighMCS" if actFastMimoSwitch to 'false' andmust be dlOlqcEnable is set to 'false', actOlLaPdcch set dlMimoMode is set to 'Closed Loop Mimo'must or If numOfTxPorts is set to '1', actPrsTxDiv must be set todepending 'false'. If actLdPdcch is set to 'false', configured appropriately on the individualUL PRS 'Closed Loop MIMO (4x2)', be and DL split of PDCCH resources If actRepeaterMode is set to 'Coupled' or LTE72 4-way RX diversity configuration. - actOlLaPdcch mimoClCqiThD, mimoClCqiThU, set to 'false'.repeaterDelay If isfixed set toused. 'false', (pdcchUlDlBal) is 'Dedicated' is mandatory FHCC Repeater Interface Module For details on appropriate values please refer actSmartDrx can only is benot configured to 'true' if LTE1195-e LTE585 Smart DRX (optional) mimoClRiThD and must be set, actPrsTxDiv is mandatory required if DL actOtdoa pdcchHarqTargetBler determined, the If actLdPdcch is setmimoClRiThU to 'true', UL and split of Info model update and merge for RL40 required. to actDrx is set to 'true. otherwise the default value is used is default value used instead. Note: Only onisFSMr3 actSuperCell be LTE1542 FDD Supercell (standard) PDCCH resources may be adjustedcan runtime Note: parameter siWindowLen. set to 'true'. configured to 'true'. based on load and the configured value In case actRepeaterMode is not set If actOtdoa is set 'true' conditions actTtiBundling cantobe only set to 'true' if if LTE907 TTI bundling (optional) The following condition is following applicable only (pdcchUlDlBal) defines the initial starting to 'Coupled', even ifto antenna lines point LTE116 Cell Bandwidth - 3 MHz (optional) need actUlLnkAdp is set set tofour 'eUlLa'. actSmartDrx is 'true': If parameter actUlLnkAdp is set to value LTE1034 Extended Uplink Link Adaptation then. with usage are defined in the beRX fulfilled: Cell Bandwidth - 1,4 MHz (standard) -to drxProfile1-drxProfilePriority must be greater LTE117 'eUlLa', the parameter eUlLaAtbPeriod, (standard) resourceList RX reception (LTE72 4Rx range for4addAUeRrHo depends on LTE20 Admission control (optional), LTE458 RL20 -The drxProfile2-drxOnDuratT must be greater than drxSmartProfile2-drxProfilePriority eUlLaBlerAveWin, eUlLaDeltaMcs, MRC LTE980 4RxactFlexBbUsage IRC) depends is not supported. dlChBw, and Capacity and Dimensioning (standard) than 3andulChBw The range for addAUeTcHo on LTE20 Admission control (optional), LTE458 RL20 eUlLaLowMcsThr, eUlLaLowPrbThr and to following conditions -according drxProfile3-drxOnDuratT must be greater dlChBw, ulChBw and actFlexBbUsage Capacity and Dimensioning (standard) eUlLaPrbIncDecFactor must be specified. (1) depends on dlChBw value as LTE572 IMS emergency sessions (standard) (1.1) set to 'false' thanRange 3if actFlexBbUsage according to following conditions follows: and -(1.1) following parameter are mandatory required: LNCEL-maxGbrTrafficLimit + max(LNCELLTE497 Smart admission control if actFlexBbUsage setisto 'false' If parameter set to value --addGbrifmin(ulChBw,dlChBw) dlChBw isactUlLnkAdp setprsConfigurationIndex, to '5.0isMHz' or '5 MHz', prsPowerBoost, and 'eUlLa', the addEmergencySessions parameter redBwMinRbUl must be LTE497 Smart admission control LNCEL-maxGbrTrafficLimit +restricted max(LNCEL'10.0 MHz', addAUeRrHo value range to must prsBandwidth, TrafficRrHo, LNCEL-addGbrTrafficTcHo) -must min(ulChBw,dlChBw) is480 '5isMHz', smaller or equal thanoneUlLaLowPrbThr. addGbrbe less or equal to 0...480 (1) Range depends dlChBw value as prsNumDlFrames, actPrsTxDiv be addAUeTcHo value rangeMHz' is restricted to must LTE113 Cell Bandwidth - 15 MHz (standard), LTE7 -TrafficRrHo, ifmin(ulChBw,dlChBw) dlChBw isLNCEL-addGbrTrafficTcHo) set to90 '15.0 or if -(1) is '10 MHz', follows: Support of multiple EPS-bearer (standard), actOtdoa can only be set to 'true' equal or less than 0...480 Range on dlChBw value as LTE113 Cell Bandwidth 15 MHz (standard), LTE7 be '20.0 MHz',depends addEmergencySessions value range isor restricted to -addAUeRrHo ifmin(ulChBw,dlChBw) dlChBw is set to '5 MHz' '10 LTE458 RL20 Capacity and Dimensioning gpsInUse 'true' AND -(1) is '10 MHz', follows: Support of multiple EPS bearer (standard), equal or less than 90 must be less or equal to 840 Range depends on dlChBw value as LTE113 Cell Bandwidth 15 MHz (standard), LTE7 0...480 MHz', addNumDrbRadioReasHo be (standard) --addAUeTcHo btsSyncMode is to set'5 to 'PhaseSync'. value range isor restricted if dlChBw is set MHz' '10must to LTE458 Capacity Dimensioning (2) addEmergencySessions might follows: Support RL20 of multiple EPSand bearer (standard), -MHz', min(ulChBw,dlChBw) is '15 MHz', smaller or equal than 2400 0...480 addNumDrbTimeCriticalHo must (standard) or will be restricted byrestricted -restrict if dlChBw is set to '5.0 MHz', LTE458 RL20 Capacity and Dimensioning addAUeRrHo value range is to '15 MHz' or '20 -addNumQci1DrbRadioReasHo min(ulChBw,dlChBw) is '15 MHz', be smaller or equal than 2400 maxNumRrcEmergency must bebe (standard) 0...840 MHz', addNumDrbRadioReasHo must value range is restricted to -addAUeTcHo if dlChBw is to set toneeded '15 MHz' or '20 due to less or calculations equal 200 -MHz', min(ulChBw,dlChBw) is '20 MHz', smaller or equal than 4200 0...840 addNumDrbTimeCriticalHo must for this parameter -(2) if dlChBw is set to '10.0 MHz', addAUeRrHo value range is restricted addNumDrbRadioReasHo might to -addNumQci1DrbRadioReasHo min(ulChBw,dlChBw) is4200 '20 MHz', be smaller or equal than (2.1) if actIMSEmerSessR9 is set must be 0...840 restrict or will be restricted byrestricted maxNumaddAUeTcHo value range is to (2) addNumDrbTimeCriticalHo to 'true' following condition need to be fulfilled less or equal to 400 (1.2) if actFlexBbUsage set to 'true', Rrc and/or maxNumRrcEmergency due 0...840 might restrict or will be restricted by maxmaxNumRrcEmergency >= max-to if dlChBw is set to '15.0 MHz', addAUeRrHo range is restricted to calculationsvalue needed for those parameter Draft Version C Draft Version A Draft Version A Draft Version C Draft Version A Draft Version A Draft Version C Draft Version A Draft Version A Draft Version C Draft Version A Draft Version A Draft Version C Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A (1) Range depends on dlChBw value as LTE113 Cell Bandwidth - 15 MHz (standard), LTE7 follows: Support of multiple EPS bearer (standard), LTE39 System information broadcast (optional) - if dlChBw is set to '5.0 MHz', LTE458 RL20 Capacity and Dimensioning administrativeState can be set tomust 'shutting LTE145 LTE Configuration Management addNumQci1DrbTimeCriticalHo be (standard) down' if enableGrflShdn is set to (optional), LTE914 Graceful cell shut down less oronly equal to 200is mandatory anrUtraRscpThres required if LTE908 ANR Inter-RAT UTRAN - Fully UE Based 'Enabled', there are no limitations for (optional) -actUeBasedAnrUtranis if dlChBwotherwise is set to '10.0 MHz', set to 'true'. (optional) LTE473 Extended DRX settings (standard) administrativeState setting addNumQci1DrbTimeCriticalHo must be less or equal to 400 - if dlChBw is set to '15.0 MHz', addNumQci1DrbTimeCriticalHo must be less or equal to 500 - if dlChBw is set to '20.0 MHz', addNumQci1DrbTimeCriticalHo must be The of blankedPucch must be less than LTE786-a Reduced Uplink Bandwidth (optional) less value or equal to 600 nCqiRb and used in calculation of LTE786 Flexible UL Bandwidth (optional) (2) addNumQci1DrbTimeCriticalHo no relations MaxPucchResourceSize (calculation in LTE116 Cell Bandwidth - 3 MHz (optional) might restrict or will be restricted by maxno relations nCqiRb). LTE117 Cell Bandwidth - 1,4 MHz (standard) NumRrc and/or maxNumRrcEmergency LTE49 Paging (optional), LTE39 System due to calculations needed for those information broadcast (optional) parameter cellCapClass is mandatory required if (2.1) if actEnhAcAndGbrServices actIntraFreqLoadBal is set to 'true'.is LTE971 Intra-LTE mobility offsets (standard) set to 'false' and actConvVoice is set to 'true' following condition need to be fulfilled - maxNumRrc + max(addAUeRrHo, cellReSelPrio must be unequal to the setting of LTE39 System information broadcast (optional) addAUeTcHo) >= maxNumQci1Drb + - uCelResPrio in each UFFIM instance, LTE502 Cell Outage triggered reset (standard) max(addNumQci1DrbRadioReasHo, - gCelResPrio in each GNFL instance, addNumQci1DrbTimeCriticalHo) - hrpdCResPrio in each CDFIM instance, (2.2) if additionally - rttCResPrio in each CDFIM instance actIMSEmerSessR9 is set to 'true' -no maxNumRrcEmergency >= relations LTE41 PDCP, MAC & RLC support (optional), maxNumQci1Drb + max(addEmergencyLTE10 EPS bearers for conversational voice -Sessions, (standard) addNumQci1DrbRadioReasHo, addNumQci1DrbTimeCriticalHo) LTE959 (standard) Recommendation if In case riEnable is set to 'true' AND riPerM is actIMSEmerSessR9 is set to 'true': set to 1, cqiPerNp cannot be set toto 1 (5ms). -If addEmergencySessions should periodicCqiFeedbackType is set LTE31-c Periodic CQI reception for Trial Phase 3 be configured cqiPerSbCycK to a greater value than 'UE_selected' is mandatory (standard) LTE31-c Periodic CQI reception for Trial Phase 3 addNumQci1DrbRadioReasHo required. (standard) - (maxNumQci1Drb + addNumQci1DrbRadioReasHo) should be half or less than (maxNumActDrb + addNumDrbRadioReasHo), because every GBR-DRB is also counted as normal DRB and each GBR-DRB has 1 default DRB (nGBR) no relations LTE41 PDCP, MAC & RLC support (optional), bearers for conversational voice The product of parameter modPeriodCoeff and LTE10 LTE39 EPS System information broadcast (optional), (standard) defPagCyc in rf) must not exceed 1024 LTE49 Paging (optional) deltaMargin(given is mandatory required if actIntraFreqLoadBal is set to 'true'. LTE27 Open loop UL power control and DL power (optional)& transport channels (optional) if n1PucchAn is set to 10 than deltaPucchShift setting LTE40 Physical must be set to 1 LTE27 Open loop UL power control and DL power setting (optional)of 64 QAM in DL (optional) LTE43 Support If dl64QamEnable is set to 'false', the highest possible valuecell forpower iniMcsDl is 16. The maximal reduction LTE27 Open loop UL power control and DL power If enableDl16Qam parameter is set to 'false', setting (optional), LTE1106 Flexi low power RRH (dlCellPwrRed) depends on the configured (1) maxNumRrcEmergency LTE40 Physical & transport channels dl64QamEnable must be setdepends toas 'false'.on the maximal output power (pMax) 850 2TX for opticalCell repeater interface configured dlChBw value as'true', follows: (optional), Bandwidth - 15(standard) If dl64QamEnable is set to LTE819 DLLTE113 inter-cell interference generation follows -enableDl16Qam if dlChBw is set must to '5.0beMHz', MHz (standard), LTE106 6 cell support setdlCellPwrRed to 'true'. (standard) -maxNumRrcEmergency for pMax set to 49.0 dBm, inter-cell interference generation must be less or equal LTE819 with oneDL System Module (standard), maximum value is 10.0 dB (standard) to 480 LTE1072DL Flexi Lite BTS 750 (standard), enableDl16Qam must be set to 'true' before LTE819 inter-cell interference generation -- for pMax set to 47.8 dBm, dlCellPwrRed if dlChBw is set to '10.0 MHz', LTE179-a CRL0665 Dual band operation dlInterferenceModulation is allowed to be set (standard) valueisisset 9.5todB ifmaximum dlMimoMode ‘Dynamic Open adaptive closed loop maxNumRrcEmergency must be less or equal LTE703 with oneDownlink System Module - 6*10Mhz to '16QAM' formimoOlCqiThD Interference Generation -If for pMax set to 46.0 dBm, dlCellPwrRed Loop MIMO’, must be MIMO forSimplified two antennas (optional), LTE70 to 480 (optional) dlOlqcEnable is set to 'false', dlTargetBler LTE31-b BLER based Link Adaptation dl64QamEnable must be set to 'true' before maximum value is 7.7 dB set, otherwise the default value is used DL MIMO (optional), LTE69 Transmit - if dlChBw set to '15.0and MHz', shall not beisdetermined the default value (optional) dlInterferenceModulation is allowed to be set LTE5 Radio bearer and S1(optional), bearer establishment for pMax set tois44.8 dBm, dlCellPwrRed if-is dlMimoMode set to ‘Dynamic for two antennas maxNumRrcEmergency must be less or equal diversity used instead. to '64QAM' for Interference Generation and release (optional) maximum value is 6.5 dB Open Loop MIMO’, mimoOlCqiThU must LTE187 Single TX path mode LTE430 DL power boosting for(optional) control channels to 840 -If pMax set tois43.0 dBm, dlCellPwrRed be set, otherwise the default value is (standard) - for ifdlOlqcEnable dlChBw is set to '20.0 MHz', set to 'false', LTE430 DL power boosting for control channels maximum value is 4.7 dB used maxNumRrcEmergency mustnot bebe less or equal (standard) dlOlqcDeltaCqiStepUp shall determined for pMax set to 41.8 dBm, dlCellPwrRed if-and dlMimoMode is set to ‘Dynamic to 840 the default value is used instead. maximum is 3.5 dB Open Loopvalue MIMO’, mimoOlRiThD must -If for pMax set tois40.0 dBm, dlCellPwrRed be set, otherwise the value is on (2) addEmergencySessions depends dlOlqcEnable set default to 'false', maximum value 1.7 dB used dlChBw value asisfollows: dlolqcDeltaCqiIni shall not be determined and pMax set tois39.0 dBm, dlCellPwrRed if-the setused to ‘Dynamic - for ifdlMimoMode dlChBw is set to '5.0 MHz', default value is instead. maximum value is 0.7 dB Open Loop MIMO’, mimoOlRiThU mustor equal addEmergencySessions must be less -If pMax set tois37.0 dBm, dlCellPwrRed be set, otherwise the value is tofor 480 dlOlqcEnable set default to 'false', maximum value is 0.0 dB used Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A If dlpcMimoComp is set to '3dB', dlRsBoost LTE430 DL power boosting for control channels must be smallerisorset equal than the '3dB'. (standard) If dlOlqcEnable to 'true', specified LTE31-b Simplified BLER based Link Adaptation If dlRsBoost is different to '0 dB', dlTargetBler will be used, in all other cases the (optional) LTE31-b Simplified BLER based Link Adaptation dlpcMimoComp is restricted toby '0 dB' default value is used implicitly BTSand SW.'3 (optional) dB'. iniMcsDl is applicable only if dlamcEnable is LTE31-b Simplified BLER based Link Adaptation If pdcchHarqTargetBler is greater than 1%, set to 'false'. dlOlqcEnable must be set to (optional) dlTargetBler value shall be at least twice of dlpcMimoComp isisnot used case LTE27 Open loop UL power control and DL power If numOfTxPorts to '1',indlRsBoost can 'false' in this case inset addition. pdcchHarqTargetBler. dlMimoMode is set to 'Single TX' setting (optional), LTE430 DL power boosting for not be configured to '1.77dB'. dlpcMimoComp can be set to '0 dB' and '3 dB' control channels (standard) LTE7 Support of multiple EPS bearer (standard) only, when dlRsBoost is different to '0dB' If actDlsOldtc is set to 'false', dlsOldtcTarget is LTE10 EPS bearers for conversational voice not applicable and the default value shall be (standard) d PBCH used used (2) implicitly. LTE42 DRX in RRC connected mode (standard) Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A the drxProfilePriority of drxProfile1 must be greater than drxProfilePriority in drxProfile4 and drxProfilePriority in drxProfile5 Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A the drxProfilePriority (drxProfile2) must be greater than drxProfilePriority (drxProfile4) and drxProfilePriority (drxProfile5) Draft Version A if taTimer is smaller than 1280, drxLongCycle must be set to 40 Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A the drxProfilePriority (drxProfile3) must be greater than drxProfilePriority (drxProfile4) and drxProfilePriority (drxProfile5) drxInactivityT depends on drxLongCycle (in drxProfile4) drxInactivityT depends on drxLongCycle -(in if drxLongCycle drxProfile4) is set to 320, then drxInactivityT must or greater than - if drxLongCycle is be setequal to 320, 500 then drxInactivityT must be equal or greater than 500 drxProfilePriority(drxProfile4) must be less than min(drxProfilePriority(drxProfile1), drxProfilePriority(drxProfile2), drxInactivityT depends on drxLongCycle (in drxProfilePriority(drxProfile3)) drxProfile5) drxInactivityT depends on drxLongCycle (in -drxProfile5) if drxLongCycle is set to 1280, then drxInactivityT must or greater - if drxLongCycle is be setequal to 1280, then than 1280 drxInactivityT must be equal or greater than -1280 if drxLongCycle is set to 2560, then the drxProfilePriority drxProfile5 must be lower drxInactivityT must be to 2560 - if drxLongCycle is drxProfileX setset to 2560, then than any any other (X=1,2,3,4)in drxInactivityT must bei.e. set to 2560 the LNCEL instance, drxProfile5-drxProfilePriority < min(drxProfile1- LTE585 Smart DRX (optional) drxProfilePriority, drxProfile2-drxProfilePriority, drxProfile3-drxProfilePriority, drxProfile4drxProfilePriority) Draft Version A Draft Version A Draft Version E Draft Version A Draft Version D Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version D Draft Version A Draft Version A Draft Version A Draft Version A smartStInactFactor*drxShortCycle must be greater than or is equal to'true' max(200ms, (1) If actOtdoa set to drxOnDuratT drxLongCycle). must be greater than 3. LTE585 Smart DRX (optional) Draft Version A LTE585 Smart DRX (optional) Draft Version A LTE585 Smart DRX (optional) Draft Version A drxSmartProfile2-drxProfilePriority must LTE585 Smart DRX (optional) (2) If drxOnDuratT is less than cqiPerNp greater thanindrxSmartProfile3(calculation cqiPerNp) LTE585 Smart DRX (optional) drxProfilePriority. - 12*drxShortCycle must be less than 1000ms. (1) If drxOnDuratT is less than cqiPerNp LTE585 Smart DRX (optional) (calculation in cqiPerNp) If actSmartDrx is set to 'true' in addition (3) If drxOnDuratT is greater than or equal to LTE585 Smart DRX (optional) -following 12*drxShortCycle must bebe less than 1000ms. condition need to fulfilled: cqiPerNp (calculation in cqiPerNp) smartStInactFactor*drxShortCycle must be be LTE585 Smart DRX (optional) drxSmartProfile2-drxProfilePriority must -greater ceil(drxOnDuratT/cqiPerNp)*floor than or equal to max(200ms, (2) If drxOnDuratT is greater than or equal to less than drxProfile1-drxProfilePriority. (1000ms/drxShortCycle) must be greater than LTE585 Smart DRX (optional) drxLongCycle). cqiPerNp in cqiPerNp) or equal to(calculation 12. smartStInactFactor*drxShortCycle LTE585 Smart DRX (optional) - ceil(drxOnDuratT/cqiPerNp)*floor must be greater than or equal to max(200ms, (1000ms/drxShortCycle) mustdrxOnDuratT be greater than LTE585 Smart DRX (optional) (1) If actOtdoa is set to 'true' drxLongCycle). or equal to 12. than 3. must be greater LTE585 Smart DRX (optional) Draft Version A drxSmartProfile3-drxProfilePriority must be be LTE585 Smart DRX (optional) (3) must (2) smartStInactFactor*drxShortCycle If drxOnDuratT is less than cqiPerNp less than drxSmartProfile2-drxProfilePriority greater than equal to max(200ms, (calculation inorcqiPerNp) LTE585 Smart DRX (optional) and greater than drxSmartProfile4drxLongCycle). - 12*drxShortCycle must be less than 1000ms. (1) If drxOnDuratT is less than cqiPerNp LTE585 Smart DRX (optional) drxProfilePriority. (calculation in cqiPerNp) (3) If drxOnDuratT is greater than or equal to LTE585 Smart DRX (optional) -cqiPerNp 12*drxShortCycle must be less than 1000ms. (calculation in cqiPerNp) smartStInactFactor*drxShortCycle must be LTE585 Smart DRX (optional) -greater ceil(drxOnDuratT/cqiPerNp)*floor than or equal to max(200ms, (2) If drxOnDuratT is greater than or equal to (1000ms/drxShortCycle) must be greater than LTE585 Smart DRX (optional) drxLongCycle). cqiPerNp in cqiPerNp) or equal to(calculation 12. smartStInactFactor*drxShortCycle LTE585 Smart DRX (optional) - ceil(drxOnDuratT/cqiPerNp)*floor must be greater than or equal to max(200ms, (1000ms/drxShortCycle) greater than LTE585 Smart DRX (optional) (1) If drxOnDuratT is lessmust than be cqiPerNp drxLongCycle). or equal to 12. (calculation in cqiPerNp) LTE585 Smart DRX (optional) - 12*drxShortCycle must be less than 1000ms. drxSmartProfile4-drxProfilePriority must be be LTE585 Smart DRX (optional) (3) smartStInactFactor*drxShortCycle must less drxSmartProfile3-drxProfilePriority greater than or equal to max(200ms, (2) Ifthan drxOnDuratT is greater than or equal to LTE585 Smart DRX (optional) and greater than drxSmartProfile5drxLongCycle). cqiPerNp (calculation in cqiPerNp) (1) If drxOnDuratT is less than cqiPerNp LTE585 Smart DRX (optional) drxProfilePriority. - ceil(drxOnDuratT/cqiPerNp)*floor (calculation in cqiPerNp) must be greater than LTE585 Smart DRX (optional) (1000ms/drxShortCycle) -or12*drxShortCycle must be less than 1000ms. equal to 12. smartStInactFactor*drxShortCycle must be LTE585 Smart DRX (optional) Draft Version A greater than or equal to max(200ms, (2) If drxOnDuratT is greater than or equal to LTE585 Smart DRX (optional) drxLongCycle). cqiPerNp (calculation in cqiPerNp) smartStInactFactor*drxShortCycle LTE585 Smart DRX (optional) - ceil(drxOnDuratT/cqiPerNp)*floor must be greater than or equal to max(200ms, (1000ms/drxShortCycle) must greater than LTE585 Smart DRX (optional) (1) If drxOnDuratT is less than be cqiPerNp drxLongCycle). or equal to 12. (calculation in cqiPerNp) LTE585 Smart DRX (optional) - 12*drxShortCycle must be less than 1000ms. drxSmartProfile5-drxProfilePriority must be (3) smartStInactFactor*drxShortCycle must be LTE585 Smart DRX (optional) less drxSmartProfile4-drxProfilePriority. greater than or equal to max(200ms, (2) Ifthan drxOnDuratT is greater than or equal to LTE585 Smart DRX (optional) drxLongCycle). cqiPerNp (calculation in cqiPerNp) (1) If drxOnDuratT is less than cqiPerNp LTE585 Smart DRX (optional) - ceil(drxOnDuratT/cqiPerNp)*floor (calculation in cqiPerNp) (1000ms/drxShortCycle) must be greater than LTE585 Smart DRX (optional) -or12*drxShortCycle must be less than 1000ms. equal to 12. smartStInactFactor*drxShortCycle must be LTE585 Smart DRX (optional) greater than to max(200ms, (2) drxOnDuratT greater than or equaland to LTE39 System information broadcast (optional) If atIfleast oneorofequal theisparameter acBarSig drxLongCycle). cqiPerNp (calculation in cqiPerNp) acBarOc is configured, eCallAcBarred must be LTE1034 Extended Uplink Link Adaptation If parameter actUlLnkAdp is set to value - ceil(drxOnDuratT/cqiPerNp)*floor set to "barred" or "Not barred" 'eUlLa', parameter eUlLaAtbPeriod must (1000ms/drxShortCycle) than (standard) If parameter actUlLnkAdpmust is setbetogreater value be LTE1034 Extended Uplink Link Adaptation specified, in other case the parameter don't or equal to 12. 'eUlLa', parameter eUlLaBlerAveWin must be (standard) If parameter actUlLnkAdp is set to value LTE1034 Extended Uplink Link Adaptation need to beinconfigured specified, other case the parameter don't 'eUlLa', parameter eUlLaDeltaMcs must be (standard) If parameter actUlLnkAdp is set to value (3) smartStInactFactor*drxShortCycle must be LTE1034 Extended Uplink Link Adaptation need to beinconfigured specified, other case the parameter don't 'eUlLa', parameter eUlLaLowMcsThr must be (standard) greater or equal to max(200ms, If parameter actUlLnkAdp is set to value LTE1034 Extended Uplink Link Adaptation need to than beinconfigured specified, other case the parameter don't drxLongCycle). 'eUlLa', parameter eUlLaLowPrbThr must be (standard) If parameter actUlLnkAdp is set to value LTE1034 Extended Uplink Link Adaptation need to beinconfigured specified, other case the parameter don't 'eUlLa', parameter eUlLaPrbIncDecFactor (standard) The earfcnDL must be 18000 lower than LTE40 Physical & transport channels need to be configured must be specified, in other case the parameter (optional), LTE677 FRNA Flexi 3-sector earfcnUl The value of redBwMinRbUl must be less than The earfcnDL must be 18000 lower than LTE40 Physical & transport channels don't need to be configured RF ModuleLTE677 1600, phase 0Flexi (BARBI) or equal to the value of eUlLaLowPrbThr. earfcnUl (optional), FRNA 3-sector parameterofisthe mandatory LTE494for Commercial Mobile Alert System The phyCellId cell mustif be unique within RFSW demo (standard), LTE763 RF Module 1600, phase 0 (BARBI) pwsWithEmAreaId is set to 'true'. all case LNCEL instances served the eNB having FXFA, Flexi 3-sector RF Module 1900 In enableAmcPdcch is by false, LTE749-a Link adaptation for PDCCH RFSW for demo (standard), LTE763 (optional) the same downlink frequency earfcnDL. (standard), LTE87 FXCA, Flexi 3pdcchCqiAvg shall not be determined and the MHz FXFA, Flexi 3-sector RFeNB Module 1900 LTE53c Simplified intra handover (optional) sector RF Module 850 MHz (standard), default value is used implicitly MHz (standard), LTE87 FXCA, Flexi 3LTE88-a FXDA, Flexi 3-pipe RF Module LTE53c Simplified intra eNB handover In case enableAmcPdcch is false, sector RF Module 850 MHz (standard),(optional) 900 MHzSupport (standard), LTE103-a CN4185 pdcchCqiShift shall not be determined and the LTE88-a FXDA, Flexi 3-pipeinRF Module If dl64QamEnable is set to 'true', LTE793 of 16QAM DL (optional) FRLB, Flexi RRH 2TXLTE103-a 730 (demo default value is used 900 MHz (standard), CN4185 enableDl16Qam mustimplicitly be set to 'true'. version) (standard), LTE921 FRBB, Flexi In case enableAmcPdcch false, FRLB, Flexi RRH 2TX 730 (demo If enableDl16Qam is set tois'false', Module 760 (standard), pdcchOlComp shall notbebeset determined version) (standard), LTE921LTE1072 FRBB, Flexi dl64QamEnable must to 'false'. and the RF Flexi Lite BTS (standard), LTE1040 default value is used implicitly RF Module 760750 (standard), LTE1072 If enableDl16Qam is set to 'false', the Flexi 1800LTE1040 3x80 W In case enableAmcPdcch is false, Flexi 3-sector Lite BTS RF 750Module (standard), maximum value for iniMcsDl is 9. LTE1356 CN5027 CRL0644 pdcchClComp shall not be determined and the (standard), Flexi 3-sector RF Module 1800 3x80 W Adding LTE1356 FXCC Flexi 2CRL0644 sector RF default value is used implicitly (standard), LTE1356 CN5027 Module 850 to RL30 (standard), In case enableAmcPdcch is false, Adding LTE1356 FXCC Flexi 2 sector RF Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version B Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Version 1.0 Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A In case (enableAmcPdcch is false) OR LTE749-a Link adaptation for PDCCH (optional) (enablePcPdcch is false), shall LTE749-a Link adaptation for PDCCH (optional) In case enablePcPdcch is enableLowAgg false, not be determined and valueand is enableLowAgg shall notthe bedefault determined LTE654 LTE Configuration Management (optional) used implicitly the default value is used implicitly In case enablePcPdcch is false, pdcchPcBoost shall not be determined and the default value LTE27 Open loop UL power control and DL power is used implicitly setting (optional), LTE28 Closed loop UL power The parameter CS fallback to UTRAN In case enablePcPdcch is false, pdcchPcRed LTE736 control (optional) filterCoefficientCSFBCpichEcn0 is shallparameter not be determined and the default value LTE736 CS fallback to UTRAN The mandatory required if measQuantityCSFBUtra is used implicitly filterCoefficientCSFBCpichRscp If adjWInfList is not empty and is mandatory LTE56 Inter RAT handover to WCDMA (optional) is In case enablePcPdcch false, pdcchPcReloc required if measQuantityCSFBUtra is then measQuantityUtra set is to'cpichEcN0' set to 'cpich-EcN0'. If adjWInfList is notisempty and shall be determined and the be default value LTE56 Inter RAT handover to WCDMA (optional) set tonot 'cpich-RSCP'. filterCoefficientCpichEcn0 must fc0 ...fc19. measQuantityUtra is used implicitly is set to 'cpichRSCP' then filterCoefficientCpichRscp must be 'fc0'...'fc19'. LTE55 Inter-frequency handover (optional) Draft Version A If adjGInfList is not empty then filterCoefficientRSSI must be 'fc0'...'fc19'. no relations Draft Version A LTE442 Network Assisted Cell Change to GSM (optional) Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Version V1.1 no relations Draft Version A The actual range depends on the mncLength: ifDetermines mncLength=2, then range is 00..99, if length of MNC. mncLength=3, then range is 000..999 If actEnhAcAndGbrServices is configured LTE496 Support of QCI 2, 3 and 4 to 'false' gbrCongHandling must be LTE39 System information broadcast (optional) set to 'none'. LTE41 PDCP, MAC & RLC support (optional) Recommendation: If actEnhAcAndGbrServices set to LTE41 PDCP, MAC & RLC support (optional) 'true' it is recommended to configure gbrLTE41 PDCP, MAC & RLC support (optional) CongHandling to 'l2andl3'. harqMaxTrUlTtiBundling is mandatory required LTE907 TTI bundling (optional) if actTtiBundling is set to 'true'. LTE39 System information broadcast (optional) Draft Version A If prachHsFlag is set to 'true' hsScenario must harqMaxTrUlTtiBundling >= harqMaxTrUl be configured, if prachHsFlag is set to 'false' The parameter is mandatory if hsScenario threshold2GERAN is not allowedistoset. be configured. ifvalue actIfHo is 'enabled', threshold2InterFreq must be 0…15 dB If adjWInfList is not empty then Draft Version A Version 1.0 Draft Version A Draft Version D Draft Version A Draft Version A Draft Version A LTE48 Support of high speed users Draft Version A LTE53 Intra and inter eNB handover with X2 (optional) LTE442 Network Assisted Cell Change to GSM Draft Version E (optional) LTE55 Inter-frequency handover (optional) LTE56 Inter RAT handover to WCDMA (optional) hysThreshold2Wcdma must 0... 15.dB hysThreshold2a must be set be to 0…15 LTE55 Inter-frequency handover (optional), LTE56 if one of the following condition applies: Inter RAT handover WCDMA (optional), LTE442 LTE53 Intra and intertoeNB handover with X2 - an instance of LNRELW is configured Network Assisted Cell Change to GSM (optional) (optional) LTE423 RRC connection release with redirect in the LNCEL (standard) -- an instance of LNRELG is configured LTE487 Idle mode mobility load balancing in the LNCEL iFLBHighLoadGBRDL must be bigger or equal - actIfHo is set to 'enabled' than iFLBTargetLoadGBRDL iFLBHighLoadNonGBRDL must be bigger or equal than iFLBTargetLoadNonGBRDL iFLBHighLoadPdcch must be greater than or equal to iFLBTargetLoadPdcch - Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A - Draft Version A iFLBTargetLoadGBRDL must be smaller or equal than iFLBHighLoadGBRDL iFLBTargetLoadNonGBRDL must be smaller or - Draft Version A Draft Version A equal than iFLBHighLoadNonGBRDL iFLBHighLoadPdcch shall be greater than or equal to iFLBTargetLoadPdcch - LTE487 Idle mode mobility load balancing Draft Version A - LTE487 Idle mode mobility load balancing Draft Version A LTE42 DRX in RRC connected mode (standard), LTE815 Proactive Assignment LTE41 PDCP, MACUL & Resource RLC support (optional) (optional) LTE41 PDCP, MAC & RLC support (optional) Draft Version A Draft Version A iniMcsDl is applicable only if both, dlOlqcEnable and dlamcEnable are set to to In case actModulationSchemeUL is set LTE41 PDCP, MAC & RLC support (optional) 'false'. 'QPSK', the maximum value for iniMcsUl is 10. LTE41 PDCP, MAC & RLC support (optional) The range of iniPrbsUl depends on ulChBw setting: Can only be set to higher value than 16 in case LTE39 System information broadcast (optional) -dl64QamEnable if ulChBw is setistotrue. '5.0 MHz', iniPrbsUl is LTE39 System information broadcast (optional) restricted to 1...25 In case enableDl16Qam is FALSE, the -The if ulChBw is set to '10.0 MHz', iniPrbsUl is maximum forlcrId iniMcsDl 9. value value of each in theisLNCEL LTE145 LTE Configuration Management (optional) restricted to 1...50 objects must be unique in the eNB. -It ifisulChBw set to '15.0 the MHz', is requiredisthat always pairiniPrbsUl of restricted to 1...75 LNCEL object and related LCELL object -exists, if ulChBw is set to '20.0 MHz', i.e. the LCELL object withiniPrbsUl is restricted lCellId to 1...100 matching must be created respectively The value of the redBwMinrbUl must be less than deleted with same plan file. or equal to cell the value ofainiPrbsUl. The global identity related Note: Thecell initial amount of be PRBs in uplink neighbor LNREL must different to Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A loadBalancingProfile is mandatory required if actIntraFreqLoadBal is set to 'true'. lowerMarginCIO is mandataory required if actIntraFreqLoadBal is set 'true'. minBitrateDl value must beto less or equal to maxBitrateDl maxBitRateUl value must be greater or equal than minBitRateUl LTE106 6 cell support with one System Module (standard) - Draft Version A - Draft Version A LTE20 Admission control (optional) Draft Version A LTE20 Admission control (optional) Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A if the downlink channel bandwidth dlChBw is set to '5 MHz' and 4 IRFIM instances are LNCEL-maxGbrTrafficLimit + max(LNCELLTE497 Smart admission control created, addGbrIf phichDur is set lower to value 'Extended', -TrafficRrHo, for maxCrSibDl than 0.18, the sum of LTE40 Physical & transport channels (optional) LNCEL-addGbrTrafficTcHo) must maxNrSymPdcch must be set to '3' all inter frequency neighbor and blacklisted (1) Range depends on dlChBw value as LTE113 Cell Bandwidth - 15 MHz (standard), LTE7 be cells must be than less than or equal to 50, follows: Support of multiplecontrol EPS bearer (standard), equal or less 90 The range for maxNumActUE depends LTE20 Admission (optional), LTE458 RL20 If is setMHz' toof'1', actLdPdcch i.e. sum (actual Multiplicity intFrBCList + -on ifmaxNrSymPdcch dlChBw is set to '5.0 or LTE458 RL20 Capacity and Dimensioning dlChBw, ulChBw and actFlexBbUsage Capacity and Dimensioning (standard) can not be configured to 'true', for actual Multiplicity of intFrNCList) of all 4 maxNumCaConfUeDc should be smaller LTE1089 '10.0 MHz',tomaxNumActDrb must be less or (standard)Downlink carrier aggregation - 2 CC according following conditions maxNrSymPdcch set greater to '1' the allowed (optional) IRFIMs 50 equal to=< maxNumActUE or equal to 2400 (1) Range depends on dlChBw value as LTE113 Cell Bandwidth - 15 MHz (standard), (1.1) ifofactFlexBbUsage set to 'false' value actLdPdcch stillthan depends on the --follows: for maxCrSibDl 0.24, sum of LTE10 EPS bearers for conversational voice if dlChBw is set lower to '15.0 MHz' or the and configured values for dlChBw and phichDur The range for maxNumRrc depends on LTE20 Admission control (optional) all inter frequency and blacklisted MHz', maxNumActDrb must be less -'20.0 dlChBw is set and toneighbor '5.0 MHz', (standard), LTE458 RL20 Capacity and - ifmin(ulChBw,dlChBw) has value '5 dlChBw, ulChBw actFlexBbUsage cells must be less than or equal to 75, or equal to 4200 (1) The range for maxNumRrcEmergency LTE113 Cell Bandwidth maxNumQci1Drb must be less or equal Dimensioning (standard)- 15 MHz (standard), MHz', maxNumActUE value range is according to dlChBw following conditions i.e. sum (actual Multiplicity of intFrBCList + (2) maxNumActDrb might restrict or depends on and ulChBw LTE22 Emergency call(UL/DL) handling (standard) to 200 restricted to 0...600 (default value 300) Range depends on as LTE45 Fair scheduler (optional) (1.1) actFlexBbUsage set to 'false' actual of dlChBw intFrNCList) of allfollows: 4 will beif Multiplicity restricted by maxNumRrc and/or according toisfollowing conditions: --and ifmin(ulChBw,dlChBw) dlChBw set to '10.0 MHz', has value dlChBw = '5.0 MHz', value range is restricted IRFIMs =< 75 Range and defaultmust valuebe depend on ulChBw, LTE45 Fair scheduler (UL/DL) (optional) maxNumRrcEmergency due toto calculations -maxNumQci1Drb if1...7 min(ulChBw,dlChBw) is set less or equal MHz', maxNumActUE value range isto 0.24, to (default value 7) -'10 min(ulChBw,dlChBw) is follows: '5 MHz', for maxCrSibDl greater than or equal the values are limited as needed for those parameter '5.0 MHz', maxNumRrcEmergency must to 400 = to LTE20 Admission control (optional) restricted 0...600 (default value 300) dlChBw '10.0 MHz', value range isrestricted restricted maxNumRrc value range is restricted to the sum of all inter frequency neighbor and ulChBw = '5.0 MHz', value range is >= maxNumActUE be less or(default equal to 480 --to dlChBw is setvalue to '15.0 MHz', --toifmaxNumActDrb min(ulChBw,dlChBw) has value 1...10 value 10) 0...480 (default 300) LTE736 CS fallback to UTRAN blacklisted cells must be less than or equal to (default value 7)beisis if actMultGbrBearers setto toequal -(2.1) if1...7 min(ulChBw,dlChBw) set maxNumQci1Drb must less or '15 MHz', maxNumActUE value range is dlChBw = '15.0 MHz', value range is restricted -100, min(ulChBw,dlChBw) is '10 MHz', ulChBw = '10.0 MHz', value range is restricted 'false' following need to be fulfilled '10.0 MHz', If adjWInfList is condition not empty LTE56 Inter RAT handover to WCDMA (optional) to 500 restricted tomaxNumRrcEmergency 0...720 (default value 600) to 1...15 (default value 15) maxNumRrc value range isofrestricted to + i.e. sum (actual Multiplicity intFrBCList 1...10 (default value 10) maxNumRrc +MHz', max(addAUeRrHo, must be less or equal to 600 -to then measQuantityUtra must be 'cpichRSCP' if dlChBw is set to '20.0 MHz', -ulChBw min(ulChBw,dlChBw) has value = '20.0 value range is restricted ifdlChBw dlMimoMode is not set to 'Closed loop 0...600 (default value 300) actual Multiplicity of intFrNCList) = '15.0>= MHz', value range is restricted LTE703 Downlink adaptive closed loop MIMO for addAUeTcHo) maxNumActDrb + -maxNumQci1Drb if1...20 min(ulChBw,dlChBw) isvalue set to or 'cpichEcN0'. must be less or equal MHz', maxNumActUE range isand the two antennas (optional) to (default value 20) MIMO', mimoClCqiThU are not defined -'20 min(ulChBw,dlChBw) is '15 MHz', of all 4 IRFIMs =< 100 if the downlink 1...15 (default valuemust 15) mimoClCqiThU value be to equal orchannel greater LTE703 Downlink adaptive closed loop MIMO for max(addNumDrbRadioReasHo, '15.0 maxNumRrcEmergency -to and measQuantityUtra is set 'cpichRSCP' to 600MHz', restricted to 0...840 (default value 600) default value is used instead maxNumRrc value range is restricted to bandwidth dlChBw is set to '5 MHz' and 5 ulChBw = '20.0 MHz', value range is restricted than mimoClCqiThD two antennas (optional) addNumDrbTimeCriticalHo) must be less or equal to 840 filterCoefficientCpichRscp must be (2) maxNumQci1Drb might restrict ifthen dlMimoMode is set to 'Closed loop (1.2) if instances actFlexBbUsage set be to 'true' mimoClCqiThU value must equal or greater LTE703 Downlink adaptive closed loop MIMO for 0...840 (default value 600) IRFIM are created, to 1...20 (default value 20) if actMultGbrBearers is set to -(2.2) if min(ulChBw,dlChBw) is set to 'fc0'...'fc19'. or willmimoClCqiThD bemimoClRiThD restricted by maxNumRrc or MIMO', be set, otherwise two antennas (optional) and than min(ulChBw,dlChBw) is '20 MHz', dlMimoMode is lower set tomust 'Closed loop -if-'20.0 for maxCrSibDl than 0.18, the sum of LTE703 Downlink adaptive closed loop MIMO for 'true' following condition need be fulfilled MHz', maxNumRrcEmergency measQuantityUtra is set tocalculations 'cpichEcN0' maxNumRrcEmergency due toto the default value is range used instead -alland min(ulChBw,dlChBw) has value '5 maxNumRrc value is restricted to MIMO', mimoClRiThU must be set, otherwise antennas (optional) inter frequency neighbor and blacklisted -mimoClRiThU min(6*maxNumRrc, 4200) >=Dynamic maxmust be less ormust equal togreater 8403: then filterCoefficientCpichEcn0 must beOpen two In case dlMimoMode is not LTE70-b Downlink adaptive open loop MIMO for needed for those parameter be or MHz' or(default '10 MHz', maxNumActUE value 0...840 value 600) the default value is used instead cells must be less than or equal to 47, i.e. sum NumActDrb + max(addNumDrbRadioReasHo, (2) Following condition need to be 'fc0'...'fc19'. Loop MIMO, mimoOlCqiThD shall not be two antennas (optional) (2.1) if actEnhAcAndGbrServices is an equal than mimoClRiThD range restricted tobe 0...420 In case dlMimoMode is greater not Open LTE70-b Downlink adaptive open loop MIMO for (1.2) ifisactFlexBbUsage set 3: to Dynamic 'true', mimoClRiThU must (actual Multiplicity of intFrBCList addNumDrbTimeCriticalHo) fulfilled with to maxNumRrcEmergency defined and respect the default value isor implicitly set to MIMO, 'false' and actConvVoice isused set to (2) maxNumActUE might restrict or Loop mimoOlCqiThU shall not be two antennas (optional) maxNumRrc value range is restricted to an equal than mimoClRiThD + actual Multiplicity of intFrNCList) of all 5 In case dlMimoMode is not 3: Dynamic Open LTE70-b Downlink adaptive open loop MIMO for additionally actIMSEmerSessR9 iffollowing actEmerCallRedir is settotobethen if(2.1) measQuantityUtra is 'cpichEcN0' 'true' condition need fulfilled will be restricted by maxNumActDrb, defined and the default value is used implicitly 0...420 IRFIMs =< 47 Loop MIMO, mimoOlRiThD shall not be two antennas (optional) is set to 'true' 'Enabled' b2Threshold2UtraEcn0 must be 0 ...49. mimoOlCqiThU must be equal or greater than -maxNumRrc maxNumRrc +maxNumRrcEmergency max(addAUeRrHo, In case dlMimoMode is than not 3:0.24, Dynamic or Following conditions need toused bethe -(2) for maxCrSibDl lower sum of LTE70-b Downlink adaptive open loop MIMO for defined andMIMO, the default value is min(6*maxNumRrcEmergency, maxNumRrcEmergency >= maxif-mimoOlCqiThU measQuantityUtra isbe 'cpichRSCP' then mimoOlCqiThD addAUeTcHo) >= maxNumQci1Drb + implicitly Open Loop mimoOlRiThU shall antennas (optional) due to calculations needed for those must equal or greater than two fulfilled with respect to maxNumRrc minBitrateDl value must be less or equal to LTE20 Admission control (optional) all inter>= frequency neighbor blacklisted 4200) + and NumRrc +maxNumActDrb max(addAUeRrHo, addAUeb2Threshold2UtraRscp must be -5 ...91. max(addNumQci1DrbRadioReasHo, not be defined and the default value is parameter mimoOlCqiThD -cells maxNumRrc >= maxNumActUE maxBitrateDl must be less than or equal to 71, mimoOlRiThU must be equal or greater than max(3*addEmergencySessions, TcHo) maxBitRateUl value must be greater than or LTE20 Admission control (optional) addNumQci1DrbTimeCriticalHo) used implicitly. maxNumRrc >= maxNumActUE --mimoOlRiThD maxNumRrc >= maxNumQci1Drb i.e. sum (actual Multiplicity ofisintFrBCList + addNumDrbRadioReasHo, (2.2) ififtoactIMSEmerSessR9 set equal minBitRateUl (2.2) additionally must be equal or -mimoOlRiThU maxNumActDrb >= maxNumActUE The related MOPR instance is mandatory (2.1) if Multiplicity actEnhAcAndGbrServices actual of intFrNCList) ofisall 5 addNumDrbTimeCriticalHo) to 'true' actIMSEmerSessR9 iscondition set to 'true' greater than mimoOlRiThD (2.1) applicable if required. set tovalue 'false' following need to all list IRFIMs =<of 71 The spid must be unique within maxNumQci1Drb must be half -(3) maxNumRrcEmergency >= maxactIMSEmerSessR9 is setthan to 'true' be fulfilled -NumActUE for maxCrSibDl greater or equal to 0.24, entries including optionally configured or less than i.e. +maxNumActDrb, max(addEmergencySessions, maxNumQci1Drb + max(addEmergencyvalue of spidLast must>= bemaxgreater spid than -the maxNumRrcEmergency -The maxNumRrc + max(addAUeRrHo, sum of all inter frequency neighbor and ranges. maxNumQci1Drb <= maxNumActDrb/2 addAUeRrHo, addAUeTcHo) Sessions, spid. NumActUE + max(addEmergencySessions, addAUeTcHo) >=must maxNumActDrb + blacklisted cells be lessasthan or equal to no relations (each GBR-DRB is counted normal (2.2.1) if additionally actMultBearers addNumQci1DrbRadioReasHo, addAUeRrHo, addAUeTcHo) max(addNumDrbRadioReasHo, 95, DBR as well) following is set to values 'true' condition need to no relations addNumQci1DrbTimeCriticalHo) All spid ofMultiplicity the range be unique addNumDrbTimeCriticalHo) i.e. sum (actual ofmust intFrBCList + be fulfilled (3) maxNumQci1Drb must be half within all list entries including relations ifno additionally actConvVoice isfurther, setof alloptionally Multiplicity of intFrNCList) 5 -actual maxNumRrcEmergency >= or less than ranges. maxNumActDrb, i.e. configured, to IRFIMs =< 95 no'true' relations + max(addEmergencymaxNumQci1Drb <= maxNumActDrb/2 -Sessions, maxNumRrc + max(addAUeRrHo, The maximal allowed number (each GBR-DRB is counted asof configurable The product of parameter modPeriodCoeff and addAUeTcHo) >=depends maxNumQci1Drb + GNFL instances on the configured DL LTE39 System information broadcast (optional) addNumQci1DrbRadioReasHo, normal DBR as well) defPagCyc (given in rf) must not exceed 1024. max(addNumQci1DrbRadioReasHo, bandwidth maximum code ifchannel n1PucchAn is set and to 10the than deltaPucchShift LTE40 Physical & transport channels (optional) addNumQci1DrbTimeCriticalHo) addNumQci1DrbTimeCriticalHo) rate. must be set to 1 - min(6*maxNumRrcEmergency, LTE39 System information broadcast (optional) (2.2) actMultGbrBearers 4200)if>= maxNumActDrb +is set to followingiscondition to be fulfilled LTE39 System information broadcast (optional) if'true' n1PucchAn not set toneed 10, the result of max(3*addEmergencySessions, -The ( min(6*maxNumRrc+ n1PucchAn (36/deltaPucchShift) addNumDrbRadioReasHo, maximumMODULO value ofmax(addAUeRrHo, nCqiRb depends on ) LTE40 Physical & transport channels (optional) addAUeTcHo), 4200) >= maxNumActDrb must be (in 0 PRB) addNumDrbTimeCriticalHo) ulChBw LTE971 Intra-LTE mobility offsets (standard) + if actFlexBbUsage set to 'true', -(3) if ulChBw is set to '5 MHz', nCqiRb is limited max(addNumDrbRadioReasHo, LTE145 LTE Configuration Management (optional) maxNumRrcEmergency value range is to 25 addNumDrbTimeCriticalHo) if -restricted if ulChBwtois0...420 set to '10 MHz',(4) nCqiRb is limited LTE27 Open loop UL power control and DL power actEmerCallRedir is set to 'Enabled' to 50 (optional) following condition to be nCqiRb fulfilled is limited setting LTE27 Open loop UL power control and DL power - if ulChBw is set toneed '15 MHz', -tomaxNumRrcEmergency >= maxsetting (optional) 75configured maximal output power The LTE40 Physical & transport channels NumRrc+max(addAUeRrHo, addAUe- if ulChBw set toimpact '20 MHz', nCqiRb is not (pMax) doesishave on the maximal (optional), LTE1106 Flexi low power RRH TcHo) limited allowed cell power reduction (dlCellPwrRed) 850 2TX for optical repeater interface - for pMax set to 49.0 dBm, dlCellPwrRed (standard), LTE1040 Flexi 3-sector RF maximum value is 10.0 dB Module 1800 3x80 W (standard), - for pMax set to 47.8 dBm, dlCellPwrRed LTE1072 Flexi Lite BTS 750 (standard), maximum value is 9.5 dB LTE1337 FHEC Flexi RRH 2TX 1800 low - for pMax set to 46.0 dBm, dlCellPwrRed power (standard) maximum value is 7.7 dB Draft Version A Draft Version A Draft Version A Draft Version D Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version D Draft Version D Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version E Draft Version E Draft Version E Draft Version E Draft Version A Draft Version A Draft Version A Draft Version D Draft Version A Draft Version A Draft Version A Draft Version D Draft Version D Draft Version A no relations LTE39 System information broadcast (optional) Draft Version A no relations LTE39 System information broadcast (optional) Draft Version E LTE49 Paging (optional), LTE39 System information broadcast (optional) LTE749-a Link adaptation for PDCCH (optional) Draft Version A LTE749-a Link adaptation for PDCCH (optional) Draft Version A LTE45 Fair scheduler (UL/DL) (optional) Draft Version A LTE31 Link adaption by AMC (UL/DL) (optional) Draft Version A LTE45 Fair scheduler (UL/DL) (optional) Draft Version A LTE45 Fair scheduler (UL/DL) (optional) Draft Version A LTE749-a Link adaptation for PDCCH (optional) Draft Version A If enableAmcPdcch is false and actOlLaPdcch LTE749 Link adaptation for PDCCH (standard), is false, pdcchCqiShift shall not be determined LTE1035 If actOlLaPdcch is set to 'false', LTE1035 Outer Outer loop loop link link adaptation adaptation for for PDCCH PDCCH and the default value is used instead. the (standard) pdcchHarqTargetBler is not determined, (standard) If actLdPdcch is set to 'false', configured UL LTE749 Link adaptation for PDCCH (standard), default used instead. and DL value split ofisPDCCH LTE616 adaptation If is set toresources pdcchCqiShift If actOlLaPdcch periodicCqiFeedbackType is set to 1%, LTE496 Usage Supportbased of QCIPDCCH 2, 3 and 4 If pdcchHarqTargetBler is'false', greater than (pdcchUlDlBal) is configured fixed used. (standard) is fixed set to the value. 'UE_selected' pdcchHarqTargetBler shall be at maximum one activateMeas for measurementType set If actLdPdcch ismust set to 'true', ULpdcchCqiShift and DL split of actOlLaPdcch is set to 'true', cqiPerSbCycK be half of dlTargetBler. to 'periodicIntraFreq' canspecified. only be configured set runtime to PDCCH resources be adjusted is adjusted runtime may and uses the 'true' ifas actMDTCellTrace is set to 'true'. based on loadvalue.. and the configured value value start If reportInterval isofset tothe '120ms' The modificationdefines actMDTCell(pdcchUlDlBal) initialthan starting point reportAmount must be '1'. Trace from 'true' to 'false' requires that in then. If reportInterval is set to '120ms' than If is set to'1'. '240ms' is set allreportInterval LNCEL instances activateMeas reportAmount must be If phichDur is set tomust valuebe 'Extended', LTE40 Physical & transport channels (optional) than reportAmount '1' or '2'. to 'false'. If reportInterval is set tobe '240ms' maxNrSymPdcch must set to value '3' If reportInterval is set to '480ms' LTE40 Physical & transport channels (optional) than reportAmount must be '1' or '2'. than reportAmount must be less than '8'. If reportInterval is set to '480ms' The phyCellId of the cell must be unique within LTE40 Physical & transport channels (optional) If reportInterval phichDur is setisto 'Extended', actLdPdcch If set to '640ms' than reportAmount must be less than '8'.having all LNCEL instances served by the eNB can not be configured to 'true', for phichDur set than reportAmount berange less than If prachConfIndex ismust within (3..8)'8'. LTE40 Physical & transport channels (optional) If is set tovalue '640ms' the same downlink frequency earfcnDL. toreportInterval 'Normal' therange allowed of actLdPdcch If reportInterval is set '1024ms' then prachCS istorestricted to '8'. than reportAmount must be less than prachCS range is restricted to values (1..12) if LTE40 Physical & transport channels (optional) still depends configured for than reportAmount must be lessvalues than '16'. values (1..12)on isthe If reportInterval set to '1024ms' prachConfIndex is within range (3..8) The phyCellId must be different dlChBw and maxNrSymPdcch Range: 0...ulChBw inwithin PRBs -6 LTE40 Physical & transport channels (optional) reportInterval is set to '2048ms' If prachConfIndex is(0..15) than must beisrange less than '16'. prachCS full range allowed iflist -(19..24) fromreportAmount allthen physCellIdNcl values in the than reportAmount must be less than '32'. prachCS range is full scope prachHsFlag can only be set to ‘true’ if LTE39 System information broadcast (optional) If reportInterval isisset to '2048ms' prachConfIndex within range (19..24) intrFrNCList of the optional IAFIM object, If reportInterval is set toset '5120ms' (0..15) ulCombinationMode is to value than reportAmount must be less than '32'. which is relatedistoset the cell. LTE39 System information broadcast (optional) than reportAmount must be less If prachHsFlag to 'true' the than '64'. 'MRC'. reportInterval is set to '5120ms' -If from anyrootSeqIndex blacklisted PCI range (startIntraPci, range for depends on the LTE39 System information broadcast (optional) If prachHsFlag is the set to 'true’ hsScenario than reportAmount must be less thanof'64'. rangeIntraPci) in list intrFrBCList the configured prachCS value must be configured. LTE39 System information broadcast (optional) IAFIM object, which is related to the cell. -If for prachCS set to '0' allowed prachHsFlag is set tothe 'false’ the prsBandwidth range depends on the dlChBw LTE495 OTDOA rootseqIndex values 24..816 i.e. no hsScenario must not are be specified, as -The for prachCS set to '1' the allowed valuesiWindowLen is allowed to must be set. be appropriately set LTE495 OTDOA below: rootseqIndex are 30..810 If prachHsFlag is set to 'true' the depending onvalues the value of -- for dlChBw '5MHz' allowed maximal prachCS set '2' the the allowed allowed rangeset fortoto rootSeqIndex depends prsConfigurationIndex. value for prsBandwidth is 25 rootseqIndex values are - the configured on prachCS (PRACH required if prsConfigurationIndex is 36..804 mandatory -actOtdoa for dlChBw set '10MHz' the allowed prachCS set '3' the allowed cyclic shift) below is as set tototo 'true'. prsNumDlFrames is mandatory required if LTE495 OTDOA maximal values are 42..796 -rootseqIndex for prachCS set to '0' the allowed actOtdoa is set to 'true' value for prsBandwidth is24..816 50 mandatory required if LTE495 OTDOA -prsPowerBoost for prachCS setis to '4' the allowed rootseqIndex values are -actOtdoa for the allowed is set values are 52..787 -rootseqIndex for dlChBw prachCS settoto'15MHz' '1' the allowed LTE40 Physical & transport channels (optional) maximal set 'true'. values -rootseqIndex fortoprachCS set to '5' the allowed are 30..810 value for prsBandwidth is 75 are 64..779 -rootseqIndex for prachCS values set to '2' the allowed -rootseqIndex for dlChBw prsBandwidth is prachCSset settoto'20MHz' '6' the puschCqiOffI value range isallowed restricted to 2...15 values are 36..804 not are 76..764 -rootseqIndex for prachCS values set to '3' the allowed restricted -rootseqIndex for prachCS values set to '7' the allowed are 42..796 prsBandwidth is mandatory required if LTE39 System information broadcast (optional) are 90..749 -rootseqIndex for prachCS values set to '4' the allowed actOtdoa is values -rootseqIndex for prachCS set to '8' the allowed are 52..787 LTE1036 RSRQ Based Cell Reselection set 'true'. values are 116..732 -rootseqIndex fortoprachCS set to '5' the allowed (standard) LTE39 System information broadcast (optional) -rootseqIndex for prachCS values set to '9' the allowed are 64..779 are 136..704 LTE39 System information broadcast (optional) -rootseqIndex for prachCS values set to '6' the allowed -rootseqIndex for prachCS values set to '10' allowed are the 76..764 LTE39 System information broadcast (optional) are 168..676 -rootseqIndex for prachCS values set to '7' the allowed LTE41 PDCP, MAC & RLC support (optional) -rootseqIndex for prachCS values set to '11' the allowed are 90..749 values are 204..526 -rootseqIndex for prachCS set to '8' the allowed In case actModulationSchemeUL is set to LTE41 PDCP, MAC & RLC support (optional) -'QPSK', for prachCS set to '12' the allowed rootseqIndex values are 116..732 the maximum value for raLargeMcsUl LTE41 PDCP, MAC & RLC support (optional) are 264..566 -rootseqIndex set to '9' the allowed isfor 10.prachCS values -raNondedPreamb for prachCS values set tomust '13' the allowed equal or greater LTE40 Physical & transport channels (optional) rootseqIndex arebe 136..704 values are the 328..498 than raPreGrASize -rootseqIndex for prachCS set to '10' allowed raPreGrASize must be less than or equal to LTE41 PDCP, MAC & RLC support (optional) -rootseqIndex for prachCS values set to '14' allowed are the 168..676 raNondedPreamb are 384..450 raRespWinSize bethe configured LTE41 PDCP, MAC & RLC support (optional) -rootseqIndex for prachCS values setmust to '11' allowed to value '10' in case actFlexBbUsage rootseqIndex values are 204..526 is set to 'true'. - for prachCS set to '12' the allowed rootseqIndex values are 264..566 - for prachCS set to '13' the allowed rootseqIndex values are 328..498 - for prachCS set to '14' the allowed rootseqIndex values are 384..450 Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version C Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version E Draft Version A Draft Version E Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A In case actModulationSchemeUL is set to LTE45 Fair scheduler (UL/DL) (optional) 'QPSK', the maximum value for raSmallMcsUl LTE45 Fair scheduler (UL/DL) (optional) is 10. If rcEnableDl is set to 'false', rcAmbrMgnDl LTE13 Rate capping (UL/DL) (optional) must not be defined the default value is If rcEnableUl is set toand 'false', rcAmbrMgnUl LTE13 Rate capping (UL/DL) (optional) used instead must not be defined and the default value is If rcEnableDl is set to 'false', rcAmbrMgnDl LTE13 Rate capping (UL/DL) (optional) used instead must not be defined the default value is If rcEnableUl is set toand 'false', rcAmbrMgnUl LTE13 Rate capping (UL/DL) (optional) used instead must not be defined and the default value is In case redBwEnDl is false, redBwMaxRbDl used instead shall not be determined and the default value If redBwEnDl is set to 'false', redBwMaxRbDl is used implicitly must not be defined andtothe default value is If redBwRpaEnUl is set 'false', LTE786-a Reduced Uplink Bandwidth (optional) used instead. must not be defined and the redBwMaxRbUl If redBwRpaEnUl is set to 'false', LTE786-a Reduced Uplink Bandwidth (optional) Depending onisdlChBw the range of default value used instead redBwMinRbUl must not be defined and the redBwMaxRbDl must be as follows: If redBwRpaEnUl is ulChBw set to 'false', LTE786-a Reduced Uplink Bandwidth (optional) Range depends on setting default value is used instead 5MHz: 1... 25 redBwMaxRbUl must not be defined and the -Range if ulChBw is set to '5.0 MHz', the value range In casedepends riPerM isonset to '1' and additionally LTE767 Support of aperiodic CQI reports ulChBw setting 10MHz: 1... 50 default value used instead is restricted tois 1...25 riEnable is set to 'true', cqiPerNp cannot be set (optional), LTE31 Link adaption by AMC (UL/DL) -In if ulChBw is set to '5.0 MHz', the value range 15MHz: 1... 75 case riPerM is set to value 1 than If is '10.0 set toMHz', 'false',the value -to ifredBwRpaEnUl ulChBw istoset to 5ms (optional) is restricted 1...25 20MHz: riPerOffset be set -1defined redBwMinRbUl must nottobe and range is 1...100 restricted to'10.0 1...50 If riPerM = 1must then riPerOffset must be setthe to -1. -In if ulChBw is set to MHz', the value case riPerM is set to value 2 than default value is instead -The ifriPerM ulChBw setused to '15.0 MHz', theor value If = 2isrange then riPerOffset must be set to 0. LTE40 Physical & transport channels (optional) If dlMimoMode set torootSeqIndex ‘SingleTX’ ‘TxDiv' range is restricted to 1...50 allowed for riPerOffset mustisbe set to 0 range is restricted to 1...75 riEnable must be set to ‘false’. -In if ulChBw is set to '15.0 MHz', the value when prachHsFlag is set to 'true' case riEnable istoset to and additionally ifriPerOffset ulChBw isthe '20.0 MHz', the value is if-depends isset not set to 'true' '-1' and riEnable range isisrestricted to 1...75 on configured prachCS riPerM set to 1, cqiPerNp cannot be set to 1 range is restricted to 1...100 to 'true', actDrx must be set to 'false' ifset riEnable is set to 'true' and additionally - if ulChBw is set to '20.0 MHz', the value (PRACH cyclic shift) as below (5ms) The optimal default value depends on is set not to '-1' OR is notUplink '1'), range is restricted to'0' 1...100 -(riPerOffset for prachCS theriPerM allowed Channel Bandwidth parameter as actDrx must be set to 'false' The valueisof redBwMinRbUl must follows: be is less than values are 24..816 ifrootseqIndex riPerM not set to '1' and riEnable to --oriffor ulChBw is set to '5.0 MHz' this is 25 setonly equal to the value of eUlLaLowPrbThr, prachCS set tobe '1' the actDrx must set toallowed 'false' -'true', if ulChBw is set to '10.0 MHz' this is 50 if parameter actUlLnkAdp is set to value rootseqIndex values are 30..810 --'eUlLa'. ifforulChBw is set to '15.0 this is 75 prachCS set tomultiplier '2' theMHz' allowed riPerM defines theto for this the cqiPerNp relations -no if ulChBw is set '20.0 MHz', 100 than LTE39 System information broadcast (optional) The value of redBwMinRbUl must beisperiodic less rootseqIndex values are 36..804 which results in the periodicity for RI equal to periodicity theset value of=the iniPrbsUl. -or for prachCS to '3' allowed* riPerM reports. RI cqiPerNp rootseqIndex values are 42..796 - for prachCS set to '4' the allowed no relations values are 52..787 LTE39 System information broadcast (optional) rootseqIndex - for prachCS setvalue to '5' 1ms the allowed 1) siWindowLen shall not be used LTE39 System information broadcast (optional) rootseqIndex values when there are moreare than64..779 5 SIBs set in - for prachCS set to(i.e. '6' the allowed siMessageSibType sib2Scheduling, -sib3Scheduling rootseqIndex values are 76..764 and three in sibSchedulingList) -- for prachCS set to '7'isthe 2) If LNCEL-actOtdoa setallowed to ‘true’, following rootseqIndex are 90..749 condition mustvalues be fulfilled: - (max. -siWindowLen) - for prachCS set to '8' or theequal allowed smaller to ((min rootseqIndex values are 116..732 ((smallest si[x]Periodicity), (PRS period)) – 10 - for /prachCS set(sets to '9'inthe allowed ms) (# of SIBs structure rootseqIndex values arewhere 136..704 sibSchedulingList +2)), depending on - forprsConfigurationIndex prachCS set to '10' thePRS allowed the period in rootseqIndex values equation is setare to 168..676 -above - for prachCS to ms '11' for the allowed PRS period = set - 160 If set to 'SIB4'values then a are MOC IAFIM need to be rootseqIndex 204..526 prsConfigurationIndex = 151 … 157 - 320 ms present. - forprsConfigurationIndex prachCS set to be '12'greatr the allowed for nCellChgHigh must or equal to If set to 'SIB5' thenms a are MOC IRFIM need to be rootseqIndex = 471… 477 -values 640 for264..566 nCellChgMed nCellChgMed must or equal to present. - for prachCS set to be '13'smaller the allowed prsConfigurationIndex nCellChgHigh If set to 'SIB6' then a MOC UFFIM need to be no1111 relations rootseqIndex 328..498 = 1117values - 1280are ms forto same Note: If… nCellChgHigh is set value present. -no forrelations prachCS set to the '14' high the allowed prsConfigurationIndex than nCellChgMed, mobility state Note: If nCellChgHigh is set to same value If set to 'SIB7' then a are MOC GFIM need be rootseqIndex values 384..450 = 2391 … 2397 where si[x]Periodicity istothe does have priority. than nCellChgMed, the high mobility state present. no relations smallest periodicity value in all defined does have priority. If to 'SIB8' then a MOC CDFIM need to be siMessagePeriodicity noset relations present. 3) If actOtdoa set to ‘false’ following condition siMessageSibType 'SIB10' and 'SIB11' smaller must be LTE5 Radio bearer and S1 bearer establishment must be fulfilled - (max. siWindowLen) (optional) present if actETWS is set and LTE5release Radio bearer and S1 bearer establishment or equalintosibSchedulingList (smallest si[x]Periodicity) / (# of to and release (optional) SIBs (sets in structure sibSchedulingList +2)); If ulsSchedMethod is set to 'channel aware' LTE46 Channel aware scheduler (UL) 'true'. where si[x]Periodicity is the smallest periodicity then siMessageSibType 'SIB12' must be present in If ulsSchedMethod is set to 'channel LTE27 Open loop UL power control and DL power value in all defined siMessagePeriodicity srsConfiguration must present and sibaware' srsPwrOffset is be mandatory setting Sounding reference 4) If any sibSchedulingList contains SIB10 the LTE473(optional), ExtendedLTE540 DRX settings (standard) configured. SchedulingList if actCMAS is for setless to 'true'. required, in allvalue other settings signal in normal frames (standard) siWindowLen shall not be than 3ms the srsConfiguration the in LTE40 Physical & transport channels (optional) If dlMimoMode set range to value 'SingleTX', Each SIBx shallisappear notdenpends more thanon once ulsSchedMethod uplink syncSigTxMode also also be set to the default value must is used LTE39 System information broadcast (optional) channel 'SingleTx' sibSchedulingList. instead. bandwidth: -If ifdlMimoMode ulChBw is set to '5MHz' then LTE39 System information broadcast (optional) is set to some another value srsConfiguration than 'SingleTX', syncSigTxMode can be set to LTE50 UE state management (optional) must be within range 1...4 'SingleTx' or 'TXDiv' - if ulChBw is set to '10MHz' then srsConfiguration must be within range 1...8 - if ulChBw is set to '15MHz' then srsConfiguration must be within range 1...4 - if ulChBw is set to '20MHz' then Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Version 1.1 Draft Version A Draft Version A Draft Version A Draft Version E Draft Version A Draft Version A Draft Version E Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A If adjWInfList is not empty then t304InterRAT LTE56 Inter RAT handover to WCDMA (optional) must be 100ms...8000ms. LTE873 SRVCC to GSM Draft Version A LTE53 Intra and inter eNB handover with X2 (optional) LTE442 Network Assisted Cell Change to GSM Draft Version A (optional) LTE39 System information broadcast (optional) - If ulsSchedMethod is set to 'channel aware' or 'interference aware' the timer tPeriodicPhr must be set to value different to 'infinity'. Draft Version A Draft Version A Draft Version A LTE39 System information broadcast (optional) Draft Version A LTE487 Idle mode mobility load balancing Draft Version A LTE1043 3GPP baseline R10 06/2011 (standard) Draft Version A LTE5 Radio bearer and S1 bearer establishment and (optional) LTE5release Radio bearer and S1 bearer establishment Draft Version D and (optional) LTE5release Radio bearer and S1 bearer establishment and release (optional) LTE5 Radio bearer and S1 bearer establishment and release (optional) LTE39 System information broadcast (optional) Draft Version A Draft Version A Draft Version A Draft Version A LTE533 Mobility Robustness (standard) Draft Version A LTE81-a Simplified Timing Advance Mechanisms (optional) LTE41 PDCP, MAC & RLC support (optional) Draft Version A taTimerMargin must be less than or equal to (taTimer-300ms) taTimerMargin must be less or equal to LTE81 Cell range up to 13 km (optional) if(taTimer taTimer- is less than 1280, drxLongCycle 300ms) LTE49 Paging (optional), LTE39 System must be set to 40 information broadcast If threshServingLowQR9 is configured the LTE1036 RSRQ Based(optional) Cell Reselection following condition need to be fulfilled in scope (standard) LTE39 System information broadcast (optional) of the LNCEL instance threshold2a must be less than threshold1 - cellSelectionInfoV920 is mandatory required threshold3 must be less than threshold1in- the LTE442 Network Assisted Cell Change to GSM -If utraFrqQThrHighR9 and utraFrqQThrLowR9 an instance of LNRELG is configured applicable if threshold2a is set to 98 be 0...97. of all existing UFFIM instances belonging to LNCEL then threshold2GERAN must threshold2a must be are greater than orrequired equal to (optional) LTE55 Inter-frequency handover (optional) ('notUsed') the LNCEL instance mandatory threshold2GERAN must be less than or equal threshold2InterFreq threshold2InterFreq must - interFrqQThrR9 of all IRFIM instances in the LTE56 Inter RAT handover to WCDMA (optional) If an instance of LNRELW is configured to threshold2a. be greater belonging to must the LNCEL instance mandatory LNCEL then threshold2Wcdma must beof 0..97. threshold2GERAN must be greater than threshold2a be set to 0...97 ifis one the LTE56 Inter RAT handover to WCDMA (optional), than or equalmust to threshold3InterFreq If actIfHo required threshold2a be greater than or equal to LTE55 Inter-frequency handover (optional), b2Threshold1GERAN. following condition applies: of LNBTS is enabled then threshold2InterFreq must and be less than threshold3a -threshold3 for intFrBCList intFrNCList modified SIB LTE442 Network Assisted Cell Change to GSM threshold2Wcdma. -shall an instance of LNRELW is configured in the be 0..97 aremust size restrictions applied (see definition in (optional) b2Threshold1Utra be less than threshold3 must be less than threshold3a LNCEL those parameter). threshold2Wcdma. -threshold4 an instance of LNRELG is configured in the LTE761 Advanced target cell selection and must be less than LNCEL threshold3InterFreq handover retry for intra frequency handover no relations -threshold4 actIfHo is must set tobe 'enabled' threshold1 must be (optional), LTE423 RRC connection release with less than greater than threshold2a. no relations b2Threshold1GERAN redirect (standard) threshold2InterFreq must be less than or equal threshold4 must be less than ttiBundlingBlerTarget is mandatory required if LTE907 TTI bundling (optional) to threshold2a.is set to 'true' b2Threshold1Utra actTtiBundling ttiBundlingBlerThreshold is mandatory threshold2Wcdma must be less than orrequired equal LTE907 TTI bundling (optional) ifttiBundlingSinrThreshold toactTtiBundling threshold2a. is set to 'true' is mandatory required LTE907 TTI bundling (optional) threshold2GERAN must be less than or equal if(1)actTtiBundling is set toare 'true' Following parameter dependent LTE40 Physical & transport channels ttiBundlingBlerThreshold must always be to threshold2a. on the setting of the ulChBw (in PRB) (optional), LTE113 Cellpaths Bandwidth - 15 greater than ulTargetBler. only if ulCombinationMode is set to 'MRC' LTE979 IRC for 2 RX (1.1) if ulChBw is set to '5toMHz' MHz (standard), LTE106 6 cell support prachHsFlag can be set 'true' LTE40 Physical transport channels (optional) - nCqiRb is limited to 25 with one System&Module (standard), - prachFreqOff is limited to 19 LTE1072 Flexi Lite BTS 750 (standard), LTE31-b Simplified BLER based Link Adaptation (channel bandwidth in PRB-6) LTE179-a CRL0665 Dual band operation (optional) LTE31 Link adaption by AMC (UL/DL) - iniPrbsUl value range is restricted with one System Module - 6*10Mhz (optional) to 1..25 (optional) LTE31 Link adaption by AMC (UL/DL) (optional) - srsConfiguration must be within LTE31 Link adaption by AMC (UL/DL) (optional) 1..4 LTE27 Open loop UL power control and DL power (1.2) if ulChBw is set to '10 MHz' setting (optional) - nCqiRb is limited tois 50 In case ulpcEnable FALSE, ulpcPuschEn LTE28 Closed loop UL power control (optional) -shall prachFreqOff is limited to 44 not be defined and the default value is LTE39 System information broadcast (optional) (channel bandwidth in PRB-6) used implicitly -IniniPrbsUl value range is restricted In case (ulpcEnable is FALSE OR LTE28 Closed loop UL power control (optional) case ulpcEnable is FALSE, ulpcPucchEn to 1..50 ulpcPucchEn is FALSE) ulpcLowlevCch shall shall not be defined and the default value is In case (ulpcEnable is FALSE OR LTE28 Closed loop UL power control (optional) -used srsConfiguration must be within not beimplicitly definedisand the default value is used ulpcPuschEn FALSE) ulpcLowlevSch shall LTE28 Closed loop UL power control (optional) In case (ulpcEnable is FALSE OR 1..8 implicitly In case (ulpcEnable is FALSE OR not be defined and the default value is used ulpcPucchEn isis FALSE) ulpcLowqualCch shall (1.3) if ulChBw is set '15 MHz' ulpcLowlevCch <= ulpcUplevCch (ulpcPuschEn FALSE AND ulpcPucchEn is LTE28 Closed loop UL power control (optional) In case (ulpcEnable istoFALSE OR implicitly not be defined and the default value is used - nCqiRb ulpcSinrMax is limited to 75 FALSE)) shall not be defined and LTE28 Closed loop UL power control (optional) ulpcPuschEn is FALSE) ulpcLowqualSch shall ulpcLowlevSch <= ulpcUplevSch In case ulpcEnable is FALSE, ulpcPucchEn implicitly -not prachFreqOff is is limited to 69 value is used the default value used implicitly be defined and the default shall not be defined the default value is ulpcLowqualCch <=isand ulpcUpqualCch (channel bandwidth in PRB-6) ulpcEnable FALSE, ulpcPuschEn LTE28 Closed loop UL power control (optional) In case (ulpcEnable is FALSE OR implicitly used implicitly -ulpcLowqualSch iniPrbsUl value range is restricted shall not be defined and the default value is is (ulpcPuschEn is FALSE AND ulpcPucchEn <= ulpcUpqualSch In (ulpcEnable is FALSE OR to case 1..75 used implicitly FALSE)) ulpcSinrMin shall notulpcPucchEn be defined and (ulpcPuschEn is FALSE AND is -the srsConfiguration must be within In case (ulpcEnable is FALSE OR default value is used implicitly FALSE)) ulpcSinrMax shall not be defined and 1..4 ulpcPuschEn is FALSE) ulpcUplevSch shall In case (ulpcEnable is FALSE OR the default value is used implicitly (1.4) if defined ulChBw isFALSE set todefault '20 MHz' not be and the value is usedis (ulpcPuschEn is AND ulpcPucchEn In case (ulpcEnable is FALSE OR - nCqiRb is not limited implicitly FALSE)) ulpcRssiMax shall not be defined and (ulpcPuschEn isisFALSE AND is -the prachFreqOff limited to 94ulpcPucchEn In case (ulpcEnable is FALSE OR default value is used implicitly FALSE)) ulpcSinrMin shall not be defined and (channel bandwidth in ulpcPuschEn is FALSE) ulpcLowlevSch shall In case (ulpcEnable is PRB-6) FALSE OR Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version E Draft Version A Draft Version E Draft Version E Draft Version E Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version D Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version D Draft Version A Draft Version A LTE27 Open loop UL power control and DL power setting (optional) In case (ulpcEnable is FALSE OR LTE28 Closed loop UL power control (optional) (ulpcPuschEn is FALSE AND ulpcPucchEn is If ulsSchedMethod is set different to 'channel LTE46 Channel aware scheduler (UL) FALSE)) ulpcReadPeriod shall not to befalse. defined aware' this parameter must be OR set In case LTE28 Closed loop UL power control (optional) and the (ulpcEnable default valueisisFALSE used implicitly ulpcPucchEn is FALSE) ulpcUplevCch shall In case (ulpcEnable is FALSE OR LTE28 Closed loop UL power control (optional) not be definedisand the default value is used ulpcPuschEn FALSE) ulpcUplevSch shall In case (ulpcEnable is FALSE OR LTE28 Closed loop UL power control (optional) implicitly not be definedisand the default value is used ulpcPucchEn FALSE) ulpcUpqualCch shall ulpcUplevCch >= ulpcLowlevCch In case (ulpcEnable is FALSE OR LTE28 Closed loop UL power control (optional) implicitly not be definedisand the default value is used ulpcPuschEn FALSE) ulpcUpqualSch shall LTE7 Support of multiple EPS bearer (standard) ulpcUplevSch >= ulpcLowlevSch If ulsSchedMethod is set to 'interference implicitly not be defined and aware' the default value is used aware' or 'channel ulpcUpqualCch >= ulpcLowqualCch If ulsFdPrbAssignAlg is setulsFdPrbAssignAlg to 'RoundLTE10 EPS bearers for conversational voice implicitly must be set to 'Mixed FD'. RobinFD' (packet aggregation is disabled (standard) ulpcUpqualSch >= ulpcLowqualSch The maximal value of ulsMinRbPerUe LTE571 Controlled uplink packet segmentation If ulsFdPrbAssignAlg is set to 'RoundRobinFD' for VoIP bearer) ulsMaxPacketAgg must depends on the ulChBw: (standard) (packet aggregation is be to ‘1’. set to '5MHz', ulsMinRbPerUe is LTE571 Controlled uplink packet segmentation -disabled forset ulChBw for VoIP bearer) ulsMaxPacket(standard) If ulsSchedMethod is LTE619 Interference aware UL scheduling limited to maximal Agg must be set to25 ‘1’.set to 'channel aware' following condition need to be fullfilled (standard) -upperMarginCIO for ulChBw set to '10MHz', ulsMinRbPerUe is mandataory required if LTE1140 Intra-frequency load balancing srsConfiguration is mandatory required is limited to maximal 50 actIntra-FreqLoadBal srsPwrOffset mandatory for ulChBw set to '15MHz', ulsMinRbPerUe LTE1195 FHCC Repeater Interface isisset to 'true'. required Module (standard), LTE1195-e FHCC -isulpcSrsEn is mandatory limited to maximal 75 required If ulsSchedMethod is set to 'interference - for ulChBw set to '20MHz', ulsMinRbPerUe Repeater Interface Module -Info model update and merge for RL40 (standard) aware' or 'channel aware' all of the following is not limited condition must be filfilled: - ulsFdPrbAssignAlg must be set to 'Mixed FD' - tPeriodicPhr is not allowed to be set to 'infinity'. Draft Version A Draft Version A Draft Version A Draft Version A Draft Version D Draft Version A Draft Version D Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A PLMN VF O2 listId 1 2 3 1 2 siMessagePeriodicity 160ms (1) 160ms (1) 160ms (1) 160ms (1) 160ms (1) siMessageRepetition 1 1 1 1 1 siMessageSibType Sib6 (4) Sib7 (5) Sib5 (3) Sib6 (4) Sib7 (5) Abbreviated Name gfimId tResGer tResGerSF - gerResTiFHM tResGerSF - gerResTiFMM Full Name GERAN frequency idle mode configuration identifier GERAN cell reselection timer GERAN cell reselection timer factor high mobility GERAN cell reselection timer factor medium mobility Description Modification Range and step NSN Default This parameter uniquely identifies a GFIM (GERAN frequency Idle Mode GERAN cell reselection timer Configuration) managed object. The field t-ReselectionGERAN is multiplied with this factor if the UE The field t-ReselectionGERAN is is in the high mobility state as defined multiplied with this factor if the UEinis in 36.304 the medium mobility state as defined in 36.304. Not modifiable On-line On-line On-line 1...1, step 1 0...7 s, step 1 s 0.25 (0), 0.5 (1), 0.75 (2), 1 (3 0.25 (0), 0.5 (1), 0.75 (2), 1 (3 - VF Default TEF Default 1 3s - 1 3s - Parameter relationships If SIB7 is set in any of si(x)MappingInfo no relations no relations no relations Related features LTE39 System information LTE39 System broadcast information(optional), LTE762 (optional), broadcast (optional), LTE654 (optional) LTE LTE762 Configuration Management (optional) Change Control Draft Version A Draft Version A Draft Version C Draft Version C Abbreviated Name Full Name bandInd gCelResPrio gerArfcnVal gerFrqThrH gerFrqThrL gnflId idleLBGeranCelResPrio nccperm pMaxGer qRxLevMinGer GERAN frequency band indicator GERAN RAT carrier frequency absolute priority ARFCN value list GERAN inter-frequency threshold high GERAN inter-frequency threshold low GERAN neighbour frequency configuration identifier GERAN carrier freq prio for idle mode load balancing NCC permitted bitmap GERAN maximum allowed transmit power GERAN minimum required receive level Description Modification This is an indicator to distinguish the On-line GERAN in casecarrier of ARFCN Absolutefrequency priority of band the GERAN On-line values associated with either GSM 1800 or frequency Each ARFCN value explicitly listed On-line GSM 1900 carriers. This specifies the threshold used by the UE On-line For ARFCN values not associated with one Equal priorities between RATs are not when reselecting towards a higher priority of those bands, the indicator is 36.304]. notinrelevant. This specifies the threshold used On-line supported according to [3GPP frequency Xtowards than thefrequency currently X serving reselection priority Identifies GNFL (GERAN Neighbour Not modifiable frequency from a higher frequency Frequency Listpriority Configuration) Absolute priority of the GERANmanaged carrier On-line object frequency used restricts for Idle Mode Load This parameter the permitted On-line Balancing. Network Colour Code (NCC) for idle This is the maximum allowed transmission On-line 7 is themobility. highest priority and 0 the lowest. mode power for GERAN on an uplink carrier This specifies the minimum required RX On-line When the parameter notnetwork defined,isthe Using default settings,isno frequency. level in the cell in dBm corresponding carrier is not used in permitted. Applicable for the neighbouring GERAN IdleModeMobilityControlInfofor Load A fieldonencoded as afrequency. bitmap, where cells this carrier Balancing. bit N is set to "0"isifabsent, a BCCHthe carrier with If pmaxGERAN maximum NCC = N-1 is not permitted for monitoring, power according to the UE capability is and set to "1" if the BCCH carrier with used. NCC = N-1 is permitted for monitoring; N = 1 to 8; bit 1 of the bitmap is the leading bit of the bit string. gerArfcnVal : refer Tab - GNFL_GERARFCNVAL Range and step gsm1800 (0), gsm1900 (1) 0...7, step 1 0...1023, step 1 0...62 dB, step 2 dB 0...62 dB, step 2 dB 1...16, step 1 0...7, step 1 Bit 0: NCC 7, Bit 1: NCC 6, Bit 2: NC 0...39 dBm, step 1 dBm -115...-25 dBm, step 2 dBm NSN Default VF Default TEF Default 0 - gsm1800 (0) 1 0 dB 0 dB 1 255 (11111111) 33 dBm -105 dBm gsm1800 (0) 1 0 dB 0 dB 1 255 (11111111) 33 dBm -105 dBm Parameter relationships no relations gCelResPrio must be unequal to the setting of - cellReSelPrio in each LNCEL instance, - eutCelResPrio in each IRFIM instance, no relations - uCelResPrio in each UFFIM instance, relations -no hrpdCResPrio in each CDFIM instance, - rttCResPrio in each CDFIM instance on the DL channel bandw Following restrictions apply dependent (1) dlChBw set to '5MHz' Carriers in different RATs must have - if maxCrSibDl is equal orPriority bigger 0.23, the allowed number of G different Cell Reselection no relations - if maxCrSibDl is equal or bigger 0.12 but less then 0.23, the al (According to 3GPP 36.304), relations -no if maxCrSibDl is equal or biggerin0.08 i.e. the idleLBGeranCelResPrio the but less then 0.12, the al -no if maxCrSibDl is equal or bigger 0.05 but less then 0.08, the al relations GNFL instance must be unique compared to the setting of dlChBw set to '10MHz'in the -(2) idleLBGeranCelResPrio - if maxCrSibDl is equal or bigger 0.08 but less then 0.12, the al LNCEL this GNFL instance belongs -- ifidleLBCellReSelPrio maxCrSibDl is equal bigger 0.05 but less then 0.08, the al in or each IRFIM instance belonging to the same LNCEL (3) dlChBw set to '15MHz' in each - idleLBUtranFddCelResPrio - if maxCrSibDl equal or bigger 0.05 but less then 0.08, the al UFFIM instanceisbelonging to the same LNCEL - idleLBHrpdCelResPrio in each CDFIM instance belonging to the same LNCEL - idleLBRttCelResPrio in each CDFIM instance belonging to the same LNCEL Related features LTE39 System information broadcast (optional), LTE762 (optional) LTE39 System information broadcast (optional), LTE762 (optional) LTE39 System information broadcast (optional), LTE762 (optional) LTE39 System information broadcast (optional), LTE762 (optional) LTE39 System information broadcast (optional), LTE762 (optional) LTE39 System information broadcast (optional), LTE762 (optional), LTE654 load LTE Configuration LTE487 Idle mode mobility balancing Management (optional) (standard) LTE39 System information broadcast (optional), LTE762 (optional) LTE39 System information broadcast (optional), LTE762System (optional) LTE39 information broadcast (optional), LTE762 (optional) Change Control Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A 1 2 3 4 5 6 7 8 9 10 11 12 13 gerArfcnVal 14 15 16 17 1 63 65 67 69 71 73 75 76 77 79 81 83 84 85 1 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 gfimId gnflId VF 1 O2 1 87 89 91 18 19 93 95 20 21 97 99 22 23 24 25 26 27 28 29 30 31 32 120 121 122 123 124 Abbreviated Name Full Name tResUtra tResUtraSF - utrResTiFHM tResUtraSF - utrResTiFMM uffimId utrFddCarFrqL - dlCarFrqUtra utrFddCarFrqL - idleLBUtranFddCelResPrio utrFddCarFrqL - pMaxUtra utrFddCarFrqL - qQualMinUtra utrFddCarFrqL - qRxLevMinUtra utrFddCarFrqL - uCelResPrio utrFddCarFrqL - utraFrqQThrHighR9 utrFddCarFrqL - utraFrqQThrLowR9 utrFddCarFrqL - utraFrqThrH utrFddCarFrqL - utraFrqThrL UTRA cell reselection timer UTRA cell reselection timer factor high mobility UTRA cell reselection timer factor medium mobility Utran FDD idle mode configuration identifier UTRA downlink frequency value UTRA-FDD carrier freq prio for idle mode load balancing UTRA maximum allowed transmit power UTRA minimum needed quality parameter UTRA minimum required receive level UTRA carrier frequency absolute priority UTRA inter-RAT quality threshold high (Rel9) UTRA inter-RAT quality threshold low (Rel9) UTRA inter frequency threshold high UTRA inter frequency threshold low Description Modification Range and step NSN Default UTRA cell reselection timer The field t-ReselectionUTRA is multiplied by this factor if the is UE is in The field t-ReselectionUTRA the high mobility state as defined multiplied the by this factor if the UE isinin Identifies UFFIM (UTRAN FDD 36.304. the medium mobility state as defined Frequency Idle Mode configuration) Contains the Downlink Frequency in 36.304. objects. managed (Nd) as ARFCN Absolute priority value of the UTRA-FDD carrier frequencyAllowed used forTransmit Idle Mode UTRA Maximum Load Balancing. Power This specifies the minimum required 7 is the highest priority and 0 the quality level in the the minimum cell in dB.required It is not This specifies lowest. applicable to TDD cells or GSM cells RX level the cell dBm When thein parameter is not defined, Absolute priority of in the UTRA carrier or E-UTRA cells. the carrier is not used frequency Thiscorresponding specifies the quality threshold in IdleModeMobilityControlInfofor used by the UE when reselecting This specifies the quality threshold Load Balancing. Equal priorities between RATs are not towards a higher priority UTRA RAT used by the UE when reselecting Not recognized by UEs < Rel9 supported according to [3GPP Not recognized by UEs < Rel9 towards a lower priority UTRA RAT 36.304]. This specifies the threshold used in reselection towards the frequency X priority from a higher priority frequency On-line On-line On-line Not modifiable On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line 0...7 s, step 1 s 0.25 (0), 0.5 (1), 0.75 (2), 1 (3) 0.25 (0), 0.5 (1), 0.75 (2), 1 (3) 1...1, step 1 0...16383, step 1 0...7, step 1 -50...33 dBm, step 1 dBm -24...0 dB, step 1 dB -119...-25 dBm, step 2 dBm 0...7, step 1 0...31 dB, step 1 dB 0...31 dB, step 1 dB 0...62 dB, step 2 dB 0...62 dB, step 2 dB - F1 (UMTS2100) VF Default F3 (UMTS900) VF Default F1 (UMTS2100) TEF Default 2s 1 10712 24 dBm -13 dB -115 dBm 4 0 dB 8 dB F3 (UMTS900) TEF Default 2s 1 2938 24 dBm -13 dB -115 dBm 4 0 dB 8 dB 10637 24 dBm -13 dB -115 dBm 4 0 dB 8 dB 2963 24 dBm -13 dB -115 dBm 4 0 dB 8 dB Parameter relationships no relations no relations no relations If SIB6 is set in any of si(x)Map The parameter dlCarFrqUtra must be set uniquely in all inst Carriers in different RATs must have different Cell Reselection no relations Priority (According to 3GPP no relations 36.304), no i.e. relations the idleLBUtranFddCelResPrio in to the setting of uCelResPrio must be unequal instance must be unique -UFFIM cellReSelPrio in each LNCEL instance, utraFrqQThrHighR9 is mandatory to the setting of -compared eutCelResPrio in each IRFIM instance, required if threshServingLowQR9 utraFrqQThrLowR9 is mandatory idleLBCellReSelPrio the instance, -ofgCelResPrio in each in GNFL the LNCEL instance this required if threshServingLowQR9 no relations this UFFIM instance -LNCEL hrpdCResPrio in each CDFIM instance, UFFIM belongs to is configured. of the LNCEL instance this -belongs rttCResPrio no relations in each CDFIM instance UFFIM belongs to is configured. -utraFrqQThrHighR9 idleLBEutCelResPrio in each is mandatory IRFIM instance belonging to the required if utraFrqQThrLowR9 in utraFrqQThrLowR9 is mandatory same LNCEL this utrFddCarFrqL list set is in required if utraFrqQThrHighR9 - idleLBGeranCelResPrio in each configured. this utrFddCarFrqL list set is GNFL instance belonging to the configured. same LNCEL - idleLBHrpdCelResPrio in each CDFIM instance belonging to the same LNCEL - idleLBRttCelResPrio in each CDFIM instance belonging to the same LNCEL Related features LTE39 System information broadcast (optional), LTE762 (optional) LTE39 System information broadcast LTE762 (optional), LTE654 FrqUtra must(optional), be set uniquely in all instances of struct LTE Configuration Management (optional) unequal to the setting of h LNCEL instance, ch IRFIM instance, h GNFL instance, ch CDFIM instance, CDFIM instance Change Control Draft Version E Draft Version C Draft Version C Draft Version A Draft Version A Draft Version A Draft Version A Draft Version E Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Version 1.2 Abbreviated Name iafimId intrFrBCList - rangeIntraPci intrFrBCList - startIntraPci intrFrNCList - physCellIdNcl intrFrNCList - qOffsetCell Full Name Intra frequency idle mode configuration identifier Number of PCI in intra-frequency range Lowest PCI in intra-frequency range Physical cell identifier in neighboring cell list Cell reselection procedure offset The parameters within this object are Not Used Description Modification Range and step NSN Default Identifies IAFIM (IntraFrequency Idle Mode of PCIs Indicates the number configuration) managed object in the range Indicates the(including lowest PCI in the startPCI). Value n4 range The Physical Cell Identifier is a corresponds with 4, n12 unique cell identification a The parameter defines aincellcorresponds with 12 and so on. neighboring cell list specific offset (in dB) that is The UE applies value 1 if the used the cellinreselection field isinabsent, which case procedure. only the physical cell identity value indicated by start applies. Not modifiable On-line On-line On-line On-line 1...1, step 1 n4 (0), n8 (1), n12 (2), n1 0...503, step 1 0...503, step 1 -24 dB (0), -22 dB (1), -20 0 dB (15) hin this object are Not Used Currently VF Default TEF Default 1 0 dB (15) 1 0 dB (15) Parameter relationships Related features If SIB4 is set in any of si(x)MappingInfo LTE39 given System as related parameters an instance of M When the class IAFIM created at least information one list (intra-frequency blac The physical layer cell is identity (PCI) phyCellId of of theintrFrBCList cell broadcast (optional), The physical layer cell identity (PCI) phyCellId of the cell mu LTE654 LTE The value of physCellIdNcl must be unique in all lists intrFrNCList of the IAFIM instan Configuration The list must not contain the physical layer cell identity of the cell itself, i.e. any physC Management no relations (optional) Change Control Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Abbreviated Name Full Name dlCarFrqEut eutCelResPrio idleLBEutCelResPrio intFrBCList - rangeInterPci intFrBCList - startInterPci intFrNCList - physCellIdNcl intFrNCList - qOffCell interFrqQThrR9 - interFrqQThrHighR9 interFrqQThrR9 - interFrqQThrLowR9 interFrqThrH interFrqThrL interPresAntP interTResEut irfimId measBdw pMaxInterF qOffFrq qQualMinR9 qRxLevMinInterF tResEutSF - eutResTiFHM tResEutSF - eutResTiFMM EUTRA frequency value EUTRA carrier frequency absolute priority Carrier frequency priority for idle mode load balancing Number of PCI in inter-frequency range Lowest PCI in inter-frequency range Physical cell identifier in neighbouring cell list Cell reselection procedure offset EUTRA inter-frequency quality threshold high (Rel9) EUTRA inter-frequency quality threshold low (Rel9) EUTRA inter frequency threshold high EUTRA inter frequency threshold low EUTRA presence antenna port1 EUTRA cell reselection timer IRFIM identifier Allowed measurement bandwidth Pmax neighbouring EUTRA cells EUTRA frequency specific offset Min required RSRQ in inter-freq neighbor cells (Rel9) Minimum required Rx RSRP level EUTRA cell reselection timer factor high mobility EUTRA cell reselection timer factor medium mobility Description Modification Range and step eUTRA frequency (max. value ref to 3GPP 36.331 chapter as EARFCN Absolute priority of the6.4) EUTRA carrier value frequency Absolute priority of the EUTRA carrier frequency used for Idle Load Indicates the number ofMode PCIs in the range Equal priorities between RATs are not Balancing. 0 means the lowest priority (including startPCI). Value n4 Indicates the lowest PCI in the 36.304]. range supported according to [3GPP corresponds with 4, n12 corresponds with The Physical Cell Identifier is a unique 12 and so on. The UE applies value 1 if cell identification in a Neighbouring Cell Thefield parameter defines a cell-specific the is absent, in which case only the List. It (in is used to indicate the physical offset dB) that is used in the cell physical cell identity valuethreshold indicatedused by This specifies the quality layer identityprocedure. of the cell, as defined in TS reselection start applies. by the UE when reselecting towards a This specifies the quality threshold used 36.211 This specifies the offset between two higher priority frequency than the by the UE whenby reselecting towards a Not recognized UEs < Rel9. cells. currently serving frequency. lower priority frequency than the currently This specifies the used in Not recognized bythreshold UEs < Rel9. serving frequency. reselection towards frequency Xispriority The IE PresenceAntennaPort1 used to from a higher priority frequency indicate whether all the neighboring cells EUTRA Cell Reselection Timer use Antenna Port 1. When set to TRUE, Identifies IRFIM (Inter-frequency Idle the UE may assume that at least two cellMode managed objects. The IEconfiguration) AllowedMeasBandwidth specific antenna ports are used is in used all to indicate maximum allowed neighboring cells.for the Pmax to the be used neighbouring Emeasurement common for all UTRA cells on bandwidth this carrier frequency. Frequency-specific offset for equal If neighbouring cells on a Pmax absent, the maximum power priorityisE-UTRAN frequencies. Minimum requiredThe quality levelmbw6, in intercarrier frequency. values according to the UE capability is used. frequency neighbor cells. mbw15, mbw25, mbw50, mbw75, Specifies the minimum required Rx Not recognized by6,UEs Rel9. mbw100 indicate 15, < 25, 50,is75 and RSRP level for the neighboring EUTRA The field t-ReselectionEUTRA 100 blocks respectively. cellsresource on this carrier frequency. multiplied with this factor if the UE is in The field t-ReselectionEUTRA is the High Mobility state as defined in multiplied with this factor if the UE is in 36.304 Medium Mobility state as defined in 36.304. On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line Not modifiable On-line On-line On-line On-line On-line On-line On-line 0...65535, step 1 0...7, step 1 0... 7 n4 (0), n8 (1), n12 (2), n16 (3), 0...503, step 1 0...503, step 1 -24 dB (0), -22 dB (1), -20 dB ( 0...31 dB, step 1 dB 0...31 dB, step 1 dB 0...62 dB, step 2 dB 0...62 dB, step 2 dB false (0), true (1) 0...7 s, step 1 s 1...5, step 1 6mbw (0), 15mbw (1), 25mbw ( -30...33 dBm, step 1 dBm -24 dB (0), -22 dB (1), -20 dB ( -34...-3 dB, step 1 dB -140...-44 dBm, step 2 dBm 0.25 (0), 0.5 (1), 0.75 (2), 1 (3) 0.25 (0), 0.5 (1), 0.75 (2), 1 (3) Only applicable for VF NSN Default VF Default (800 to 2600) 0 dB (15) - 2850 6 26 dB 0 dB true(1) 2s 1 100mbw (5) Not Used 0 dB (15) -120 dBm - Parameter relationships The dlCarFrqEut must be set uniquel eutCelResPrio must be unequal to the setting of -no uCelResPrio relations in each UFFIM instance, - gCelResPrio in each GNFL instance, no relations - hrpdCResPrio in each CDFIM instance, relations in each CDFIM instance -no rttCResPrio no relations no relations no relations no relations no relations no relations no relations no relations If SIB5 is scheduled in sibSchedulin no relations no relations no relations no relations no relations no relations no relations Related features Change Control LTE39 System information broadcast LTE39 System (optional), LTE762 information LTE487 Idlebroadcast mode (optional) (optional), LTE762 mobility load balancing (optional) Draft Version A Version 1.2 Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A LTE39 System information broadcast LTE39 System (optional), LTE762 information broadcast LTE39 System (optional) LTE762 (optional), information broadcast LTE39 System (optional) (optional), LTE762 information broadcast LTE39 System (optional) LTE762 (optional), information broadcast LTE39 System (optional) (optional), LTE762 information broadcast LTE39 System (optional), LTE762 LTE654 LTE (optional), information broadcast LTE39 System Configuration (optional) (optional), LTE762 information broadcast Management (optional) LTE1036 RSRQ Based (optional) LTE762 (optional), Cell Reselection LTE39 System (optional) (standard) information broadcast (optional), LTE762 (optional) Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version C Draft Version C Abbreviated Name actAlsoForUeBasedANR anrPrLId anrThresRSRPNbCell anrThresRSRQNbCell nrLimitInterFreq nrLimitIntraFreq targetCarrierFreq Full Name Activate also for UE-based ANR ANR profile for LTE identifier ANR power level threshold for neighbor cells ANR quality threshold for neighbor cells Neighbor relation limit interfrequency Neighbor relation limit intrafrequency Target carrier frequency Description Modification Range and step Activates the profile for UE-based intraand/or inter-frequency ANR (LTE556, This parameter uniquely identifies an LTE782) too. If set to "true" the profile ANRPRL object. An Automatic Neighbor If RSRP of a neighbor cell included in applies for any kind (ANRPRL) of ANR, thatdefines is UERelationship Profile ANR measurement The eNB to resolve the"false" CGI based andwill notrequest UE-based. If set to carrier-frequency-specific settings for "reportStrongestCells" is greater than of unknown cells detected via a the profile is not applied for UE-based Once the number of of LTE inter-frequency automatic detection LTE anrThresRSRPNbCell, thenifintraathe cell is ReportStrongestCells only ANR but still applied for not UE-based neighbor relations of LTE the eNB cell frequency and inter-frequency neighbor Once the number of intra-frequency accepted by eNB as a neighbor cell respective RSRQ level measured byfor the ANR features (for example LTE492). reaches "nrLimitInterFreq", thecell eNB stops cells. neighbor relations of the eNB which CGI is needed. Thethe parameter The parameter identifies EUTRA is UE is at least equal to autonomous learning of newthe neighbor reaches "nrLimitIntraFreq", eNB relevant only if at least one of the target carrier frequency for which thisstops anrThresRSRQNbCell. The parameter is cells via ANR. autonomous learning of new neighbor features; LTE782 or LTE556, is activated, ANR profile applies. The profile applies relevant only if at least one of the Note:via The number of inter-frequency cells ANR. that is if actUeBasedAnrIntraFreqLte for intraand or inter-frequency ANR features; LTE782 or LTE556, activated, neighbor relations can exceedisthis limit Note: The number of intra-frequency and/or actUeBasedAnrInterFreqLte dependent on the carrier frequency is of set the that is if actUeBasedAnrIntraFreqLte since new neighbor cells/new neighbor neighbor relations can exceed thisthe limit to "true". cell. If no target carrier is defined, and/or actUeBasedAnrInterFreqLte is set relations still can be cells/new configuredneighbor via O&M since new neighbor profile applies for any frequency which is to "true". and autonomous creation of neighbor relations still be This configured via O&M measured bycan a UE. profile is relations for already available neighbor and autonomous creation of neighbor considered as default profile and must cells might occur. relations for already available neighbor exist in any case. If an ANRPRL instance cells might occur. with a dedicated carrier frequency exists, this has higher priority than the default profile. Note that ANR measurements will be only activated in a cell if an LNHOIF object is created for each relevant target carrier frequency. On-line Not modifiable On-line On-line On-line On-line On-line 0 (false), 1 (true) 0...31, step 1 -140...-44 dBm, step 1 dBm -19.5...-3 dB, step 0.5 dB 1...256, step 1 1...256, step 1 0...65535, step 1 NSN Default VF Default Shared Default 1 (true) -100 dBm -12 dB 16 32 - 1 (true) 0 -44 dBm -3 dB 256 256 - 1 (true) 0 -44 dBm -3 dB 256 256 - Parameter relationships For the default profile, ANRPRL0 following conditions need to be fulfilled: - this instance (with anrPrLId set to '0') must always be existing in the eNB database -targetCarrierFreq the targetCarrierFreq must must be be omitted.within all ANRPRL unique instances. targetCarrierFreq must be omitted in the ANRPRL instance with anrPrLId=0 (default profile). In all other ANRPRL instances the targetCarrierFreq must be configured. Related features Change Control LTE1383 ANR Robustness LTE556 ANR(standard) Intra-LTE, Inter-frequency LTE1383 ANR - UE based (optional) Robustness (standard) LTE1383 ANR LTE1383 ANR Robustness (standard) LTE1383 ANR Robustness (standard) Robustness (standard) LTE1383 ANR Robustness (standard) LTE1383 ANR Robustness (standard) Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Abbreviated Name Full Name adjEnbId cPlaneIpAddr cPlaneIpAddrCtrl guGroupIdList - mcc guGroupIdList - mmeGroupId guGroupIdList - mnc guGroupIdList - mncLength lnAdjId plmnId - mcc plmnId - mnc plmnId - mncLength x2LinkStatus Identity of neighbor eNB within PLMN C-Plane IP address of neighbor eNB C-Plane IP address control MCC in PLMN identity included in GU group ID MME group ID included in GU group ID MNC in PLMN identity included in GU group ID MNC length in PLMN identity included in GU group ID Neighbour eNB identifier MCC in primary PLMN identity of neighbor eNB MNC in primary PLMN identity of neighbor eNB MNC length in primary PLMN of neighbor eNB X2 link status Description Modification This is the unique ID of the neighbor eNB Not modifiable within PLMN, where and IP plmnId On-line This parameter holdsadjEnbId the C-Plane form the neighbor global eNB ID. address of this adjacent eNB. The parameter determines whether the C- On-line Format: the formatofofthe thisneighbor parameter allows Plane IP address eNB (X2 Not modifiable Mobile Country Code in PLMN identity for anisIPv4 IP address in theordotted link) statically configured whether eNB included in GU group ID.inMCC and MNC MME group ID included GU group ID. decimal form. is allowed to update the address based on Not modifiable build a unique PLMN ID. Value 0.0.0.0 means the Control plane IP Mobile Network Code in PLMN identity information provided by ANR procedures. Not modifiable address is included in not GUdefined. group MNC oamControlled X2 link:ID. MCC This parameter determines the and range of Not modifiable build a unique PLMN of ID.the operator to It is the responsibility MNC. This is the instance identifier of the object Not modifiable configure the parameter correct cPlaneIpAddr. Inin the LNADJ. This appears only Mobile Country Code in the primary PLMN terms of the limitation to maximum 32 X2 Not modifiable distinguished name (DN) inand theMNC plan build file ID of neighbor eNB. MCC Mobile Network Code in the primary PLMN Not modifiable links controlled have priority. andPLMN isoam used for O&Mlinks purposes. the ID. ID of the neighbor eNB. MCC and MNC The MNC length determines the for range of Not modifiable It is highly recommended to use object build the PLMNX2 ID.link: enbControlled MNC in the PLMN ID. value within Not modifiable creation the primary lowest free lnAdjId The parameter provides information The IP address will be maintained by is ANR all LNADJ instances an eNB. This to whether the X2 link isofsuccessfully procedures if ANR features are activated. avoid rejection of plan file activation due toIt established. is the default value for neighbor eNBs colliding lnAdjId values if an LNADJ which have been learnt via ANR by eNB instance is automatically created procedures. because of activated ANR features. Range and step 0...1048575, step 1 7...15 characters oamControlled (0), enbControlled (1) 0...999, step 1 0...65535, step 1 0...999, step 1 2...3, step 1 0...63, step 1 0...999, step 1 0...999, step 1 2...3, step 1 unavailable (0), available (1) NSN Default VF Default Shared oamControlled (0) - enbControlled (1) No Default enbControlled (1) No Default Parameter relationships Related features adjEnbId is mandatory required if cPlaneIpAddr LTE724a is empty. RROM support of Neighbor Cell Configuration LTE782 ANR - Intra-LTE, cPlaneIpAddr must be unique within all LNADJ LTE782 objects, ANRexcept -(optional), Intra-LTE, for empty Intra-frequency values. - Fully UE adjEnbId is mandatory if cPlaneIpAddrCtrl isIntra-frequency set to 'enbControlled'. Fully UE based (standard) based (standard) if cPlaneIpAddrCtrl is set to LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE is mandatory if cPlaneIpAddrCtrl is set to 'oamControlled'. -cPlaneIpAddr 'oamControlled', cPlaneIpAddr must be based (standard) no relations The global eNB Id of the adjacent eNB (plmnId + adjEnbId) must be different to the global eNB Id of the own eNB, i.e. configured global eNB Id ofbethe adjacent eNB (plmnId +isadjEnbId) is not equal to own global eNB Id (mcc + mnc + mncLength + lnBts no relations adjEnbId must specified cPlaneIpAddr not configured. - 'enbControlled', plmnId andif adjEnbId The actual range depends on MNClength: if length=2, then range is 00...99, if length=3, then rang must be configured The ecgiAdjEnbId values of all cell belonging to the adjacent eNB must be identical to adjEnbId value. determines the length of MNC. LTE724a RROM support of Neighbor Cell Configuration (optional), LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE based (standard) The actual range depends on the MNC length: if length=2, then range is 00...99, if length=3, then Determines length of MNC. The cPlaneIpAddr must be unique if LTE782 ANR - Intra-LTE, Intra-frequency - Fully UE cPlaneIpAddrCtrl based (standard) set to 'eNbControlled' and x2LinkStatus set to 'available'. Change Control Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Abbreviated Name bcPlmnIdList - mcc bcPlmnIdList - mnc bcPlmnIdList - mncLength cpConfDL cpConfUL dlTrmBw ecgiAdjEnbId ecgiLcrId ecgiPlmnId - mcc ecgiPlmnId - mnc ecgiPlmnId - mncLength fDlEarfcn fUlEarfcn lnAdjlId phyCellId sourceOfData spcSubConfTD tac trmBwTD ulDlConfTD ulTrmBw Full Name Description MCC in broadcast PLMN identity Mobile Country Code in broadcast PLMN ID MNC in broadcast PLMN identity Mobile Network Code of the cell served by broadcast PLMN ID MNC length in broadcast PLMN identity in This parameter the neighbor eNB.by of the cell served determines the length DL cyclic prefix configuration Adjacent prefix MCC andcyclic MNC build a the neighbor eNB. of MNC. configuration in prefix DL. uniqueand PLMN UL Cyclic Prefix Configuration Adjacent cyclic MCC MNCID. build a The parameter isDL. not configuration in unique PLMN ID. Downlink transmission bandwidth This is the downlink applicable for FDD The parameter is not transmission Identity of neighbor eNB in ECGI This parameter is the neighbor cells. applicable for FDD bandwidth the cell Macro eNBofidentifier Local cell resource ID of related This parameter is the neighbor cells. servedisby theof the Ewhich part neighbor cell local cell resource ID MCC of primary PLMN identity of Mobile Country Code neighbor eNB. The UTRAN Cell Global which is part of the Eneighbour ENB in ECGIidentity of in PLMN Identity enumerated values MNC of primary PLMN Mobile Network Code Identifier (ECGI) of the UTRAN Cell Global included in ECGI of correspond to the neighbour ENB in ECGIPLMN ID of in PLMN Identity neighbor cell. MNC length of primary MNC Length Identifier (ECGI) the the cell served byof number of resource included in ECGI of neighbourEARFCN ENB in ECGI determines the length neighbor cell. Downlink of LTE cell served by Downlink EARFCN of neighbour eNB.by MCC blocks the cell"NRB". served of MNC inorthe primary neighbor eNB the FDD TDD cell and MNC build Uplink EARFCN of FDD cell served by neighbour Uplink EARFCN of the eNB.the MCC plmn id.by neighbor served plmnMNC Idthe ofserved ECGI. neighbor FDD cell and build aby plmn Neighbor eNB LTE cell identifier This is instance eNB. the neighbor eNB. Id of ECGI. identifier of the object Physical cell ID of cell served by This is the physical LNADJL. Thiscell neighbor cell ID of the Source ofeNB data The parameter parameter appears served by the provides information Special Subframe Configuration Of Supported special only in theeNB. neighbor whether the object Neighborarea ENBcode of cell served by subframe distinguished name Tracking This is the tracking creation or latest configuration by file (DN) in the plan neighbor eNB area code of the cell UL and DL transmission bandwidth Uplink Downlink updateand was based on neighbor eNB. The and is used for O&M served by the Transmission plan fileDL (OM), X2 Uplink Downlink subframe configuration UL and parameter is not purposes. neighbor eNB. Bandwidth Of Cell information (X2) or UE in radiotransmission frame Configuration of a applicable for FDD Uplink bandwidth Uplink transmission Served By Neighbor specific ANR subframe in a radio neighbor cells. bandwidth of the cell It is highly ENB. The parameter measurements (UE). frame supported by served by the to recommended use is not applicable for neighbor eNB. The The neighbor eNB. for object creation the FDD neighbor cells. parameter is values not enumerated lowest free lnAdjlId The enumerated applicable for FDD correspond to value within allthe to values correspond neighbor cells. number of resource LNADJL instances the number of blocks "NRB". subordinate to an resource blocks LNADJ object. This is "NRB". to avoid rejection of plan file activation due to colliding lnAdjlId values if an LNADJL instance is automatically created by eNB because of activated ANR features. Modification On-line On-line On-line Not modifiable Not modifiable Not modifiable Not modifiable Not modifiable Not modifiable Not modifiable Not modifiable On-line Not modifiable Not modifiable On-line Not modifiable Not modifiable On-line Not modifiable Not modifiable Not modifiable Range and step NSN Default VF Default 0...999, step 1 0...999, step 1 2...3, step 1 normal (0), extended (1) normal (0), extended (1) 6nrb (0), 15nrb (1), 25nrb (2), 50nrb (3), 75nrb 0...1048575, step(4), 1 100nrb (5) 0...255, step 1 0...999, step 1 0...999, step 1 2...3, step 1 0...65535, step 1 0...65535, step 1 0…11, step 1 0...503, step 1 OM (0), UE (1), X2 (2) ssp0 (0), ssp1 (1), ssp2 (2), ssp3 (3), ssp4 (4), ssp5 0...65535, step 1 (5), ssp6 (6), ssp7 (7), ssp8 (8) 6nrb (0), 15nrb (1), 25nrb (2), 50nrb (3), 75nrb (4), 100nrb sa0 (0), sa1 (1), sa2 (2), sa3(5) (3), sa4 (4), sa5 (5), sa6 (6) 6nrb (0), 15nrb (1), 25nrb (2), 50nrb (3), 75nrb (4), 100nrb (5) - 234 15 2 50nrb (3) 6300 24300 No Default - TEF Default 234 10 2 50nrb (3) 6400 24400 No Default - Parameter relationships no relations The actual range depends on the MNC length: if length=2, then range is 00...99, if length= Determines length of MNC The global cell idendity of the adjacent LTE cell LNADJL must be unique for all LNADJL and LNCE global LNADJL ID (ecgiAdjEnbId + ecgiLcrid + ecgiPlmnId) must be different to - other global LNADJL identity (ecgiAdjEnbId + ecgiLcrid + ecgiPlmnId) AND -The global LNCEL identity of (lnBtsId (LNBTS) + lcrId (LNCEL)must + mcc + mnc (LNBTS)+ global cell idendity the adjacent LTE cell LNADJL be(LNBTS) unique for all LNADJL andmncLe LNCE no relations global LNADJL ID (ecgiAdjEnbId + ecgiLcrid + ecgiPlmnId) must be different to The ecgiAdjEnbId valueidentity must match with the adjEnbId value of the superior - other global LNADJL (ecgiAdjEnbId + ecgiLcrid + ecgiPlmnId) ANDLNADJ object. - global LNCEL identity (lnBtsId (LNBTS) + lcrId (LNCEL) + mcc (LNBTS) + mnc (LNBTS)+ mncLe no relations The actual range depends on the MNC length: if length=2, then range is 00...99, if length= Determines length of MNC. no relations no relations Related features Change Control Draft Version A LTE724-a RROM support of Neighbor C length: if length=2, then range is 00...99, if length= Draft Version A Cell Configuration (standard) LTE724-a RROM support of Neighbor Draft Version A LTE1060 TDD - FDD handover Cell Configuration (standard) Draft Version A (standard) LTE1060 TDD - FDD handover (standard) LTE724a RROM support of Neighbor Draft Version A Draft Version A Cell Configuration (optional) LTE782 ANR - Intra-LTE, Intrafrequency - Fully UE based (standard) Draft Version A LTE782 ANR - Intra-LTE, Intrafrequency - Fully UE based (standard) Draft Version A Draft Version A LTE724-a RROM support of Neighbor C length: if length=2, then range is 00...99, if length= Draft Version A Cell Configuration (optional), LTE782 Draft Version A ANR - Intra-LTE, Intra-frequency LTE724a RROM support of Neighbor Draft Version A Fully UE based LTE724a RROM(standard) support of Neighbor Cell Configuration (optional), LTE782 LTE724a RROM support of Neighbor Draft Version A Cell Configuration (optional) ANRConfiguration - Intra-LTE, Intra-frequency Cell (optional), LTE782 LTE724a RROM support of Neighbor Draft Version A Fully -UE based (standard) ANR Intra-LTE, Intra-frequency Cell Configuration (optional), LTE782 LTE724-a RROM support of Neighbor Draft Version A Fully UE based (standard) ANR - Intra-LTE, Intra-frequency Cell Configuration (standard) LTE724a RROM support of Neighbor Draft Version A Fully UE based LTE1060 TDD - (standard) FDD handover Cell Configuration (optional), LTE782 LTE724-a RROM support of Neighbor Draft Version A (standard) ANR Intra-LTE, Intra-frequency Cell Configuration (standard) Draft Version A Fully UE based LTE1060 TDD - (standard) FDD handover (standard) LTE724-a RROM support of Neighbor Draft Version A Cell Configuration (standard) LTE724a RROM support of Neighbor Draft Version A Draft Version A Cell Configuration (optional) Abbreviated Name cellIndOffNeigh cellIndOffNeighDelta ecgiAdjEnbId ecgiLcrId ecgiPlmnId - mcc ecgiPlmnId - mnc ecgiPlmnId - mncLength handoverAllowed lnRelId nrControl nrStatus Full Name Description Cell individual offsets of other neighbor Cell Individual Offset cells (CIO) of Neighbor Cell individual offset delta for load The parameter cells for insertion into balancing provides the delta Identity of eNB in ECGI of related This parameter is the the CIO Cell List of value, eNB identifier neighbor Macro Identity ofcell cell in ECGI of related This parameter EUTRA Servingisorthe which is which is temporarily part of the Eneighbor cell cell identifier, which is Neighbor Carrier MCC in primary PLMN identity Mobile Country Code added toCell the UTRAN Global part ofprimary the E-UTRAN Measurement Object. of the PLMN operator configured cell MNC in primary PLMN identity Mobile Network Code Identifier (ECGI) of the Cell Global Identifier All CIOs different ID, which is part offrom the individual offset of the primary PLMN related neighbor cell. MNC length in primary PLMN identity (ECGI) This parameter the related zero willofparameter be E-UTRAN (LNREL ID, which isCell partGlobal of the determines the length neighbor cell. Handover allowed The parameter controls considered by eNB for Identifier (ECGI) of the cellIndOffNeighDelta) E-UTRAN Cell Global of MNC. handover blacklisting. Measurement related neighbor cell. LTE neighbor relation identifier This parameter the for load balancing Identifier (ECGI)isof the The instance of LNREL Configuration (up tothe a naming attribute of reasons. related neighbor cell. Neighbor relation control The parameter and the related cell limit of 32 CIOs per MOC LNREL. coordinates access Neighbor relation status Indicates thethe status of relationship, defined carrier frequency). It identifies aby touniquely parameter the neighbor relation. ECGI, identifies the If this parameter LNREL instance. isi.e. handoverAllowed, specific cell modified, theto cell It is highly whether handover unavailable: relation. The Indicates parameter LNREL parameter recommended to use blacklisting setting at that theHO neighbor allows for this the cellIndOffNeighDelta for object creation this instance of LNREL relation isrelation, not neighbor only is implicitly set to 0. lowest lnRelId and thefree related cell considered for HO (for S1 HO or no HO at all. value within all LNREL relationship, is only example because The blacklisting applies instances subordinate allowed tocell be done neighbor in addition to object. to an LNCEL manually by information via isthe not blacklisting the This is to avoid operator or also available). LNCEL parameter rejection of plan automatically by file NetAct blacklistHoL. activation due to available: Indicates that colliding lnRelId values the neighbor relation is as isis ifThe an meaning LNREL instance considered for HO if follows: automatically created not blacklisted, is if 'allowed' meansthat that by eNB because of handoverAllowed is not any S1 or X2 outgoing activated ANR set to Forbidden. handover features. is allowed. 'onlyS1' means that The nrStatus of a via outgoiing handover blacklisted neighbor S1 is allowed but not relation via X2. may be nevertheless Available. 'forbidden' means that This indicates all no outgoing S1that or X2 information HO is handover is for triggered. available and HO would be in principle possible if blacklisting would be released. Modification Range and step NSN Default VF Default On-line Not modifiable Not modifiable Not modifiable Not modifiable Not modifiable Not modifiable On-line Not modifiable On-line Not modifiable -24dB (0), -22dB (1), -20dB (2 -48... 48 dB 0...1048575, step 1 0...255, step 1 0...999, step 1 0...999, step 1 2...3, step 1 allowed (0), forbidden (1), onl 0...388, step 1 automatic (0), manual (1) unavailable (0), available (1) 0dB (15) allowed (0) automatic (0) - 0dB (15) 0 dB 234 15 2 allowed (0) automatic (0) - TEF Default 0dB (15) 0 dB 234 10 2 allowed (0) automatic (0) - Parameter relationships Related features Change Control LTE971 Intra-LTE Draft Version A mobility LTE1140offsets IntraDraft Version A (standard) frequency load The global cell identity of the LNREL LTE782 object ANR must - beDraft different Version to the A cell global identity of the parent LNC balancing+IntraLNREL cell global identity (ecgiAdjEnbId Intra-LTE, ecgiLcrId + ecgiPlmnId) be different theparent LNCEL gl The global cell identity of the LNREL LTE782 object ANRmust - beDraft different to the cell global identityfrom of the LNC Version A must It is sufficient that one of the elements frequency is different. Fully LNREL cell global identity (ecgiAdjEnbId Intra-LTE,+IntraecgiLcrIdDraft + ecgiPlmnId) Version A must be different from the LNCEL gl UE based It is sufficient that one of the elements frequency is different. - Fully The range depends the MNC length:of if leng raft Version A be unique, i.e. The actual global cell identity of allonLNREL (standard) instances theDsame cell must UE based LNREL cell global identity (ecgiAdjEnbId +ecgiLcrId + ecgiPlmnId) be unique Determines length of MNC. Version A must The global cell identity of all LNREL (standard) instances of theDraft same cell must be unique, i.e. within all the LNREL LNREL cell global identity (ecgiAdjEnbId + ecgiPlmnId) LTE771 +ecgiLcrId Draft Version A must be unique within all the LNREL Optimization of LTE782 ANR Draft Version A Intra-LTE IntraIntra-LTE, LTE771 Draft Version A neighbor relations frequency - Fully Optimization of LTE1383 ANR Draft Version A (standard) UE based Intra-LTE Robustness (standard), neighbor relations (standard) LTE106 6 cell (standard) support with one System Module (standard) Abbreviated Name a3OffsetRsrpInterFreq a3OffsetRsrqInterFreq a3ReportIntervalRsrpInterFreq a3ReportIntervalRsrqInterFreq a3TimeToTriggerRsrpInterFreq a3TimeToTriggerRsrqInterFreq a5ReportIntervalInterFreq a5TimeToTriggerInterFreq eutraCarrierInfo hysA3OffsetRsrpInterFreq hysA3OffsetRsrqInterFreq hysThreshold3InterFreq interPresAntP lnHoIfId measQuantInterFreq measurementBandwidth offsetFreqInter threshold3InterFreq threshold3aInterFreq thresholdRsrpIFLBFilter thresholdRsrqIFLBFilter Full Name Description A3 offset RSRP Margin for RSRP for better cell inter frequency HO. Used measurement A3 offset RSRQ Margin for in RSRQ for better event cell type A3 where the event is event inter frequency HO. Used in measurement A3 report interval Defines the interval with which triggered whenthe theevent inter is type A3 where RSRP inter measurement reports are A3 report interval Defines theneighbour interval with frequency cellwhich triggered when the inter frequency repeatedly sent as long as the RSRQ measurement reports are becomes A3 offset better than A3 timeinter to trigger Time for which the specific frequency neighbour cell specific criteria for the inter frequency repeatedly sent as long as the the serving cell. RSRP criteria for the inter frequency becomes A3 offset better than A3 timeinter to trigger Time for which the specific frequency measurement event specific criteria for the frequency measurement event A3inter with the serving cell. RSRQ inter criteria for the inter frequency A3 with quantity RSRP met. A5 report interval Defines themeasurement interval withiswhich frequency event quantity RSRPevent must A3 be with met in frequency measurement Value definitions asspecific stated in inter frequency measurement reports are A3 with quantity RSRQ is met. A5 time to trigger Time for which the order to trigger a measurement quantity RSRQ must beMS120 metthe in 3GPP TS36.331: value repeatedly sentinter as long as Value definitions as stated inter criteria for the frequency report.to Value definitions as in stated Eutrafrequency carrier info mid-frequency of neighbouring order trigger a measurement corresponds to 120 ms, MS240 specific criteria for the inter 3GPP TS36.331: value measurement event A5 MS120 must be 3GPP TS36.331: value MS0 cell, used in Measurement report. Value definitions as stated Related hysteresis in Related Hysteresis of Handover to 240 ms and so on, while value frequency measurement event corresponds to 120 ms, met in order to trigger a MS240 corresponds to 0 ms, MS40 to 40 Configuration in 3GPP TS36.331: value MS0 offset a3Offset for Better Cell Handover MIN1 corresponds to 1while min, A5 is met. Value as Related hysteresis Margin Related Hysteresis of Handover to 240 ms and sodefinitions on, value measurement report. Value ms and so on. corresponds toand 0TS36.331: ms, MS40 to RSRP inter of Inter-Frequency MIN6 to 63GPP min so on. infor offset a3Offset Margin Quality Handover of40 MIN1 corresponds to min,value definitions as stated 3GPP Related hysteresis stated Related Hysteresis ofin1Handover ms and corresponds so on. frequency Parameter is used within the MS120 to 120 ms, RSRQ inter Inter-Frequency MIN6 toPresenceAntennaPort1 6 min and so on. TS36.331: value MS0 of thresholds th3 Margin Presence antenna The IEand entry condition of theis MS240 to leave 240 ms and soofthe on, frequency Parameter is to used within corresponds 0 ms, MS40 to 40 and th3a for RSRP for Coverage Handover port1 used to indicate whether allInterthe A3 triggered reporting condition. Neighbor This parameter is the naming while value MIN1condition corresponds entry and of theto ms and soleave on. Frequency neighbouring cells use Antenna The IE MIN6 value isquantity by interfrequency of MOC LNHOIF 1 min, 6multiplied min and so 2. on. A3 triggered reporting condition. Measurement LTE attribute Defines which to the use for Parameter isto used Port 1. When set towithin TRUE, the cell handover The IEA3 value isbandwidth multiplied towards by 2. quantity inter Event measurements entry Measurement Measurement UE may assume that at least two identifier frequency this frequency. This parameter and leaves of to thethe A5cells bandwidth forcondition all neighbouring cell-specific antenna ports are Inter EUTRA offset common Offset value applicable refers to event A3. If setinto 'both', triggered on the frequency, used used in all neighbouring cells. frequency EUTRA neighbour carrier Threshold th3 for Threshold for RSRP ofconfigured serving two A3 events will be reporting condition. The IE value Measurement Configuration. frequencies. RSRP inter cell. If RSRP of serving cell isone when measuring this of carrier, Threshold th3a for Threshold for RSRP serving is multiplied The IEthan Q-OffsetRange is used to frequency lower Th3 and RSRP of per measurement RSRPFreq interload bal Threshold cell. If RSRP of servingTarget cell is by 2.specific Inter for Filtering indicate a cell or frequency cellof quantity. frequencyfor RSRP inter lowerfrequency-neighbor than Th3 and RSRP threshold out offor reported specific offset to bethen applied Inter Freq load bal Cells Threshold Filtering Targetwhen greater Than Th3a inter-frequency neighbor cell target filterfor RSRQ A4 event based on RSRP values evaluating for cell rethreshold Cells out of reported handover iscandidates triggered. greater than Th3a then handover due to Interfrequency selection or when evaluating target filter A4 event based on RSRQ values is triggered. Load triggering conditions for due toBalancing Interfrequency This parameter is aimed for measurement reporting. Load Balancing postprocessing This parameter is aimed for (RSRP) the related A4 report and postprocessing is not to (RSRQ) be theconfigured related A4 report and in not anyto report configuration in the is be configured UE. in any report configuration in the Value-Range follows 3GPP TS UE 36.133 chapter Value-Range follows 3GPP TS 9.1.4 36.133 chapter 9.1.7 Category Modification Range and step Handover Handover Handover Handover Handover Handover Handover Handover On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line Not modifiable On-line On-line On-line On-line On-line On-line On-Line -15...15 dB, step 0.5 dB -15...15 dB, step 0.5 dB 120ms (0), 240ms (1), 480ms (2), 640ms (3), 120ms (0), 240ms (1), 480ms (2), 640ms (3), 0ms (0), 40ms (1), 64ms (2), 80ms (3), 100 0ms (0), 40ms (1), 64ms (2), 80ms (3), 100 120ms (0), 240ms (1), 480ms (2), 640ms (3), 0ms (0), 40ms (1), 64ms (2), 80ms (3), 100 0...65535, step 1 0...15 dB, step 0.5 dB 0...15 dB, step 0.5 dB 0...15 dB, step 0.5 dB false (0), true (1) 1...16, step 1 rsrp (0), rsrq (1), both (2) mbw6 (0), mbw15 (1), mbw25 (2), mbw50 (3 -24dB (0), -22dB (1), -20dB (2), -18dB (3), 0...97 dBm, step 1 dBm 0...97 dBm, step 1 dBm -140... -44 dBm -19.5... -3 dB Handover Handover Handover Object Identity Handover Handover Only applicable for VF NSN Default VF Default (800 to 2600) notUsed (13) notUsed (13) notUsed (16) notUsed (16) rsrp (0) 0dB (15) -100 -10 -50 (-5dB) 255 (not used) 4 (1024) 13 (not used) 13 (1280ms) 16 (not used) 4 (1024) 4 (100ms) 2850 2 (1dB) 255 (notused) 0 1 (true) 1 0 (rsrp) 5 (mbw100) 15 (0dB) 26 (-114 dBm) 28 (-112 dBm) -100 -10 Parameter relationships If measQuantInterFreq is 'rsrp' or 'both' then a3OffsetRsrpInterFreq sha ifif measQuantInterFreq 'rsrq'or then a3OffsetRsrpInterFreq shall notsha be measQuantInterFreq isis'rsrq' 'both' then a3OffsetRsrqInterFreq ifif measQuantInterFreq then shall not be measQuantInterFreq is is 'rsrp' rsrp or botha3OffsetRsrqInterFreq then a3ReportIntervalRsrpInterF ifif measQuantInterFreq is rsrq then a3ReportIntervalRsrpInterFreq sha measQuantInterFreq is rsrq or both then a3ReportIntervalRsrqInterF ifif measQuantInterFreq a3ReportIntervalRsrqInterFreq sha measQuantInterFreq is is rsrp rsrp then or both then a3TimeToTriggerRsrpInterF ifif measQuantInterFreq is rsrq then a3TimeToTriggerRsrpInterFreq sha measQuantInterFreq is rsrq or both then a3TimeToTriggerRsrqInterF if measQuantInterFreq is rsrp then a3TimeToTriggerRsrqInterFreq sha If measQuantInterFreq is 'rsrp' or 'both' then hysA3OffsetRsrpInterFreq If hysA3OffsetRsrpInterFreq shall no If measQuantInterFreq measQuantInterFreq is is 'rsrq' 'rsrq' then or 'both' then hysA3OffsetRsrqInterFreq If measQuantInterFreq is 'rsrp' then hysA3OffsetRsrqInterFreq shall no if measQuantInterFreq is 'rsrp' or 'both' then a3OffsetRsrpInterFreq mu if measQuantInterFreq is 'rsrq' or 'both' then a3OffsetRsrqInterFreq mu if measQuantInterFreq is 'rsrp' or 'both' then a3ReportIntervalRsrpInter if measQuantInterFreq is 'rsrq' or 'both' then a3ReportIntervalRsrqInter threshold2InterFreq must be or 'both' then a3TimeToTriggerRsrpInter if measQuantInterFreq is 'rsrp' greater than if measQuantInterFreq is 'rsrq' or 'both' then a3TimeToTriggerRsrqInter or equal to threshold3InterFreq if measQuantInterFreq isis'rsrp' or 'both' then hysA3OffsetRsrpInterFreq thresholdRsrqIFLBFilter threshold3InterFreq must be or 'both' then hysA3OffsetRsrqInterFreq ifmandatory measQuantInterFreq is 'rsrq' required if thresholdRsrpIFLBFilter is greater -mandatory actInterFreqLB is set required if to ‘true’ than threshold4 AND -threshold1 actInterFreqLB is set to ‘true’ must be greater than - thresholdRsrpIFLBFilter is not AND threshold3InterFreq - applicable if configured -threshold2a thresholdRsrqIFLBFilter is set to 98 is not This means in case configured ('notUsed') actInterFreqLB is set to ‘true’ at This means in case least thresholdRsrpIFLBFilter or actInterFreqLB is set to ‘true’ at thresholdRsrqIFLBFilter least thresholdRsrpIFLBFilter or must be specified. thresholdRsrqIFLBFilter must be specified. Related features LTE55 Inter-frequency handover (optional) LTE55 Inter-frequency handover (optional) LTE55 Inter-frequency handover (optional) LTE55 Inter-frequency handover (optional) LTE55 Inter-frequency handover (optional) LTE55 Inter-frequency handover (optional) LTE55 Inter-frequency handover (optional) LTE55 Inter-frequency handover (optional) LTE55 Inter-frequency handover (optional) LTE55 Inter-frequency handover (optional) LTE55 Inter-frequency handover (optional) LTE55 Inter-frequency handover (optional) LTE55 Inter-frequency handover (optional) LTE55 Inter-frequency handover (optional) LTE55 Inter-frequency handover (optional) LTE55 Inter-frequency handover (optional) LTE971 Intra-LTE mobility offsets Inter-frequency (standard) LTE55 handover (optional) LTE55 Inter-frequency handover Intra (optional) LTE1387 eNB Interfrequency load balancing LTE1387 Intra eNB Interfrequency load balancing Change Control Draft Version E Draft Version E Draft Version E Draft Version E Draft Version E Draft Version E Draft Version E Draft Version E Draft Version E Draft Version E Draft Version E Draft Version E Draft Version E Draft Version E Draft Version E Draft Version E Draft Version E Draft Version E Draft Version E Draft Version E Draft Version E Abbreviated Name Full Name addGsmSIToRedirMsg csFallBPrio emerCallPrio redirBandCdma redirFreqCdma redirFreqEutra redirFreqUtra redirGeranArfcnValueL Add GSM system information to redirection Redirectionmessage priority for CS fallback with redirection Redirection priority for emergency call CDMA band CDMA frequency eUTRA frequency UTRA frequency GERAN ARFCN values list redirGeranBandIndicator redirRat redirectPrio redrtId GERAN band indicator RAT for redirect Redirection priority for UE context release Redirection target configuration identifier Description Modification Range and step The parameter selects the kinds of UE On-line csfb (0), redir (1), both (2) redirections This parameter defines priority for target RAT in On-line 1...6, step 1 (CS fallback, UE redirection with context selection of redirection target during CS RAT in This parameter defines priority for target On-line 1...6, step 1 release, Fallback with redirectiontarget procedure. selection of redirection during Emergency This parameter must system be configured if On-line bc0 (0), bc1 (1), bc2 (2), bc3 ( both) for which GSM information Value 1 means highest priority and value shall 6 Call handling procedure. redirRAT=cdma2000-HRPD or be Specifies the cdma2000 ARFCN. On-line 0...2047, step 1 lowest. Value 1 means highest priority and value 6 redirRAT=cdma2000-1xRTT. included in the RRC Connection Release The parameter value is based on the absolute Specifies the eUTRA frequency (max value ref On-line 0...65535, step 1 lowest. Specifies the cdma2000 class. message. radio-frequency channel band number to 36.331)the TheUTRA parameter value is“ARFCN”. based onThis the Specifies frequency. On-line 0...16383, step 1 GSM system information (SI) will added for parameter must be configured if be absolute radio-frequency channel number The parameter value is based on the absolute List ARFCN values addition to s). On-line 0...1023, step 1 up toof GERAN redirRAT=cdma2000-HRPD or (in “ARFCN”. This parameter must be configured if radio-frequency channel number “ARFCN”. This This parameter must be configured if 16 cells. SI for further GSM cells will be omitted redirRAT=cdma2000-1xRTT. Indicator tomust distinguish the GERAN frequency On-line gsm1800 (0), gsm1900 (1), not redirRAT=eutra. parameter bevia configured redirGfollowingARFCNsSwitch=explicitListOfAR even ifinconfigured LNLRELG settings. with band case of ARFCN values associated This parameter selects the RAT to which the UE On-line eutra (0), geran (1), utraFDD if redirRAT=utraFDD or redirRat=utraTDD. FCNs either GSM 1800 or GSM 1900 carriers. is redirected. This parameter defines priority for target RAT in On-line 1...6, step 1 For ARFCN values not associated with one of selection of redirection target duringofUE Context Not modifiable 0...5, step 1 This parameter defines the number those bands, the indicator has no meaning. Release with redirection procedure. redirection targets specified respective This parameter must alwaysfor be the configured if Value 1 means highest priority andattribute value 6of cell and this parameter is naming redirRAT=geran. lowest. MOC REDRT. redirGeranArfcnValueL : refer Tab - REDRT_REDIRGERANARFCNVALUEL NSN Default both (2) notUsed (18) 65535 100000 65535 65535 notUsed (2) - VF (U900) VF (U2100) both (2) both (2) Refer Site Specific Template V1.5 Refer Site Specific Template V1.5 Refer Site Specific Template V1.5 Refer Site Specific Template V1.5 notUsed (18) notUsed (18) 65535 (Not Used) 65535 (Not Used) notUsed (100000) notUsed (100000) 2938 10712 65535 (Not Used) 65535 (Not Used) notUsed (2) utraFDD (2) 2 0 notUsed (2) utraFDD (2) 1 1 VF (2G) TEF (U900) TEF (U2100) both (2) both (2) both (2) Refer Site Specific Template V1.5 Refer Site Specific Template V1.5 Refer Site Specific Template V1.5 Refer Site Specific Template V1.5 Refer Site Specific Template V1.5 Refer Site Specific Template V1.5 notUsed (18) notUsed (18) notUsed (18) 65535 (Not Used) 65535 (Not Used) 65535 (Not Used) notUsed (100000) notUsed (100000) notUsed (100000) notUsed (65535) 2963 10637 65535 (Not Used) 65535 (Not Used) gsm1800 (0) geran (1) 6 2 notUsed (2) utraFDD (2) 1 0 notUsed (2) utraFDD (2) 2 1 TEF (2G) Parameter relationships Related features both (2) The parameter LTE984 GSM redirect with system addGsmSIToRedirMsg is information Refer Site Specific Template V1.5If actCSFBRedir is set to LTE562 CSFB to UTRAN or GSM mandatory 'true', at least via redirect (standard) Refer Site Specific Template V1.5If actEmerCallRedir is set to LTE22 Emergency call handling required if one instance of REDRT must 'true', at (standard) notUsed (18) must is beset configu -redirBandCdma actGsmRedirWithSI to LTE761 Advanced target cell be created least one instance of REDRT selection and handover retry for 'true' AND 65535 (Not Used) redirFreqCdma must be config per LNCEL csFallBPrio LTE761 Advanced target cell must be iswhere intra frequency handoverretry for redirRat set to 'geran'. and handover is set to per LNCEL notUsed (100000) redirFreqEutra mustwhere be configuselection LTE761 Advanced target cell created (optional), LTE423 RRC connection intra frequency handover 1...6 selection and handover retry emerCallPrio notUsed (65535) redirFreqUtra must be configurLTE761 Advanced target cell for release with redirect (standard) (optional), LTE423 RRC connection If for csFallBPrio a priority is intra frequency handover is set to 1...6 selection and handover retry redirGeranArfcnValueL must berelease LTE761 with Advanced target cell for redirect (standard) configured LTE423 RRC connection If for emerCallPrio a priority is (optional), intra frequency handover and handover retry gsm1800 (0) redirGeranBandIndicator LTE761 be Advanced target cell for (a value different to '0') allmust of selection release with redirect (standard) configured (optional), LTE423 RRC connection intra frequency handover selection andredirect handover retry the following geran (1) If redirRat is set toto '0') all of LTE761 Advanced target cell for (a value different release with (standard) (optional), LTE423 RRC connection intra frequency handover conditions must beorfulfilled 'cdma2000HRPD' selection and handover retry for the 6 If actRedirect is set to LTE423 with RRCredirect connection release (standard) (optional), LTE423 RRC connection -'cdma20001xRTT' redirRatconditions must be set to be release following intra frequency handover following must 'enabled', at instance least with redirect (standard) 2 At leastorone of LTE761 Advanced target cell release with redirect (standard) 'geran' configuration (optional), LTE423 RRC connection fulfilled one REDRT instance per REDRT must be selection and handover retry for 'utraFDD' in thisbe REDRT is needed release with redirect (standard) - redirRat must set to LNCEL with created per LNCEL if one of intra frequency handover instance -'geran' redirBandCdma set or redirectPrio to must 1...6 be must the followingset -different csFallBPrio must be unique (optional), LTE423 RRC connection 'utraFDD' in this REDRT exist. conditions is fulfilled: release with redirect (standard), for all to 'notUsed' instance for redirectPrioisa set priority is LTE22 Emergency call handling -If actCSFBRedir to 'true' REDRT instances belonging - redirFreqCdma must emerCallPrio must bebe set configured -toactEmerCallRedir is set to (standard), LTE562 CSFB to samefor to unique (a value different to '0') all of UTRAN or GSM via redirect 'true' LNCEL. 0...2047 all REDRT instances the following - actRedirect is set to (standard) If redirRat to is set to 'eutra' belonging same conditions 'enabled'. must be fulfilled following LNCEL. - redirRat must be set to configuration is needed 'geran' or -'utraFDD' redirFreqEutra must be in this REDRT 0...65535 instance If redirRat is set to be 'utraFDD' - csFallBPrio must unique or for all 'utraTDD'instances followingbelonging REDRT configuration is to same needed LNCEL. - redirFreqUtra must be 0...16383 If redirRat is set to 'geran' following configuration is needed - redirGeranArfcnValueL must be configured - redirGeranBandIndicator must be different to 'notUsed' If redirRat is set to 'geran' or 'utraFDD' at least one of the following conditions must be fulfilled in this REDRT instance - emerCallPrio must be set different to '0' (no priority configured) - csFallBPrio must be set different to '0' (no priority configured) - redirectPrio must be set different to '0' (no priority configured) If actGsmRedirWithSI is set to 'true', redirRat can be set to 'geran' only if additionally the parameter addGsmSIToRedirMsg is set. For actGsmRedirWithSI set to Change Control Draft Version A Draft Version C Draft Version C Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Version 1.1 Draft Version A redrtId VF 0 1 2 redrtId TEF 0 1 2 1 2 65535 65535 63 65 3 4 5 6 7 8 9 10 11 12 redirGeranArfcnValueL 13 14 15 16 17 18 67 69 71 73 75 76 77 79 81 83 84 85 87 89 91 93 redirGeranArfcnValueL 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 65535 65535 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 ValueL 19 20 21 95 97 99 19 20 21 22 23 24 25 26 27 28 29 30 31 32 22 23 24 25 26 27 28 29 30 31 32 ValueL 119 120 121 122 123 124 Abbreviated Name accMmePlmnsList - mcc accMmePlmnsList - mnc accMmePlmnsList - mncLength ipAddrPrim ipAddrSec lnMmeId mmeName relMmeCap s1LinkStatus transportNwId Full Name Description MCC of PLMN ID in served PLMNs per RAT of MME MNC of PLMN ID in served PLMNs per RAT of MME MNC length of PLMN ID in served PLMNs per RAT IPv4 of MME Primary address Secondary IPv4 address LTE mobility management entity identifier MME name Relative MME capacity S1 link status Transport network identifier Mobile Country Code of PLMN included in served Mobile ID Network Code of PLMNs per RAT of MME. PLMN ID included in served Determines the range of MCC and MNC a PLMNs per RATbuild of MME. Mobile Network Code of This parameter holds the unique PLMN ID. MCC and MNC build a PLMN ID included in served transport network IPv4 IPv4 Secondary application unique PLMN ID.of MME. PLMNs RAT addressper of the the Mobility address of Mobility This parameter is naming Management Entity (MME) Management Entity (MME)Itif attribute of MOC LNMME. This is ainterface. human readable primary multihoming feature is shouldofbethe used for unique name MME. This parameter indicates the enabled. identification of MME in eNB. Format: IPv4 address relative MME capacity This parameter address field is a ReadThe provides parameter in dotted assigned to the MME. Only field. information whether the This parameter holds theS1 decimals. link is successfully identifier for the transport established. network in case "Transport Separation for RAN sharing" feature is supported. The operator must take care that transportNwId of LNMME instance 0 (main MME) is identical to mainTransportNwId in IPNO. The parameters within Modification Not modifiable Not modifiable Not modifiable On-line Not modifiable Not modifiable Not modifiable Not modifiable Not modifiable On-line Range and step 0...999, step 1 0...999, step 1 2...3, step 1 7...15 characters 7...15 characters 0...15, step 1 0...150 characters 0...255, step 1 unavailable (0), available 0...1, step(1) 1 NSN Default VF Default - ameters within this object are Control by e-Node-B parameter Template Shared Default Parameter relationships Related features Actual range depends on mncLength: if mncLength=2 then range is 00...99, if mncLength=3 then rang The value of mncLength determines whether the mnc is of 2 digits or 3 digits length. The combination of LTE775 SCTP multiipAddrPrim and transportNwId homing LTE775 (standard) SCTP multimust be unique in all LNMME homing LTE2 S1(standard) Flex (optional) instances, i.e. per each LTE505 LTE2 S1Transport Flex (optional) configured transport network Separation for RAN LTE505 Transport the IP address must be Sharing (optional) Separation for RAN unique. Sharing (optional) Per configured transportNwId LTE505 Transport the ipAddrPrim must be Separation for RAN unique in all LNMME Sharing (optional) instances. parameter Template (Phil) s 00...99, if mncLength=3 then range 000...999 or 3 digits length. Abbreviated Name gtpuId gtpuN3Reqs gtpuPathSupint gtpuT3Resp sgwIpAddressList - sgwIpAddress sgwIpAddressList - transportNwId Full Name GTPU configuration identifier Maximum number of unanswered N3 requests GTP-U path supervision interval T3 maximum waiting time for GTP-U responses SGW IP address Transport network identifier Description This parameter is the naming attributeholds of MOC This parameter the GTPU number of unanswered This parameter holds the GTP-U ECHO time This interval parameter holds the REQUESTs (within the between sending maximum waiting GTP-U time Transport network IP time defined by ECHO for GTP-U ECHO address of the serving parameter t3Response), This parameter holds REQUESTs, used for the RESPONSE messages, SAE gateway (S-GW) for after which a GTP-U identifier for the transport GTP-U user datadata used for GTP-U which datapath path supervision failure is declared. network in case path on path supervision on the the supervision is switched The parameter is only for "Transport Separation S1 and X2 interfaces. S1 and X2 interfaces. on. relevant inalso case GTPUis RAN sharing" feature It defines if isdata This parameter only Format: in this release path supervision is supported. path supervision relevant in case GTP-U each address is an IPv4 switched ON (parameter is ONsupervision or OFF. path is IP address in the dotted gtpuPathSupint has care a Opertor hasrecommend to take The 3GPP switched ON (parameter decimal form non-zero value). has to that transportNwId GTP-U gtpuPathSupint has a be either interval supervision non-zero value). mainTransportNwId starts with a value or any 60s.of the transportNwIds configured in IPNO. The parameters with Modification Not modifiable On-line On-line On-line On-line On-line Range and step 1...1, step 1 1...15, step 1 1...300 s, step 1 s 1...60 s, step 1 s 7...15 characters 0...1, step 1 NSN Default VF Default Shared Default 1 5 60 s 2s - arameters within this object are Control by e-Node-B parameter Tem Parameter relationships Related features LTE1 S1/X2 data path (optional) Parameter gtpuN3Reqs is onlymanagement LTE1 usedS1/X2 if gtpuPathSupint data path is different to '0' (GTP-U supervision is switched ON) management (optional) If GTP-U path supervision is LTE1 S1/X2 data path The number of unanswered requests of parameter gtpuN3Reqs relates to the timeframe defined in parameter gtpuT3Resp switched management (optional) If gtpuPathSupint is set to LTE1 S1/X2 data path OFF, gtpuPathSupint must be -The value '0': the sgwIpAddress value of management specified must be unique(optional) defined in all sgwIpAddressList. set to gtpuT3Resp The specified combination of value '0' is not relevant (GTP-U transportNwId In this case is theand configured supervision sgwIpAddress must be values switched OFF) unique defined in all for - a gtpuT3Resp value geater and than '0': sgwIpAddressList items. gtpuN3Reqs are not gtpuT3Resp must be relevant. to a configured If GTP-U paththan supervision is value smaller switched ON, i.e.(representing the value of gtpuPathSupint gtpuPaththe waiting time for the Supint > 0 following condition calculation need tosupervision be of path interval) fulfilled: - gtpuT3Resp must be configured to a smaller value than gtpuPathSupint B parameter Template (Phil) Abbreviated Name assocMaxRetrans maxTimeSctpSetup pathMaxRetrans rtoMax rtoMin sctpHeartbeatInterval sctpId Full Name SCTP association failure retransmission counter Maximum time to wait for a new SCTP establishment SCTP path failure retransmission counter Maximum retransmission timeout Minimum retransmission timeout SCTP heartbeat message interval SCTP configuration identifier Description This is the number of unanswered heartbeat datathat the The overallmessages maximumortime acknowledgements (within a time eNB This is the number of unanswered defined by RTO/T3-rtx and is trying tomessages establish aorSCTP heartbeat data This parameter specifies the calculated in SCTP), associationinternally (within acknowledgements a time maximum value for retransmission used for declaring the SCTP This parameter specifies theeNB to a newly learned adjacent defined by RTO/T3-rtx and timer T3-rtx failure. when DATA or association minimum for retransmission after the value This parameter defines the interval calculated internally in SCTP), heartbeat was sentDATA and no ACK timer T3-rtx when eNB has received the IPor address between two SCTP heartbeat usedcome for declaring SCTP path This parameter isUsed the naming has back.sent forno SCTP heartbeat was and ACK via messages, counted in seconds. failure. attribute of range. MOC SCTP. calculation has come back. Used for the ANR. The time the eNB is trying to SCTP calculation range. establish mustn’t exceed maxSctpSetupTime. Note: In case of long maxTimeSctpSetup interval it might happen that STCP layer has already finished transmitting SCTP INIT sequence before maxTimeSctpSetup expires. In case of short maxTimeSctpSetup interval, the eNB signalling application will finish SCTP INIT retransmission before SCTP computed time interval expires. The parameters within this obje Modification BTS restart needed BTS restart needed BTS restart needed BTS restart needed BTS restart needed BTS restart needed Not modifiable Range and step 1...30, step 1 1...480 seconds, step 1 seconds 1...15, step 1 1...60 s, step 1 s 1...60 s, step 1 s 0...60 s, step 1 s 1...1, step 1 NSN Default VF Default 7 130 seconds 5 30 s 1s 20 s 1 eters within this object are Control by e-Node-B parameter Template (P Shared Default Parameter relationships Related features assocMaxRetrans must be smaller tLTE1 S1/X2 data path management (optional), no relations LTE1 S1/X2 data path LTE775 SCTP Multimanagement (optional) assocMaxRetrans must be smaller tLTE1 S1/X2 data path homing (MME) (optional) management (optional), LTE1 S1/X2 data path LTE775 SCTP Multimanagement (optional) LTE1 S1/X2 data path homing (MME) (optional) management (optional) LTE1 S1/X2 data path management (optional) LTE1 S1/X2 data path management (optional) eter Template (Phil) Abbreviated Name mtCellAvailability mtCellLoad mtCellRes mtCellThruput mtEPSBearer mtInterSysHo mtInterSysHoGsmNb mtInterSysHoUtranNb mtIntereNBHo mtIntraeNBHo mtLTEHo mtPowQualDL mtPowQualUL mtRRC mtRadBearer mtS1AP mtTranspLoad mtUEandServiceDiff mtUEstate mtX2AP mteNBload mtintraLTEHoNb pmRnlId Full Name LTE cell availability LTE cell load LTE cell resource LTE cell throughput LTE EPS bearer LTE intersystem handover LTE neighbour cell related inter system handover GSM cell related inter system LTE neighbour handover UTRAN LTE inter eNB handover LTE intra eNB handover LTE handover LTE power and quality DL LTE power and quality UL LTE RRC LTE radio bearer LTE S1AP LTE transport load LTE UE and service differentiation LTE UE state LTE X2AP LTE eNB load LTE neighbour cell related handover Performance management RNL identifier Description Modification Range and step NSN Default configuration of measurement type LTE Cell Availability configuration of measurement type LTE Cell Load configuration of measurement type LTE Cell Resource configuration of measurement type LTE Cell Throughput configuration of measurement type LTE EPS Bearer configuration of measurement type LTE Intersystem Handover configuration of measurement type LTE Neighbour Cell related Inter configuration of measurement type System Handover torelated GSM Inter LTE Neighbour configuration of Cell measurement type System Handover to UTRAN LTE Inter eNB Handover configuration of measurement type LTE Intra eNBofHandover configuration measurement type LTE Handover configuration of measurement type LTE Power and DL configuration of Quality measurement type LTE Power and Quality UL configuration of measurement type LTE RRC configuration of measurement type LTE Radio Bearer configuration of measurement type LTE S1AP of measurement type configuration LTE TransportofLoad configuration measurement type LTE UE and Service Differentiation configuration of measurement type LTE UE State configuration of measurement type LTE X2AP of measurement type configuration LTE eNB Loadof measurement type configuration LTE Neighbour related Handover This parameter cell identifies the performance management measurement administration interface for Radio Network Layer. There is only one instance of class PMRNL. On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line Not modifiable disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( 1...1, step 1 15min (1) 15min (1) 15min (1) 15min (1) 15min (1) 15min (1) 15min (1) 15min (1) 15min (1) 15min (1) 15min (1) 15min (1) 15min (1) 15min (1) 15min (1) 15min (1) 15min (1) 15min (1) 15min (1) 15min (1) 15min (1) 15min (1) 1 VF Default Shared Default 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) disabled (0) disabled (0) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 1 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) disabled (0) disabled (0) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 60min (3) 1 Parameter relationships Related features Change Control LTE602 Performance LTE602 Management Performance LTE602 Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance LTE602 (standard) Administration Management Performance (standard) Administration Management (standard) Administration (standard) Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Abbreviated Name lte_ETHIF_Stats_Interval lte_Ethernet_Link_Interval lte_IPSec_Interval lte_IP_Filtering_Interval lte_IP_Stats_Interval lte_L2SWI_Stats_Interval lte_PHB_Stats_Interval lte_TAC_Statistics_Interval lte_TOP_FreqSync_Stats_Interval lte_TWAMP_Stats_Interval lte_VLAN_IP_Stats_Interval lte_VLAN_PHB_Stats_Interval lte_VLAN_Stats_Interval pmTnlId Full Name Ethernet IF statistics measurement interval Ethernet link measurement interval IPSec measurement interval IP filtering measurement interval IP statistics measurement interval L2 switch statistics measurement interval PHB statistics measurement interval TAC statistics measurement interval TOP FreqSync statistics measurement interval TWAMP statistics measurement interval VLAN IP statistics measurement interval VLAN PHB statistics measurement interval VLAN IF statistics measurement interval Identifier of the performance management configuration The parameters within this object are Con Description Modification Range and step NSN Default Measurement interval for Ethernet interface statistics measurement inLink Measurement interval for Ethernet minutes. Acceptable Range is measurement in minutes. Acceptable Measurement interval for IPSec 0/15/30/60/360/720/1440 minutes, Range is 0/15/30/60/360/720/1440 measurement in minutes. Acceptable Measurement interval for IP Filtering where '0' means disabled. The minutes, '0' means disabled. Range is where 0/15/30/60/360/720/1440 measurement in minutes. Acceptable parameter supports FTLB and FTIB Measurement interval for IP Statistics The paramter FTLB and FTIB minutes, wheresupport '0' means disabled. range is 0/15/30/60/360/720/1440 HW. measurement in minutes. Acceptable HW Values. Measurement interval forFTLB L2 switch The parameter supports and minutes, '0' means disabled. Range is where 0/15/30/60/360/720/1440 statistics in PHB minutes. FTIB HW.measurement Measurement interval for The parameter supports FTLB and minutes, where '0' means disabled. Acceptable Range is Statistics inTAC minutes. FTIB HW.measurement Measurement interval for statistics The paramter support FTLB and FTIB 0/15/30/60/360/720/1440 minutes, Acceptable Range is measurement in minutes. Acceptable HW Values. Measurement interval for TOP where '0' means disabled.minutes, The 0/15/30/60/360/720/1440 Range is 0/15/30/60/360/720/1440 FreqSync statistics measurement in parameter supports FTIB HW Measurement interval for TWAMP where '0' means disabled. Theunit. minutes, where '0' means disabled. minutes. Acceptable Range is statistics measurement in minutes. parameter supports FTLB and FTIB Measurement interval for VLAN IP The paramter support FTLB and FTIB 0/15/30/60/360/720/1440 Acceptable Range is inminutes, HW. Statistics measurement minutes. HW Values. Measurement interval for VLAN PHB where '0' means disabled. The 0/15/30/60/360/720/1440 Acceptable Range is inminutes, Statistics measurement minutes. parameter supports FTLB and FTIB Measurement interval for VLAN where '0' means disabled. 0/15/30/60/360/720/1440 minutes, Acceptable Range is HW. interface statistics measurement in This parameter where '0' meansidentifies disabled.the 0/15/30/60/360/720/1440 minutes, minutes. Acceptable Range is performance management where '0' means disabled.minutes, 0/15/30/60/360/720/1440 measurement configuration within BTS where '0' means disabled. Transport. The value is always 1. On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line On-line Not modifiable disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( disabled (0), 15min ( 1 to 1 number, step 15min (15) 15min (15) 15min (15) 15min (15) 15min (15) 15min (15) 15min (15) 15min (15) 15min (15) 15min (15) 15min (15) 15min (15) 15min (15) 1 within this object are Control by e-Node-B parameter Template (Phil) VF Default Shared Default 60min (60) 60min (60) 60min (60) 60min (60) 60min (60) disabled (0) 60min (60) disabled (0) disabled (0) disabled (0) 60min (60) 60min (60) 60min (60) 1 60min (60) 60min (60) 60min (60) 60min (60) 60min (60) 60min (60) 60min (60) disabled (0) disabled (0) disabled (0) 60min (60) 60min (60) 60min (60) 1 emplate (Phil) Parameter relationships Related features LTE602 Performance Management LTE602 Performance Administration Management LTE602 Performance (standard) Administration Management LTE602 Performance (standard) Administration Management LTE602 Performance (standard) Administration Management LTE602 Performance (standard) Administration Management LTE602 Performance (standard) Administration Management LTE602 Performance (standard) Administration Management LTE602 Performance (standard) Administration Management LTE602 Performance (standard) Administration Management LTE602 Performance (standard), LTE891 Administration Management LTE602over Performance Timing Packet (standard) Administration Management with phase LTE602 Performance (standard) Administration synchronization Management LTE602 Performance (standard) (optional) Administration Management (standard) Administration (standard) Abbreviated Name ctrlTsId extTraceReporting - extCellTraceRep extTraceReporting - extUeTraceRep maxUeTraceSessions netActIpAddr omsTracePortNum tceTracePortNum traceRepMode - cellTraceRepMode traceRepMode - ueTraceRepMode ueActiveTrcSessFlag vendorSpecTracing - taTracing Full Name Description Trace control identifier This parameter is the naming attribute 3rd party cell trace Trace reporting of the MOC reporting support to 3rd Party 3rd party UE trace Trace reporting CTRLTS. Tool for Cell Trace. reporting support to 3rd Party Maximum UE trace The maximum It uniquely identifies This indicates the Tool for Subscriber sessions number of UE trace a TraceIP Control NetAct IPallowed address NetAct support foraddress sending & Equipment Trace. sessions allowed. instance. trace reports 3rd OMS trace port number The Trace Port This parameter indicatestothe This Party address for Number to be used support for sending 3rd party tool trace port The Trace Port indicates the Cell Traffic Tracing. while establishing trace reports to 3rdof number Number tothe be used maximum number Cell trace reporting Specifies trace trace connection Party address for while establishing active subscriber or mode mode used UE trace reporting mode reporting Specifies the trace (TCP) towards Subscriber &sending trace connection UE trace sessions by OMS for reporting modeif used OMS/iOMS. UE active trace sessions This indicates Equipment (TCP) towards 3rd that can be Trace. Trace Reports for at OMS for sending present flag there are active Party Tool.any TA tracing This parameter supported by eNB. Cell Trace Sessions Trace Reports for UE trace sessions describes whether (Cell Traffic Trace) User Trace Sessions runningofwithin eNB. tracing to NetAct. & (Subscriber This parameterTA instantaneous Equipment trace)are to indicates if there value as part of NetAct. any active UE trace vendor specific sessions extensioncurrently tracing is running within enabled or not.eNB. The following parameters Ne netActIpAddr omsTracePortNum tceTracePortNum Modification Range and step NSN Default VF Default Shared Default Not modifiable On-line On-line Not modifiable Not modifiable Not modifiable Not modifiable On-line On-line Not modifiable On-line 1...1, step 1 false (0), true (1) false (0), true (1) 1...60, step 1 7...15 characters 1024...49392, step 1 1024...49151, step 1 Online (0), Offline (1) Online (0), Offline (1) false (0), true (1) false (0), true (1) 1 false (0) true (1) 60 0.0.0.0 49392 49151 Offline (1) Online (0) false (0) false (0) 1 false (0) false (0) 60 0.0.0.0 49392 49151 Offline (1) Online (0) false (0) true (1) 1 false (0) false (0) 60 0.0.0.0 49392 49151 Offline (1) Online (0) false (0) true (1) following parameters NetAct (OSS) teams Parameter relationships Related features Change Control LTE163 Subscriber and Equipment Trace (optional) Draft Version A Draft Version A Draft Version A LTE163 Subscriber and Equipment Trace (optional) LTE163 Subscriber and Equipment Trace (optional) LTE163 Subscriber and Equipment Trace (optional) LTE163 Subscriber and Equipment Trace (optional) Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A LTE163 Subscriber and Equipment Trace (optional) Draft Version A Draft Version A Unique ID LTE71 LTE75 LTE76 LTE78 LTE79 LTE80 LTE81 LTE82 LTE85 LTE86 LTE94 LTE96 LTE97 LTE99 LTE112 LTE114 LTE115 LTE155 LTE160 LTE437 LTE547 LTE630 LTE810 LTE899 LTE900 LTE902 LTE903 LTE904 LTE901 LTE147 LTE468 LTE539 LTE654 LTE655 LTE720 LTE724 LTE154 LTE153 LTE653 LTE432 LTE656 LTE657 LTE150 LTE665 LTE666 LTE679 LTE685 LTE689 LTE692 LTE746 LTE651 LTE770 Feature Component Title 2-way RX diversity (MRC) Up to 3 cells per Flexi LTE BTS Support for legacy MHA Flexi AC/DC with Battery Power Module Flexi Indoor and Outdoor cabinets GPS synchronisation Cell range up to 14.5 km High Capacity Flexi System Module FSME Flexi 3-sector RF Module 2600 Flexi 3-sector RF Module 2100 Feederless Site MIMO 2TX configuration with 3-sector RF Module Cell radius max 77 km Flexi 3-sector RF Module 1.7/2.1 Cell Bandwidth - 20 MHz Cell Bandwidth - 10 MHz Cell Bandwidth - 5 MHz Support for 3rd party MHA Flexi BTS 3GPP Antenna Tilt Support Flexi 3-sector RF Module 800EU Flexi RRH 2TX 800EU Flexi Dual MHA 800 Flexi Dual MHA 2600 Antenna Line Supervision Flexi LTE BTS 40 W Power support Flexi BTS AISG MHA Support Flexi LTE BTS 60 W Power support Flexi LTE BTS Branch Activation Flexi LTE BTS 8W Power Support LTE Hardware Management PCI management Central ANR LTE Configuration Management LTE Software Management SON LTE BTS Auto Configuration LTE Automatic Neighbor Cell Configuration SON LTE BTS Auto Connectivity LTE BTS Site Manager LTE Operability Architecture Cell Outage Detection LTE Fault Management LTE Performance Management LTE OAM Transport Layer Security (TLS) Support LTE Certificate Management LTE User Account Management LTE Local User Account Management Infrastructures for Certification Authority (CA) and Registration Authority (RA) LTE IPsec Support LTE Firewall Support IP based Filtering for BTS Site Support Equipment Performance Monitoring I Basic Performance Counter Collection II Solution Area BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution BTS Site Solution Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Network Administration Network Administration Network Monitoring and Maintenance Network Monitoring and Maintenance Network Monitoring and Maintenance O&M Security O&M Security O&M Security O&M Security O&M Security O&M Security O&M Security O&M Security Performance Monitoring Performance Monitoring LTE797 LTE798 LTE806 LTE70 LTE1 LTE3 LTE5 LTE20 LTE27 LTE28 LTE30 LTE31 LTE37 LTE38 LTE39 LTE40 LTE41 LTE45 LTE49 LTE50 LTE51 LTE53 LTE69 LTE788 LTE187 LTE423 LTE747 LTE749 LTE761 LTE762 LTE767 LTE43 LTE793 LTE905 LTE158 LTE663 LTE913 LTE118 LTE119 LTE129 LTE131 LTE132 LTE134 LTE138 LTE664 LTE707 LTE710 LTE711 LTE713 LTE800 LTE875 LTE113 LTE447 LTE101 LTE104 Performance PM Counter Handover I Monitoring Performance PM Counter Histograms I Monitoring Performance PM Counter Transport I Radio Resource Monitoring Downlink adaptive open loop MIMO for two antennas Management and Radio Resource Telecom S1/X2 data path management Management and Radio Resource Telecom S1, X2 and RRC common signaling Management and Radio Resource Radio bearer and S1 bearer establishment and Telecom Management and Radio Resource release Telecom Admission control Management and Radio Resource Telecom Open loop UL power control and DL power setting Management and Radio Resource Telecom Closed loop UL power control Management and Radio Resource Telecom CQI adaption (DL) Management and Radio Resource Telecom Link adaptation by AMC (UL/DL) Management and Radio Resource Telecom Ciphering Management and Radio Resource Telecom Integrity protection Management and Radio Resource Telecom System information broadcast Management and Radio Resource Telecom Physical & transport channels Management and Radio Resource Telecom PDCP, RLC & MAC support Management and Radio Resource Telecom Fair scheduler (UL/DL) Management and Radio Resource Telecom Paging Management and Radio Resource Telecom UE state management Management and Radio Resource Telecom Cell selection and re-selection Management and Radio Resource Telecom Intra and inter eNB handover with X2 Management and Radio Resource Telecom Transmit diversity for two antennas Management and Radio Resource Telecom Support of 16 QAM (UL) Management and Radio Resource Telecom Single TX path mode Management and Radio Resource Telecom RRC connection release with redirect Management and Radio Resource Telecom Support of UE radio capabilities Management and Radio Resource Telecom Link adaptation for PDCCH Management and Radio Resource Advanced target cell selection and handover retry for Telecom Management and Radio Resource intramode frequency handover Idle mobility from LTE to WCDMA, GSM or Telecom Management and Radio Resource other LTE bands Telecom Support of aperiodic CQI reports Management and Radio Resource Telecom Support of 64 QAM in DL Management and Radio Resource Telecom Support of 16 QAM (DL) Management and Radio Resource Telecom and Non GBR QCI 5, 6, 7, 8 and 9 Management Supplementary Telecom O&M NTP clock time synchronization features O&M Supplementary GPS location and time retrieval features O&M Supplementary LTE NEBS Compliant OMS features Fast Ethernet (FE) / Gigabit Ethernet (GE) electrical Transmission interface Gigabit Ethernet (GE) optical interface Transmission Traffic prioritization on Ethernet layer Transmission Traffic prioritization on IP layer (Diffserv) Transmission VLAN based traffic differentiation Transmission Timing over Packet Transmission Traffic shaping (UL) Transmission LTE transport protocol stack Transmission Flexi Transport sub-module FTIB Transmission Synchronization from PDH interface Transmission Synchronization from 2.048MHz signal Transmission Synchronous Ethernet Transmission Flexi Transport sub-module FTLB Transmission Different IP addresses for U/C/M/S-plane Transmission Cell Bandwidth - 15 MHz BTS Site Solution SW support for RF sharing GSM-LTE BTS Site Solution Flexi 3-sector RF Module 1800 BTS Site Solution Flexi RRH 2TX 1800 BTS Site Solution LTE677 LTE103 LTE87 LTE1102 LTE492 LTE185 LTE475 LTE559 LTE830 LTE550 LTE681 LTE502 LTE163 LTE433 LTE667 LTE521 LTE805 LTE2 LTE4 LTE7 LTE9 LTE10 LTE11 LTE13 LTE22 LTE54 LTE55 LTE562 LTE703 LTE819 LTE870 LTE914 LTE796 LTE140 LTE491 LTE649 LTE564 LTE592 LTE775 LTE74 LTE89 LTE91 LTE106 LTE1101 LTE1106 LTE1195 LTE1337 LTE1356 LTE452 LTE614 LTE921 LTE977 LTE424 LTE459 LTE644 Flexi 1600 MHz RF solution BTS Site Solution Flexi RRH 2TX 730 BTS Site Solution FXCA Flexi 3-sector RF Module 850 BTS Site Solution FFCC TRS External Filter for FXCA BTS Site Solution Configuration ANR Management Configuration System Upgrade Management Configuration Automatic iOMS resiliency Management Configuration SW Monitoring Module for LTE Management Configuration LTE Automatic Lock Management Configuration Radio parameter online changeable Management Windows 7 Support for Element Manager Client Configuration Software Management Network Monitoring Cell Outage triggered reset and Maintenance Network Monitoring Subscriber and Equipment Trace and Maintenance Network Monitoring Cell Trace and Maintenance LTE User Event Log Management O&M Security Security for Ethernet ports on FCM/FSM2 O&M Security Performance PM Counter Capacity I Radio Resource Monitoring S1 Flex Management and Radio Resource Telecom Multi-Operator Core Network Management and Radio Resource Telecom Support of multiple EPS bearer Management and Radio Resource Telecom Service differentiation Management and Radio Resource Telecom EPS bearers for conversational voice Management and Radio Resource Telecom Robust header compression Management and Radio Resource Telecom Rate capping Management and Radio Resource Telecom Emergency call handling Management and Radio Resource Telecom Intra-LTE handover via S1 Management and Radio Resource Telecom Inter-frequency handover Management and Radio Resource Telecom CSFB to UTRAN or GSM via redirect Management and Radio Resource Telecom DL adaptive closed loop MIMO for two antennas Management and Radio Resource Telecom DL inter-cell interference generation Management and Radio Resource Telecom Idle mode mobility from LTE to CDMA/eHRPD Management and Radio Resource Telecom and Graceful cell shut down Management Supplementary Telecom O&M iOMS connectivity increase features Ethernet OAM Transmission FlexiPacket Radio Connectivity Transmission QoS aware Ethernet switching Transmission IPSec on FTIB Transmission Link Supervision with BFD Transmission SCTP multi-homing (MME) Transmission Flexi System Module FSMD BTS Site Solutions FRHB Flexi RRH 2TX 2600 BTS Site Solutions FHCA Flexi RRH 2TX 850 BTS Site Solutions 6 cell support with one System Module BTS Site Solutions FFCB TRS External Filter for FHCA BTS Site Solutions Flexi low power RRH 850 2TX for optical repeater BTS Site Solutions interface FHCC Flexi 850 Repeater Interface Unit (RIU) BTS Site Solutions FHEC Flexi RRH 2TX 1800 low power Flexi RRH 2TX BTS Site Solutions 2100 Flexi RF Module 2TX 850 (FXCC) BTS Site Solutions FRGQ Flexi RRH 2TX 2100 BTS Site Solutions Distributed Sites (up to 20 km) BTS Site Solutions FRBB Flexi RF Module 760 Triple BTS Site Solutions RF chaining with FSME BTS Site Solutions NW monitoring & Automatic interface alarm correlation Maintenance NW monitoring & LTE Timing Advance Evaluation Maintenance NW monitoring & Configurable Trace content Maintenance LTE602 LTE482 LTE510 LTE533 LTE581 LTE771 LTE782 LTE784 LTE882 LTE783 LTE42 LTE56 LTE68 LTE426 LTE430 LTE442 LTE450 LTE473 LTE490 LTE518 LTE522 LTE570 LTE571 LTE572 LTE616 LTE619 LTE735 LTE807 LTE829 LTE971 LTE1034 LTE1035 LTE144 LTE574 LTE866 LTE931 LTE763 LTE947 LTE949 LTE950 LTE1040 LTE1148 LTE1261 LTE1263 LTE1306 LTE179 LTE621 LTE524 LTE593 LTE622 LTE623 LTE646 LTE877 LTE940 LTE1045 Performance Management Administration DNS Support for certificate examination Synchronization of InterRAT neigbhors Mobility Robustness PRACH management Optimization of Intra-LTE neighbor relations ANR Fully UE based ANR InterRAT GERAN System Upgrade with Backward Compatibility ANR InterRAT UTRAN DRX in RRC connected mode Inter RAT handover to WCDMA Support of cell based location service System time broadcast for SIB8 DL power boosting for control channels Network Assisted Cell Change to GSM MME capacity value change Extended DRX settings Subscriber profile based mobility Operator specific QCI S1 partial reset Periodic UE measurements Controlled uplink packet segmentation IMS emergency session Usage based PDCCH adaptation Interference aware UL scheduling RRC Connection Re-establishment Idle mode mobility from LTE to CDMA/1xRTT Increased uplink MCS range Intra-LTE mobility offsets Extended UL Link Adaptation Outer Loop Link Adaptation for PDCCH Transport Admission Control IP Transport Network Measurement Fast IP rerouting Ethernet Jumbo Frames FXFA Flexi 3-sector RF Module 1900 FSMF Flexi Multiradio 10 System Module FPFD Flexi Power Distribution Sub-module FPFC Flexi Power Distribution Module FXEB Flexi 3-sector RF Module 1800 FRIG Flexi RRH 4TX 1.7/2.1 FHDB Flexi RRH 2TX 900 FRGV Flexi RRH 2TX 2100 FRMD Flexi 3-sector RF Module 800 Dual Band with One System Module Flexi 10BTS Basic Configurations Certificate Management for iOMS Security for Ethernet Ports Local Link Layer Security Crypto Agent SW Monitoring Extension with PM Counters Adjustable Performance Upload SW Verification Agent Full SON Support for Distributed Sites NW monitoring & Maintenance Supplementary O&M features Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management Configuration Management RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom RRM / Telecom Transmission Transmission Transmission Transmission BTS Site Solutions BTS Site Solutions BTS Site Solutions BTS Site Solutions BTS Site Solutions BTS Site Solutions BTS Site Solutions BTS Site Solutions BTS Site Solutions BTS Site Solutions BTS Site Solutions O&M O&M O&M O&M O&M O&M O&M O&M LTE1078 LTE1222 LTE1340 LTE162 LTE953 LTE1019 LTE612 LTE628 System Upgrade SON Automation Modes Trace-based Real Time Monitoring Cell Trace with IMSI MDT (Minimization of Drive Test) SON Reports LTE iOMS HW, HP Blade Gen8 S1 Overload Handling X2 eNB Configuration Update Channel-aware Scheduler (UL) IRC for 2 RX Paths Support of High Speed Users CS Fallback to UTRAN SRVCC to WCDMA SRVCC to GSM Measurement-based Redirect to UTRAN GSM Redirect with System Information ETWS broadcast Commercial Mobile Alert System OTDOA Support of QCI 2, 3 and 4 Smart Admission Control ARP-based Admission Control for E-RABs eRAB Modification Multiple GBR EPS Bearers per UE Intra-eNB Inter-frequency Load Balancing Synchronization Hub FTIF Transport PDH / Ethernet LTE487 LTE511 LTE568 LTE585 LTE786 LTE907 LTE980 LTE1036 LTE1060 LTE1089 LTE1139 LTE1170 LTE1407 LTE1442 LTE1542 LTE1680 LTE505 LTE507 LTE523 LTE962 LTE1099 LTE1260 LTE1367 LTE1368 LTE1383 LTE1405 LTE1687 LTE72 Idle Mode Mobility Load Balancing RRM / Telecom Intra Cell Handover RRM / Telecom DL Adaptive Closed Loop MIMO (4x2) RRM / Telecom Smart DRX RRM / Telecom Flexible UL Bandwidth RRM / Telecom TTI Bundling RRM / Telecom IRC for 4 RX Paths RRM / Telecom RSRQ Based Cell Reselection RRM / Telecom TDD - FDD Handover RRM / Telecom Downlink Carrier Aggregation - 20 MHz RRM / Telecom ZUC security algorithm RRM / Telecom Inter - frequency Load Balancing RRM / Telecom RSRQ Based Redirect RRM / Telecom Open Access Home eNodeB Mobility RRM / Telecom FDD Supercell RRM / Telecom Active Queue Management RRM / Telecom Transport Separation for RAN Sharing Transmission Inter-RAT Neighbor Relation Optimization O&M Multi-Layered Certificate Authorities O&M RACH Optimization O&M Event-triggered symptom data collection and provisioni O&M iOMS Certificate Update and Revocation Support O&M Automatic cell combination assignment for carrier aggr O&M System Upgrade with Backward Compatibility O&M Cell-specific Neighbor Relation/PCI Handling O&M Remote SW-Management and Data Backup/Restore Sup O&M Basic Layer3 Data Analyzer (L3DA) O&M 4-way RX diversity BTS Site Solutions LTE1201 LTE440 LTE1014 LTE46 LTE979 LTE48 LTE736 LTE872 LTE873 LTE1073 LTE984 LTE843 LTE494 LTE495 LTE496 LTE497 LTE534 LTE519 LTE587 LTE1387 O&M O&M O&M O&M O&M O&M O&M RRM / Telecom call RRM handling / Telecom call handling RRM / Telecom Cov&Cap RRM / Telecom Cov&Cap RRM / Telecom Mobility RRM / Telecom Mobility RRM / Telecom Mobility RRM / Telecom Mobility RRM / Telecom Mobility RRM / Telecom Mobility RRM / Telecom Services RRM / Telecom Services RRM / Telecom Services RRM / Telecom Services RRM / Telecom Services RRM / Telecom Services RRM / Telecom Services RRM / Telecom Services RRM / Telecom Cov&Cap Transmission Transmission LTE88 LTE116 LTE117 RAN2126/LTE435 LTE471 LTE748 LTE972 LTE985 LTE986 LTE1066 LTE1067 LTE1247 LTE1262 LTE1329 LTE1395 LTE1422 LTE1563 LTE1662 FXDA Flexi RF Module 3TX 900 BTS Site Solutions Cell Bandwidth - 3 MHz BTS Site Solutions Cell Bandwidth - 1.4 MHz BTS Site Solutions RF Sharing WCDMA-LTE BTS Site Solutions LTE Dual carrier operation within one RF band BTS Site Solutions FRHD Flexi RRH 4TX 2600 BTS Site Solutions Flexi Baseband Module FBBA BTS Site Solutions FRGT Flexi 3-sector RF Module 2100 BTS Site Solutions FRGS Flexi 3-sector RF Module 2100 BTS Site Solutions FRHC Flexi RF Module 6TX 2600 BTS Site Solutions FRMC Flexi RF Module 6TX 800 BTS Site Solutions Multiradio System Module extended LTE configurations BTS Site Solutions FHEB Flexi RRH 2TX 1800 BTS Site Solutions FRPA Flexi RF Module 6TX 700 BTS Site Solutions FRPB Flexi RF Module 6TX 700 BTS Site Solutions FXDB Flexi RF Module 3TX 900 BTS Site Solutions FRHF Flexi RF Module 6TX 2600 BTS Site Solutions FRHE Flexi RRH 4TX 2600 BTS Site Solutions Sales info Release VF FSMF Enabled/Disabled Shared FSMF Enabled/Disabled BSW BSW ASW BSW BSW BSW BSW BSW BSW BSW BSW BSW ASW BSW ASW ASW ASW ASW ASW BSW BSW BSW BSW ASW ASW ASW ASW ASW ASW ASW NetAct ASW NetAct ASW NetAct BSW BSW ASW NetAct BSW ASW BSW BSW ASW NetAct BSW BSW BSW ASW ASW NetAct BSW ASW ASW ASW BSW BSW BSW RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 Enabled Enabled Disabled Enabled Enabled Disabled Enabled N/A Disabled Disabled Enabled Enabled Disabled Disabled Disabled Enabled Disabled Disabled Disabled Enabled Enabled Disabled Disabled Enabled Enabled Disabled Disabled Enabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Disabled Enabled Enabled Enabled Enabled Disabled Enabled Enabled Disabled Enabled N/A Disabled Disabled Enabled Enabled Disabled Disabled Disabled Enabled Disabled Disabled Disabled Enabled Enabled Disabled Disabled Enabled Enabled Disabled Disabled Enabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Disabled Enabled Enabled ASW ASW ASW ASW BSW BSW BSW BSW BSW ASW ASW BSW ASW BSW BSW BSW BSW BSW BSW BSW BSW BSW ASW ASW BSW BSW BSW BSW BSW BSW BSW ASW ASW BSW BSW BSW BSW BSW BSW BSW BSW ASW ASW BSW ASW BSW BSW BSW ASW BSW BSW ASW ASW BSW BSW RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL10 RL20 RL20 RL20 RL20 Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Disabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Disabled Disabled Enabled Disabled Enabled Enabled Disabled Disabled Enabled Enabled N/A Disabled Disabled Enabled N/A Enabled Disabled Disabled Disabled Disabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Disabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Disabled Disabled Enabled Disabled Enabled Enabled Disabled Disabled Enabled Enabled N/A Disabled Disabled Enabled N/A Enabled Disabled Disabled Disabled Disabled BSW BSW BSW BSW ASW BSW BSW BSW BSW BSW BSW BSW ASW NetAct ASW NetAct ASW NetAct BSW ASW ASW ASW ASW ASW ASW ASW ASW ASW ASW ASW ASW ASW ASW ASW BSW ASW NetAct ASW ASW ASW BSW BSW BSW BSW BSW BSW BSW BSW BSW BSW BSW BSW BSW ASW BSW ASW ASW NetAct BSW BSW RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL20 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 Disabled Disabled Disabled Disabled Disabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Disabled Disabled Enabled Disabled Enabled Enabled Disabled Enabled Enabled Disabled Disabled Disabled Enabled Enabled Disabled Enabled Disabled Disabled Disabled Enabled Disabled Disabled Disabled Disabled N/A Enabled Enabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Enabled Disabled N/A Disabled Enabled Enabled Disabled Disabled Disabled Disabled Disabled Enabled Enabled Enabled Enabled Enabled Enabled Enabled Disabled Disabled Enabled Disabled Enabled Enabled Enabled Enabled Enabled Disabled Disabled Disabled Enabled Enabled Disabled Enabled Disabled Disabled Disabled Enabled Disabled Disabled Disabled Disabled N/A Enabled Enabled Disabled Disabled Disabled Enabled Disabled Disabled Disabled Disabled Disabled Disabled Enabled Disabled N/A Disabled Enabled Enabled BSW BSW ASW NetAct ASW NetAct ASW NetAct ASW NetAct ASW ASW NetAct BSW ASW NetAct ASW ASW ASW BSW BSW ASW BSW ASW ASW ASW BSW ASW BSW ASW ASW ASW BSW ASW BSW BSW BSW BSW BSW ASW ASW BSW BSW BSW BSW BSW BSW BSW BSW BSW BSW ASW BSW BSW BSW BSW BSW BSW BSW BSW BSW RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL30 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 Enabled Enabled Disabled Disabled Disabled Disabled Enabled Disabled Enabled Disabled Enabled Disabled Disabled Disabled Enabled Disabled Enabled Enabled Disabled Disabled Enabled Disabled Enabled Disabled Enabled Enabled Enabled Disabled Enabled Enabled Enabled Enabled Disabled Enabled Disabled Disabled Disabled Enabled Enabled Enabled Disabled Disabled Disabled Disabled Disabled Disabled Enabled Enabled Enabled Enabled Disabled Enabled Enabled Enabled Disabled Enabled Enabled Disabled Disabled Disabled Disabled Enabled Disabled Enabled Disabled Enabled Disabled Disabled Disabled Enabled Disabled Enabled Enabled Disabled Disabled Enabled Disabled Enabled Disabled Enabled Enabled Enabled Disabled Enabled Enabled Enabled Enabled Disabled Enabled Disabled Disabled Disabled Enabled Enabled Enabled Disabled Disabled Disabled Disabled Disabled Disabled Enabled Enabled Enabled Enabled Disabled Enabled Enabled Enabled Disabled BSW BSW BSW ASW NetAct ASW NetAct BSW BSW BSW BSW ASW ASW BSW ASW ASW ASW ASW ASW ASW ASW ASW ASW ASW ASW ASW ASW ASW BSW BSW ASW BSW ASW ASW ASW ASW ASW BSW ASW ASW ASW ASW BSW ASW ASW BSW ASW ASW BSW ASW BSW BSW ASW BSW BSW BSW ASW ASW RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL40 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 Enabled Disabled Enabled Disabled Disabled Disabled Enabled Disabled Enabled Disabled Disabled Disabled Enabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Enabled Disabled Disabled Disabled Enabled Disabled Enabled Disabled Enabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Enabled Disabled Disabled Enabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Enabled Disabled Enabled Disabled Disabled Disabled Enabled Disabled Enabled Disabled Disabled Disabled Enabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Enabled Disabled Disabled Disabled Enabled Disabled Enabled Disabled Enabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Enabled Enabled Disabled Enabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled BSW ASW BSW ASW ASW BSW BSW ASW BSW BSW BSW BSW BSW BSW BSW BSW BSW BSW RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 RL50 Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Enabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Remark (VF) Based on Site Design ??? Change Control Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A No (Phase 2 Yes) ??? ??? Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A ??? Yes (in Phase 2) ??? No No (Open Loop) No ??? ??? ??? Yes (Phase 2) Yes (Site Design) ??? Yes Yes Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version C Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A ??? Yes Yes ??? ??? ??? ??? ??? No ??? ??? ??? ??? ??? ??? ??? Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A ??? Yes (Not supported in MME) No (Trial/Optimisation phase) No (Trial/Optimisation phase) No (Technical discussion) Yes (Technical discussion) ??? ??? no (Security design) No (Phase 2 yes) No ??? ??? ??? ??? Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A No (Phase 2 yes) Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Draft Version A Refer 3G LLD V1.24 Parameter AdjLAbsPrioCellReselec AdjLQrxlevminEUTRA AdjLThreshigh AdjLThreslow HOPL ID Object HOPL HOPL HOPL HOPL HOPL VF Default 5 -120 dBm (-60) 8 dB(4) 0 dB 1 AdjLEARFCN AdjLMeasBw HopLIdentifier ADJLId ADJL ADJL ADJL ADJL 6300 50 (50) for LTE800 & 100 (100) for LTE2600 1 1 LTECellReselection AbsPrioCellReselec Sprioritysearch1 Sprioritysearch2 WCEL WCEL WCEL WCEL 1(Enabled) 4 (f1,f2 & f3) 52 dB (26) 0 dB SIB19Priority RNC 3 EUTRADetection RNFC 1(Enabled) Feature Id Feature Name Release Vodafone RAN2067 LTE Interworking RU20 Enabled Refer 2G LLD V4.24 Parameter lteAdjCellIndex earfcn lteAdjCellMinBand lteAdjCellMinRxLevel lteAdjCellMcc lteAdjCellMnc lteAdjCellPriority lteAdjCellReselectLowerThr lteAdjCellReselectUpperThr lteAdjCellTac Object ADJL ADJL ADJL ADJL ADJL ADJL ADJL ADJL ADJL ADJL gsmPriority timeHysteresis reselectionAlgorithmHysteresis prioritySearchThr lowPriorityThr wcdmaPriority utranThresholdReselection utranQualRxLevelMargin BTS BTS BTS BTS BTS BTS BTS BTS Feature Id Feature Name Release BSS21353 LTE System Information RG20 VF Default 6300 50 (3) for LTE800 / 100 (5) for LTE2600 -120 dBm 234 15 5 0 8 dB (4) 0 (Dummy value) 1 10s (1) Disabled (0) 15 15 4 0 dB -115 dBm Vodafone Enabled Not Used Not Used

NSN 4G Parameters Workbook

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