S13+Parameters+for+NPO

Managed Object Parameter name MML nameADJC/ADCE CIADJC/ADCE INDEXADJC/ADCE BFREQADJC/ADCE BBCCADJC/ADCE BNCCADJC/ADCE FREQADJC/ADCE BCCADJC/ADCE W1-W5ADJC/ADCE MRGSADJC/ADCE AUCLADJC/ADCE OFADJC/ADCE LMRGADJC/ADCE PMRGADJC/ADCE QMRGADJC/ADCE PRIADJC/ADCE LACADJC/ADCE MCCADJC/ADCE MNCADJC/ADCE PMAX1ADJC/ADCE PMAX2ADJC/ADCE SLADJC/ADCE SYNCADJC/ADCE TRHOBSC ALFRTBSC ALHRTBSC ALSDCBSC CSRBSC CSBSC CNGSBSC SCHFRBSC CNGTBSC TCHFRBSC HIFSHRBSC BCSULBSC DMACBSC DMICBSC DEXDRBSC DINHOBSC EEFBSC GMACBSC GMICBSC HDLBSC HULBSC LAPDLBSC CLRBSC MAXHTSBSC MAXHTTBSC PRDHIFBSC PRDMHSBSC PRDBNTBSC PRDCFRBSC PRDCNGBSC PRDMHTBSC MINHTTBSC DISBBSC ITCFBSC NPC

adjacent cell identification adjacent cell index background BCCH frequency Background BTS colour code background network colour code BCCH frequency BTS colour code C/I estimation weight enable HO margin lev qual HO level umbrella HO load factor HO margin lev HO margin pbgt HO margin qual HO priority level location area code mobile country code mobile network code MS TX pwr max gsm MS TX pwr max gsm1x00 RX lev min cell synchronised TRHO target level alarm limit for full rate TCH availability alarm limit for half rate TCH availibility alarm limit for SDCCH availability Alarm Threshold For Number Of Channel Seizure Requests Alarm Threshold For Number Of Channel Seizures Alarm Threshold For SDCCH Congestion Alarm Threshold For SDCCH Failure Rate Alarm Threshold For TCH Congestion Alarm Threshold For TCH Failure Rate alarm threshold for the share of high TCH interference BCSU load threshold DCS macrocell threshold DCS microcell threshold disable external DR disable internal HO enable emergency call on FACCH GSM Macrocell Threshold GSM Microcell Threshold HO preference order interference DL HO preference order interference UL LAPD load threshold load rate for channel search maximum mean holding time for SDCCHs maximum mean holding time for TCHs measurement period for high TCH interference supervision measurement period for SDCCH mean holding time supervision measurement period for supervision of BTS with no transactions measurement period for supervision of channel failure rate measurement period for supervision of congestion in BTS measurement period for TCH mean holding time supervision minimum mean holding time for TCHs MS distance behaviour number of ignored transcoder failures number of preferred cells

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BSC RXANTBSC RXBALBSC SBCNFBSC HIFLVLBSC TGTBSC MSSCFBSC MSSCSBSC VDLSBTS-SEG ATTBTS-SEG APBTS-SEG BBCCBTS-SEG BNCCBTS HOPBTS BTSBTS LSEGBTS-SEG BLTBTS-SEG BMABTS NAMEBTS CNTBTS-SEG REBTS-SEG BARBTS-SEG CLCBTS-SEG HYSBTS-SEG CIBTS DLNBTS-SEG DTXBTS-SEG ESIBTS-SEG ECBTS HSN1BTS HSN2BTS-SEG LACBTS MOBTS-SEG NY1BTS-SEG RETBTS-SEG MQLBTS-SEG MNCBTS-SEG DMAXBTS-SEG MPUBTS-SEG TXP1BTS-SEG TXP2BTS-SEG MS txpwr max GSM PMAX1BTS-SEG MS txpwr max GSM1x00 PMAX2BTS PMINBTS-SEG NECIBTS-SEG ACCBTS-SEG AGBTS-SEG MFRBTS-SEG SLOBTS-SEG PLMNBTS-SEG POBTS-SEG QPUBTS-SEG QPCBTS-SEG QPNBTS-SEG QPHBTS-SEG RLTBTS RDIVBTS-SEG RACBTS-SEG CB

RX antenna supervision period RX level balance soft blocking C/N FR threshold for high TCH interference level TRHO Guard Time upper limit of MS speed class 1 upper limit of MS speed class 2 variable DL step size allow IMSI attach detach averaging period background BTS colour code background network colour code BTS hopping mode BTS identification BTS load in SEG BTS load threshold BTS measure average BTS name C/N threshold call reestablishment allowed cell barred cell load for channel search cell reselect hysteresis cell identity DL noise level DTX Mode early sending indication emergency call restricted hopping sequence number 1 hopping sequence number 2 location area code MAIO offset max number of repetition max number of retransmission max queue length mobile network code MS max distance in call setup MS priority used MS txpwr max CCH MS txpwr max CCH1x00

MS tx pwr min new establishment causes support not allowed access classes number of blocks for access grant msg number of multiframes number of slots spread trans PLMN permitted power offset queue priority used queueing priority call queueing priority non-urgent handover queueing priority urgent handover radio link timeout RX diversity rxlev access min SMS CB used

























































BTS-SEG TLCBTS-SEG TLHBTS-SEG PERBTS-SEG TGTBTS-SEG TRPBTS ULNHOC AWSHOC AACHOC EFAHOC EFHHOC EFPHOC EIHHOC EICHOC no MML interfaceHOC EMSHOC EPBHOC EUMHOC GPPHOC HPPHOC HPUHOC no MML interfaceHOC LDWHOC LDWSHOC LUWHOC LUWSHOC MIHHOC MIUHOC MSWSHOC MSRHOC MSNHOC MSPHOC NOZHOC QDWHOC QDWSHOC QUWHOC QUWSHOC IDNHOC IDPHOC IDRHOC IUNHOC IUPHOC IURHOC LDNHOC LDPHOC LDRHOC LUNHOC LUPHOC LURHOC QDNHOC QDPHOC QDRHOC QUNHOC QUPHOC QURPOC AENAPOC PMAX1POC PMAX2POC PMIN

time limit call time limit handover timer for periodic MS location updating TRHO guard time TRX priority in TCH allocation UL noise level adjacent cell averaging window size all adjacent cells averaged enable fast averaging call setup enable fast averaging HO enable fast averaging PC enable intracell handover interference DL enable intracell handover interference UL

enable MS distance process enable power budget handover enable umbrella handover GSM PLMN priorisation handover period power budget handover period umbrella

level downlink weighting level downlink window size level uplink weighting level uplink window size min int between HO req min int between unsucc HO attempt MS distance averaging window size MS distance threshold param MS max range MS distance threshold param Nx MS distance threshold param Px number of zero results quality downlink weighting quality downlink window size quality uplink weighting quality uplink window size threshold interference downlink Nx threshold interference downlink Px threshold interference downlink Rx level threshold interference uplink Nx threshold interference uplink Px threshold interference uplink Rx level threshold level downlink Nx threshold level downlink Px threshold level downlink Rx level threshold level uplink Nx threshold level uplink Px threshold level uplink Rx level threshold qual downlink Nx threshold qual downlink Px threshold qual downlink Rx qual threshold qual uplink Nx threshold qual uplink Px threshold qual uplink Rx qual ALA enabled BS TX pwr max BS TX pwr max1x00 BS TX pwr min

























































POC AMINPOC LDWPOC LDSPOC LUWPOC LUSPOC QDWPOC QDSPOC QUWPOC QUSPOC LDNPOC LDPPOC LDRPOC LUNPOC LUPPOC LURPOC LDNPOC LDPPOC LDRPOC LUNPOC LUPPOC LURPOC LQNPOC LQPPOC LQRPOC UDNPOC UDPPOC UDRPOC UUNPOC UUPPOC UURPOC UDNPOC UDPPOC UDRPOC UUNPOC UUPPOC UURPOC INTPOC PENAPOC PD0POC PD1POC PD2POC PDFPOC INCPOC ALIMPOC REDRA PSEITRXTRX BFREQTRX BL1-BL10TRX BTSCTRX CI1-CI10TRX CLTRX FREQTRX MNC1-MNC10TRX LEVDTRX LEVTRX PREFTRX SIGN

min int between ALA pc averaging lev dl weighting pc averaging lev dl window size pc averaging lev ul weighting pc averaging lev ul window size pc averaging qual dl weighting pc averaging qual dl window size pc averaging qual ul weighting pc averaging qual ul window size pc lower thresholds lev dl Nx pc lower thresholds lev dl Px pc lower thresholds lev dl Rx level pc lower thresholds lev ul Nx pc lower thresholds lev ul Px pc lower thresholds lev ul Rx level pc lower thresholds qual dl Nx pc lower thresholds qual dl Px pc lower thresholds qual dl Rx qual pc lower thresholds qual ul Nx pc lower thresholds qual ul Px pc lower thresholds qual ul Rx qual pc lower thresholds qual144 Nx pc lower thresholds qual144 Px pc lower thresholds qual144 Rx level pc upper thresholds lev dl Nx pc upper thresholds lev dl Px pc upper thresholds lev dl Rx level pc upper thresholds lev ul Nx pc upper thresholds lev ul Px pc upper thresholds lev ul Rx level pc upper thresholds qual dl Nx pc upper thresholds qual dl Px pc upper thresholds qual dl Rx qual pc upper thresholds qual ul Nx pc upper thresholds qual ul Px pc upper thresholds qual ul Rx qual power control interval power ctrl enabled power decr limit band 0 power decr limit band 1 power decr limit band 2 power decr qual factor power incr step size power limit ALA power red step size packet service entity identifier administrative statebackground frequency background level adjustment 1-10 background training sequence code cell identification of interfering cell 1-10 combi link frequency mobile network code of interfering cell optimum RX level downlink optimum RX level uplink preferred BCCH TRX subslots for signalling



























































TRX TRXTRX TSCTRX ACBSC ALTBSC AMLBSC AUTBTS-SEG ALTBTS-SEG AMLBTS-SEG AUTHOC ATCIHOC ATCMHOC ATPMBTS FRTD1

BTS FRTD2

BTS FRTD3

BTS FRTU1

BTS FRTU2

BTS FRTU3

BSC IACBSC SBCNAFBTS FRCBTS FRH1BTS FRH2BTS FRH3BTS ICMI and FRIBTS FRSBTS FRT1BTS FRT2BTS FRT3BTS HRCPOC LDRFPOC LURFPOC LDRHPOC LURHHOC QDRHHOC QDRFBSC ACHBSC SALBTS HRTD1

BTS HRTD2

BTS HRTD3

BTS HRTU1

BTS HRTU2

BTS HRTU3

BSC SBCNAHHOC IHRHBTS HRH1BTS HRH2BTS HRH3BTS ICMI and HRIBTS HRSBTS HRT1BTS HRT2BTS HRT3BSC ASGBTS-SEG ARLTBSC HRLTRX HRS

transceiver identification training sequence code autoconfigure AMH lower load threshold AMH Max Load Of Target Cell AMH upper load threshold AMH lower load threshold AMH max load of target cell AMH upper load threshold AMH traffic control IUO AMH traffic control MCN AMH TRHO pbgt margin AMR FR DL threshold 1 (FRTD1)AMR FR DL threshold 2 (FRTD2)AMR FR DL threshold 3 (FRTD3)AMR FR hysteresis 1 (FRH1)AMR FR hysteresis 2 (FRH2)AMR FR hysteresis 3 (FRH3)

initial AMR channel rate soft blocking C/N AMR FR AMR FR codec mode set AMR FR hysteresis 1 AMR FR hysteresis 2 AMR FR hysteresis 3 AMR FR initial codec mode indicator AMR FR start mode AMR FR threshold 1 AMR FR threshold 2 AMR FR threshold 3 AMR HR codec mode set pc lower threshold dl Rx qual AMR FR (LDRF)pc lower threshold ul Rx qual AMR FR (LURF)pc lower threshold dl Rx qual AMR HR (LDRH)pc lower threshold ul Rx qual AMR HR (LURH)threshold dl Rx qual AMR HR (QDRH)threshold dl Rx qual for AMR FR (QDRF)

AMR Configuration In Handovers slow AMR LA enabled AMR HR DL threshold 1 (HRTD1)AMR HR DL threshold 2 (HRTD2)AMR HR DL threshold 3 (HRTD3)AMR HR UL threshold 1 (HRTU1)AMR HR UL threshold 2 (HRTU2)AMR HR UL threshold 3 (HRTU3)

soft blocking C/N AMR HR Intra HO threshold Rx qual AMR HR (IHRH)

AMR HR hysteresis 1 AMR HR hysteresis 2 AMR HR hysteresis 3 AMR HR initial codec mode indicator AMR HR start mode AMR HR threshold 1 AMR HR threshold 2 AMR HR threshold 3 AMR set grades enabled AMR Radio Link Timeout lower limit for FR TCH resources TRX half rate support













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BTS AHOPADJC/ADCE GENAADJC/ADCE GBARADJC/ADCE GTXP1ADJC/ADCE GTXP2ADJC/ADCE GPETADJC/ADCE GREOADJC/ADCE GRXPADJC/ADCE GTEOADJC/ADCE HCSADJC/ADCE PRCADJC/ADCE RACBSC CTRBSC DHPBSC DLPBSC DNPBSC CSDBSC CSUBSC GTUGTBSC MNDLBSC MNULBSC UP1BSC UP2BSC UP3BSC UP4BTS-SEG CHYSBTS-SEG QUALBTS-SEG CALCBTS-SEG CODHBTS-SEG CODBTS CDEDBTS CDEFBTS-SEG DIREBTS-SEG DLABTS-SEG DLBHBTS-SEG DLBBTS-SEG GBARBTS-SEG GHYSBTS-SEG GENABTS-SEG GRETBTS-SEG GTXP1BTS-SEG GTXP2BTS GPLBTS GPUBTS-SEG GACCBTS-SEG GSLOBTS-SEG GRXPBTS-SEG HCSBTS-SEG MCABTS-SEG MCUBTS CMAXBTS-SEG BLABTS-SEG BLUBTS-SEG MBPBTS-SEG MBGBTS-SEG NSEIBTS-SEG PABBTS-SEG PBB

antenna hopping Adjacent GPRS enabledGPRS cell barred GPRS MS TX pwr max CCH GPRS MS TX pwr max CCH 1x00 GPRS penalty time GPRS reselect offset GPRS rxlev Access min GPRS temporary offset HCS signal level threshold priority class routing area code CS TCH allocation RTSL0 DL high priority SSS DL low priority SSS DL normal priority SSS free TSL for CS downgrade Free TSLs For CS Upgrade GPRS territory update guard time maximum number of DL TBF maximum number of UL TBF UL priority 1 SSS UL priority 2 SSS UL priority 3 SSS UL priority 4 SSS C31 hysteresis C32 qual calculation of minimum number of slots coding scheme hop coding scheme no hop dedicated GPRS capacity default GPRS capacity direct GPRS access BTS DL adaption probability threshold DL BLER crosspoint for CS selection hop DL BLER crosspoint for CS selection no hop GPRS cell barred GPRS cell reselect hysteresis GPRS enabled GPRS max number of retransmission GPRS MS txpwr max cch gprs ms txpwr max cch 1x00 GPRS non BCCH layer rxlev lower limit GPRS non BCCH layer rxlev upper limit GPRS not allowed access classes GPRS number of slots spread transmission GPRS rxlev access min HCS threshold initial MCS for acknowledged mode initial MCS for unacknowledged mode max GPRS capacity maximum BLER in acknowledged mode maximum BLER in unacknowledged mode mean BEP offset 8PSK mean BEP offset GMSK network service entity identifier PAGCH blocks PBCCH blocks



























































BTS-SEG PRBBTS-SEG BFGBTS-SEG PRCBTS-SEG RRHBTS-SEG RESBTS-SEG ULABTS-SEG ULBHBTS-SEG ULBPOC ALPHAPOC GAMMAPOC IFPPOC TFPRA LACRA MCCRA MNCRA NSEIRA RACTRX GTRXBSC CTCBTS EGENAPOC BEPBTS ALABTS DCSABTS DCSUBTS UCSABTS UCSUBTS TRATBSC EGICBSC IEPHBSC SPLBTS EAEBTS EAEBTS EASBTS EASBTS EAWBSC BL02BSC BL03BSC BL04BSC BL12BSC BL13BSC BL14BSC BL23BSC BL24BSC RL02BSC RL03BSC RL04BSC RL12BSC RL13BSC RL14BSC RL23BSC RL24POC POFFBSC RXTABSC RNW IDBSC FB IDBSC PLAN IDBSC IHTABSC MTTR

PRACH blocks prefer BCCH frequency GPRS priority class ra reselect hysteresis reselection time UL adaption probability threshold UL BLER crosspoint for CS selection hop UL BLER crosspoint for CS selection no hop binary representation ALPHA binary representation TAU idle mode signal strength filter period transfer mode signal strength filter period location area code mobile country code mobile network code network service entity identifier routing area code GPRS enabled TRX CS TCH allocation calculation EGPRS enabled bit error probability filter averaging period adaptive LA algorithm DL coding scheme in acknowledged mode DL coding scheme in unacknowledged mode UL coding scheme in acknowledged mode UL coding scheme in unacknowledged mode transport type EGPRS inactivity criteria events per hour for EGPRS inactivity alarm supervision period length for EGPRS inactivity alarm EGPRS inactivity alarm end time EGPRS inactivity alarm end time EGPRS inactivity alarm start time EGPRS inactivity alarm start time EGPRS inactivity alarm weekdays mean BEP limit MS multislot pwr prof 0 with 2 UL TSL mean BEP limit MS multislot pwr prof 0 with 3 UL TSL mean BEP limit MS multislot pwr prof 0 with 4 UL TSL mean BEP limit MS multislot pwr prof 1 with 2 UL TSL mean BEP limit MS multislot pwr prof 1 with 3 UL TSL mean BEP limit MS multislot pwr prof 1 with 4 UL TSL mean BEP limit MS multislot pwr prof 2 with 3 UL TSL mean BEP limit MS multislot pwr prof 2 with 4 UL TSL RX quality limit MS multislot pwr prof 0 with 2 UL TSL RX quality limit MS multislot pwr prof 0 with 3 UL TSL RX quality limit MS multislot pwr prof 0 with 4 UL TSL RX quality limit MS multislot pwr prof 1 with 2 UL TSL RX quality limit MS multislot pwr prof 1 with 3 UL TSL RX quality limit MS multislot pwr prof 1 with 4 UL TSL RX quality limit MS multislot pwr prof 2 with 3 UL TSL RX quality limit MS multislot pwr prof 2 with 4 UL TSL BS TX pwr offset RX level based TCH access RNW configuration identification RNW fallback configuration identification RNW plan configuration identification internal handover to external maximum TCH transaction rate



























































BSC TTRCBSC DECHOC L1-L6HOC P1-P7TRX W1-W10TRX L1-L10TRX LAC1-LAC10TRX MCC1-MCC10BTS-SEG QUABTS-SEG REOBTS-SEG PIBTS-SEG PETBTS-SEG TEOADJC/ADCE CI1-CI5HOC CNTHOC ERMWHOC ERTHOC ERNHOC ERPHOC RPDBTS CS34BSC ISSHOC LARHOC LERHOC LENHOC LEPBSC BCPBSC BUGTBSC BUPBSC BUSFBSC CIFBSC CIULBSC DCAMBSC SBFBTS DMALBTS DMODTRX DFCA indication DFCABSC CITBTS FHRBTS FHHBSC SBCIBSC CIAFBSC SBAFBSC CIAHBSC SBAHBTS FAHTBSC CIHBSC SBHBSC SCIOBSC BITBSC EBIDBTS-SEG BCCBTS DUMALBTS-SEG MEASADJC/ADCE DADLADJC/ADCE DADLABTS-SEG DRBTS-SEG DRM

TCH transaction count delay of HO and PC for emergency calls lower C/I limit for band 1-6 priority adjustment step for band 1-7 C/I estimation weight 1-10 level adjustment 1-10 location area code of interfering cell 1-10 mobile country code of interfering cell cell bar qualify cell reselect offset cell reselection parameter index penalty time temporary offset cell identification of reference cell count of successive rapid field drop thresholds deep dropping EDGE monitoring window threshold deep dropping EDGE threshold deep dropping EDGE Nx threshold deep dropping EDGE Px threshold level uplink for rapid field drop coding schemes CS3 and CS4 enabled intra segment SDCCH HO guard non BCCH layer access threshold non BCCH layer exit threshold non BCCH layer exit threshold nx non BCCH layer exit threshold px BIM confidence probability BIM update guard time BIM update period BIM update scaling factor C/I Target FR C/I target UL offset DFCA channel allocation method soft blocking C/I FR DFCA mobile allocation frequency lists DFCA mode

C/I Target 14.4 forced HR mode C/I averaging period forced HR mode hysteresis soft blocking C/I 14.4 C/I target AMR FR Soft Blocking C/I AMR FR C/I target AMR HR soft blocking C/I AMR HR forced AMR HR mode C/I threshold C/I target HR Soft Blocking C/I HR SAIC DL C/I offset BIM interference threshold Expected BSC-BSC interface delay BTS colour code DFCA unsynchronized mode MA frequency list measurement BCCH Allocation list target cell of direct access to desired layer AMR target cell of direct access to desired layer directed retry used directed retry method


























































BTS-SEG MADRBTS-SEG MIDRBTS BANDBTS-SEG ACTBTS-SEG DBCBTS-SEG multiband cell reporting MBRADJC/ADCE DTMADJC/ADCE DPMBSC DFPBSC DPPFTBTS-SEG DENATRX DAPBTS-SEG TRIHBTS-SEG ELAHOC ERFDHOC ERDHOC ERAWHOC ERZBTS EXGENABTS EXKEEPBTS UCSEABTS DCSEUBTS UCSEUBTS DCSEABTS MCEABTS MCEU

ADJC/ADCE HOTAHOC MAXHOC MINTRX ETRXBTS EXTBSC EPFBSC ERFBSC EOFADJC/ADCE ACLADJC/ADCE FMTHOC LSLHOC MSAHOC SDSHOC STNHOC STPHOC USLBSC FPHOBTS MSBTS HOPBTS-SEG PSEIBTS PCU IDBSC SBCNHBTS FHTBSC HRUBTS-SEG FRLBTS-SEG FRUBSC HRIHOC BNXHOC BPXHOC CBNHOC GCIFHOC GCIH

max time limit directed retry min time limit directed retry frequency band in use BCCH allocation usage for active MS adjacency on other band

DTM enabled DTM power budget margin DTM fragmentation penalty DTM pfc packet flow timer DTM enabled dynamic abis pool ID TCH rate intra-cell handover EGPRS link adaptation enabled enable enhanced rapid field drop enhanced rapid field drop duration modified averaging window modified number of zero results extended cell for GPRS/EDGE enabledextended cell location keep periodUL Coding Scheme In Ext Area Acknowledged ModeDL coding scheme In ext area unacknowledged modeUL coding scheme in ext area unacknowledged modeDL coding scheme in ext area acknowledged modeinitial MCS for ext area acknowledged modeinitial MCS for ext area unacknowledged mode

HO target area MS distance HO threshold ext cell max MS distance ho threshold ext cell min E-TRX type radius extension enable answer to paging call on FACCH enable call re-establishment on FACCH enable ordinary calls on FACCH adjacent cell layer fast moving threshold lower speed limit MS speed averaging MS speed detection state MS speed threshold Nx MS speed threshold Px upper speed limit FEP in PC HO use MAIO Step BTS hopping modepacket service entity identifier PCU identifier Soft Blocking C/N HR forced HR mode C/I threshold upper limit for FR TCH resources lower limit for FR TCH resources upper limit for FR TCH resources TCH in handover super reuse bad C/I threshold Nx super reuse bad C/I threshold Px super reuse bad threshold Nx super reuse good C/I threshold AMR FR super reuse good C/I threshold AMR HR


















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HOC GNXBTS-SEG HCLBTS-SEG HCUBTS-SEG HDTBTS-SEG HMEBTS-SEG HRCUBTS-SEG HTMBTS-SEG HUGBTS-SEG HUTBSC SBCNBSC IBGABTS-SEG IGEBSC STBTS-SEG LIMITBTS-SEG TCRPBTS-SEG REMBTS-SEG RUPBTS-SEG TTBTS-SEG TRBTS-SEG IDRADJC/ADCE DRTHOC AVERHOC EFHOHOC SIZEHOC ZEROHOC MIRHOC TIMHOC BCIHOC BCIFHOC BCIHHOC CBRHOC METHHOC GCITRX BT1-BT10TRX BW1-BW10TRX BCI1-BCI10TRX BLAC1-BLAC10TRX BMCC1-BMCC10TRX BMNC1-BMNC10TRX BLEVTRX T1-T10HOC ETABTS UHSNBTS no MML interfaceHOC CBPTRX BDALTRX BFRTTRX DALTRX FRTBTS UHOPBTS UMOBTS UMALBTS UMSADJW DETADJW MET

BSC PTMPBSC SAPTBSC TTSAP

super reuse good C/I threshold Nx HSCSD cell load lower limit HSCSD cell load upper limit HSCSD downgrade guard time HSCSD minimum exhaust HSCSD regular cell load upper limit HSCSD TCH capacity minimum HSCSD upgrade gain HSCSD upgrade guard time soft blocking C/N 14.4 IMSI based handover gsm cells anonymous ms IMSI based handover GSM enabled subscriber type limit for free TCHs number of traffic channels reserved for priority subscribers only reservation method used in trunk reservation restricted use of priority channels in incoming handover traffic types trunk reservation used intelligent directed retry used directed retry threshold all interfering cells averaged enable inter FRT handover interfering cell averaging window size interfering cell number of zero results min interval between IUO HO req BQ minimum BSIC decode time super reuse bad C/I threshold super reuse bad C/I threshold AMR FR super reuse bad C/I threshold AMR HR super reuse bad threshold Rx level super reuse estimation method super reuse good C/I threshold background C/I estimation type 1-10 background C/I estimation weight 1-10 background cell identification of interfering cell 1-10 background location area code of interfering cell 1-10 background mobile country code of interfering cell background mobile network code of interfering cell background optimum RX level uplink C/I estimation type 1-10 enable TCH assignment super IUO underlay hopping sequence number

super reuse bad threshold Px background direct access level background TRX frequency type direct access level TRX frequency type underlay BTS hopping mode underlay MAIO offset underlay mobile allocation frequency list underlay MAIO step direct access Ec/Io thresholdminimum CPICH Ec/Io level

penalty trigger measurement period service area penalty time triggering threshold for service area penalty


























































BTS-SEG GFDDBTS-SEG FDMHOC UAWSHOC UAACHOC IDEHOC UMIUHOC MIOHOC LTSCHOC FDMRHOC UNOZHOC QSRCHOC TRWHOC WCPBTS-SEG GFDMBSC IBWABTS-SEG IWEBSC WFNEBSC WFNPBSC IPNDBTS-SEG FDDBTS-SEG QSRPBTS-SEG QSRIBTS FDMOBTS FDRADJW FQT

BSC AHRL

BSC AHRU

BTS AFRL

BTS AFRU

BSC NACCGPRS Control NNZRGPRS Control NOPOGPRS Control NRIWGPRS Control NRTWBSC NCMBSC NIRPBSC NNCPBSC NTPTBSC NTRPADJC/ADCE EPMADJC/ADCE EQMADJC/ADCE GPMADJC/ADCE GQMBSC NOCTADJC/ADCE POPTBSC PREBSC LDF1

BSC LDF2

BSC LDF3

BSC LDF4

BSC UDF1

BSC UDF2

BSC UDF3

BSC UDF4

BSC LUF1

BSC LUF2

BSC LUF3

BSC LUF4

GPRS fdd cell reselect offset minimum fdd threshold adjacent WCDMA RAN cell averaging window size all adjacent WCDMA RAN cells averaged inter-system direct access enabled min interval between unsucc ISHO attempt min interval between unsucc IUO HO min traffic load for speech call number of measured FDD cells number of WCDMA RAN zero results threshold for multi-RAT MS triggering ratio for WCDMA RAN cell penalty WCDMA RAN cell penalty time GPRS minimum fdd threshold IMSI based handover WCDMA cells anonymous ms IMSI based handover WCDMA enabled WCDMA FDD NCCR enabled WCDMA FDD NCCR preferred ISHO preferred for non-DTM MS FDD and TDD cell reselect offset GPRS threshold to search UTRAN cells threshold to search UTRAN cells minimum fdd threshold offsetminimum RSCP thresholdISNCCR FDD quality thresholdAMR lower limit for FR resourcesAMR upper limit for FR resourcesAMR lower limit for SEG FR resourcesAMR upper limit for SEG FR resources

NACC enabled NCCR number of zero results NCCR other PCU cell offset NCCR rxlev idle mode window size NCCR rxlev transfer mode window size NCCR control mode NCCR idle mode reporting period NCCR neighbor cell penalty NCCR target cell penalty time NCCR transfer mode reporting period NCCR EGPRS PBGT margin NCCR EGPRS quality margin NCCR GPRS PBGT margin NCCR GPRS quality margin NCCR return to old cell time MS pwr opt level pre-emption usage in handover AMR PPC DL FR Lower Threshold 1AMR PPC DL FR Lower Threshold 2AMR PPC DL FR Lower Threshold 3AMR PPC DL FR Lower Threshold 4AMR PPC DL FR Upper Threshold 1AMR PPC DL FR Upper Threshold 2AMR PPC DL FR Upper Threshold 3AMR PPC DL FR Upper Threshold 4AMR PPC UL FR Lower Threshold 1AMR PPC UL FR Lower Threshold 2AMR PPC UL FR Lower Threshold 3AMR PPC UL FR Lower Threshold 4



























































BSC UUF1

BSC UUF2

BSC UUF3

BSC UUF4

BSC LDH1

BSC LDH2

BSC LDH3

BSC LDH4

BSC UDH1

BSC UDH2

BSC UDH3

BSC UDH4

BSC LUH1

BSC LUH2

BSC LUH3

BSC LUH4

BSC UUH1

BSC UUH2

BSC UUH3

BSC UUH4

BSC TIMTRX ON/OFFHOC ESDBTS NBLBTS-SEG SEGNAMEBTS-SEG SEGBTS STIRCHOC IBRHOC REPBTS-SEG RXPHOC R18HOC RT18HOC R19HOC RT19HOC R8HOC RT8HOC R9HOC RT9HOC FRHOC FRTHOC SBRBSC PSCBSC TLWBSC TLWHBSC WPECBSC WPICADJC/ADCE AGENAADJC/ADCE CTYADJC/ADCE CHAINBTS-SEG AFRLBTS-SEG AFRUBTS BO0BTS BO1BTS BO2BTS BO3BTS BO4BTS BO5BTS MAL

AMR PPC UL FR Upper Threshold 1AMR PPC UL FR Upper Threshold 2AMR PPC UL FR Upper Threshold 3AMR PPC UL FR Upper Threshold 4AMR PPC DL HR Lower Threshold 1AMR PPC DL HR Lower Threshold 2AMR PPC DL HR Lower Threshold 3AMR PPC DL HR Lower Threshold 4AMR PPC DL HR Upper Threshold 1AMR PPC DL HR Upper Threshold 2AMR PPC DL HR Upper Threshold 3AMR PPC DL HR Upper Threshold 4AMR PPC UL HR Lower Threshold 1AMR PPC UL HR Lower Threshold 2AMR PPC UL HR Lower Threshold 3AMR PPC UL HR Lower Threshold 4AMR PPC UL HR Upper Threshold 1AMR PPC UL HR Upper Threshold 2AMR PPC UL HR Upper Threshold 3AMR PPC UL HR Upper Threshold 4

BTS site battery backup forced HO timer binary outputs enable SDCCH handover non BCCH layer offset SEG name SEG identification STIRC enabled invalid BSIC reporting reporting rate scale ord 1800 reporting offset 1800 reporting threshold 1900 reporting offset 1900 reporting threshold 800 reporting offset 800 reporting threshold 900 reporting offset 900 reporting threshold FDD reporting offset FDD reporting threshold serving band reporting public served count time limit WPS time limit WPS handover WPS preference capacity WPS priority capacity Adjacent GPRS enabled cell type chained adj cell AMR lower limit for SEG FR resources AMR upper limit for SEG FR resources boundary 0 boundary 1 boundary 2 boundary 3 boundary 4 boundary 5 mobile allocation frequency list



























































BTS-SEG RACHOC IHRFHOC IHRHBCF T200FBCF T200S

routing area code intra HO threshold Rx qual AMR FR Intra HO threshold Rx qual AMR HR FACCH LAPDm T200SDCCH LAPDm T200






Parameter name NPO parameter

CI noAdjacent Cell Index noBackground BCCH Frequency noBackground BSIC BCC noBackground BSIC NCC noBCCH Frequency yesBSIC BCC noBSIC NCC yesEnable HO Margin Lev Qual yesHO Level Umbrella yesHO Load Factor yesHO Margin Lev yesHO Margin PBGT yesHO Margin Qual yesHO Priority Level yesLAC yesMCC noMNC noMS Tx Pwr Max GSM yesMS Tx Pwr Max GSM1x00 yesRX Lev Min Cell yesSynchronised yesTRHO Target Level yesAlarm Limit For Full Rate TCH Availability noAlarm Limit For Half Rate TCH Availibility noAlarm Limit For SDCCH Availability no

nono

Alarm Threshold For SDCCH Congestion noAlarm Threshold For SDCCH Failure Rate noAlarm Threshold For TCH Congestion noAlarm Threshold For TCH Failure Rate no

noBCSU Load Threshold noDCS Macrocell Threshold yesDCS Microcell Threshold yesDisable External DR yesDisable Internal HO yesEnable Emergency Call On FACCH noGSM Macrocell Threshold yesGSM Microcell Threshold yesHO Preference Order Interference DL noHO Preference Order Interference UL noLAPD Load Threshold noLoad Rate For Channel Search noMaximum Mean Holding Time For SDCCHs noMaximum Mean Holding Time For TCHs no

nononononono

Minimum Mean Holding Time For TCHs noMS Distance Behaviour noNumber Of Ignored Transcoder Failures noNumber Of Preferred Cells no

Alarm Threshold For Number Of Channel Seizure RequestsAlarm Threshold For Number Of Channel Seizures

Alarm Threshold For The Share Of High TCH Interference

Meas Period For High TCH Interference SupervisionMeas Period For SDCCH Mean Holding Time SupervisionMeas Period For Supervision Of BTS With No TransactMeas Period For Supervision Of Channel Failure RateMeas Period For TCH Mean Holding Time SupervisionMeasurement Period For Supervision Of Congestion In BTS

RX Antenna Supervision Period noRX Level Balance noSoft Blocking C/N FR noThreshold For High TCH Interference Level noTRHO Guard Time noUpper Limit Of MS Speed Class 1 noUpper Limit Of MS Speed Class 2 noVariable DL Step Size noAllow IMSI Attach Detach noAveraging Period noBackground BSIC BCC noBackground BSIC NCC noBTS Hopping Mode yesBTS ID noBTS Load In SEG yesBTS Load Threshold yesBTS Measure Average noBTS Name noC/N Threshold noCall Reestablishment Allowed noCell Barred noCell Load For Channel Search noCell Reselect Hysteresis yesCI noDL Noise Level noDTX Mode noEarly Sending Indication noEmergency Call Restricted noHopping Sequence Number 1 yesHopping Sequence Number 2 yesLAC yesMAIO Offset yesMax Number Of Repetition noMax Number Of Retransmission noMax Queue Length noMNC noMS Max Distance In Call Setup noMS Priority Used noMS Tx Pwr Max CCH noMS Tx Pwr Max CCH 1x00 noMS Tx Pwr Max GSM noMS Tx Pwr Max GSM 1x00 noMS Tx Pwr Min yesNew Establishment Causes Support noNot Allowed Access Classes noNumber Of Blocks For Access Grant Msg yesNumber Of Multiframes noNumber Of Slots Spread Trans noPLMN Permitted noPower Offset noQueue Priority Used noQueueing Priority Call noQueueing Priority Non-Urgent Handover noQueueing Priority Urgent Handover noRadio Link Timeout yesRX diversity noRxlev Access Min yesSMS CB Used no

Time Limit Call noTime Limit Handover noTimer For Periodic MS Location Updating noTRHO Guard Time noTRX Priority In TCH Allocation yesUL Noise Level noAdjacent Cell Averaging Window Size noAll Adjacent Cells Averaged noEnable Fast Averaging Call Setup noEnable Fast Averaging HO noEnable Fast Averaging PC noEnable Intracell Handover Interference DL noEnable Intracell Handover Interference UL noEnable Intracell HO noEnable MS Distance Process noEnable Power Budget Handover noEnable Umbrella Handover yesGSM PLMN Priorisation noHandover Period Power Budget noHandover Period Umbrella noHOC ID noLevel Downlink Weighting noLevel Downlink Window Size noLevel Uplink Weighting noLevel Uplink Window Size noMin Int Between HO Req noMin Int Between Unsucc HO Attempt noMS Distance Averaging Window Size no

noMS Distance Threshold Param Nx noMS Distance Threshold Param Px noNumber Of Zero Results noQuality Downlink Weighting noQuality Downlink Window Size noQuality Uplink Weighting noQuality Uplink Window Size noThreshold Interference Downlink Nx noThreshold Interference Downlink Px noThreshold Interference Downlink Rx Level yesThreshold Interference Uplink Nx noThreshold Interference Uplink Px noThreshold Interference Uplink Rx Level yesThreshold Level Downlink Nx noThreshold Level Downlink Px noThreshold Level Downlink Rx Level yesThreshold Level Uplink Nx noThreshold Level Uplink Px noThreshold Level Uplink Rx Level yesThreshold Qual Downlink Nx noThreshold Qual Downlink Px noThreshold Qual Downlink Rx Qual yesThreshold Qual Uplink Nx noThreshold Qual Uplink Px noThreshold Qual Uplink Rx Qual yesALA Enabled noBS Tx Pwr Max yesBS TX Pwr Max1x00 yesBS Tx Pwr Min yes

MS Distance Threshold Param MS Max Range

Min Int Between ALA noPC Averaging Lev DL Weighting noPC Averaging Lev DL Window Size noPC Averaging Lev UL Weighting noPC Averaging Lev UL Window Size noPC Averaging Qual DL Weighting noPC Averaging Qual DL Window Size noPC Averaging Qual UL Weighting noPC Averaging Qual UL Window Size noPC Lower Thresholds Lev DL Nx noPC Lower Thresholds Lev DL Px noPC Lower Thresholds Lev DL Rx Level yesPC Lower Thresholds Lev UL Nx noPC Lower Thresholds Lev UL Px noPC Lower Thresholds Lev UL Rx Level yesPC Lower Thresholds Qual DL Nx noPC Lower Thresholds Qual DL Px noPC Lower Thresholds Qual DL Rx Qual yesPC Lower Thresholds Qual UL Nx noPC Lower Thresholds Qual UL Px noPC Lower Thresholds Qual UL Rx Qual yesPC Lower Thresholds Qual144 Nx noPC Lower Thresholds Qual144 Px noPC Lower Thresholds Qual144 Rx Level noPC Upper Thresholds Lev DL Nx noPC Upper Thresholds Lev DL Px noPC Upper Thresholds Lev DL Rx Level yesPC Upper Thresholds Lev UL Nx noPC Upper Thresholds Lev UL Px noPC Upper Thresholds Lev UL Rx Level yesPC Upper Thresholds Qual DL Nx noPC Upper Thresholds Qual DL Px noPC Upper Thresholds Qual DL Rx Qual yesPC Upper Thresholds Qual UL Nx noPC Upper Thresholds Qual UL Px noPC Upper Thresholds Qual UL Rx Qual yesPower Control Interval noPower CTRL Enabled noPower Decr Limit Band 0 noPower Decr Limit Band 1 noPower Decr Limit Band 2 noPower Decr Qual Factor noPower Incr Step Size noPower Limit ALA noPower Red Step Size noRA ID noAdministrative State noBackground Frequency noBackground Interfering Cells noBackground Optimum Rx Level Uplink noChannel 0 Administrative State noCombi Link noFrequency yesO&M LAPD Link Name noO&M LAPD Link Number noOptimum RX Level Downlink noOptimum RX Level Uplink yesSubslots For Signalling no

TRX ID noTSC yesAutoconfigure noAMH Lower Load Threshold yesAMH Max Load Of Target Cell yesAMH Upper Load Threshold yesAMH Lower Load Threshold yesAMH Max Load Of Target Cell yesAMH Upper Load Threshold yesAMH Traffic Control IUO noAMH Traffic Control MCN noAMH TRHO PBGT Margin yesAMR FR DL Threshold 1 yesAMR FR DL Threshold 2 yesAMR FR DL Threshold 3 yesAMR FR UL Threshold 1 yesAMR FR UL Threshold 2 yesAMR FR UL Threshold 3 yes

Initial AMR Channel Rate yesSoft Blocking C/N AMR FR yesAMR FR Codec Mode Set yesAMR FR Hysteresis 1 yesAMR FR Hysteresis 2 yesAMR FR Hysteresis 3 yesAMR FR Initial Codec Mode Indicator yesAMR FR Start Mode yesAMR FR Threshold 1 yesAMR FR Threshold 2 yesAMR FR Threshold 3 yesAMR HR Codec Mode Set yesPC Lower Threshold Dl Rx Qual AMR FR yesPC Lower Threshold Ul Rx Qual AMR FR yesPC Upper Threshold Dl Rx Qual AMR FR yesPC Upper Threshold Ul Rx Qual AMR FR yesThreshold Dl Rx Qual For AMR FR yesThreshold Ul Rx Qual AMR FR yesAMR Configuration In Handovers yesSlow AMR LA Enabled yesAMR HR DL Threshold 1 yesAMR HR DL Threshold 2 yesAMR HR DL Threshold 3 yesAMR HR UL Threshold 1 yesAMR HR UL Threshold 2 yesAMR HR UL Threshold 3 yesSoft Blocking C/N AMR HR yes

yesAMR HR Hysteresis 1 yesAMR HR Hysteresis 2 yesAMR HR Hysteresis 3 yesAMR HR Initial Codec Mode Indicator yesAMR HR Start Mode yesAMR HR Threshold 1 yesAMR HR Threshold 2 yesAMR HR Threshold 3 yesAMR Set Grades Enabled yesAMR Radio Link Timeout yesLower Limit For FR TCH Resources yesTRX Half Rate Support yes

AMR Handover HR Intra Threshold DL Rx Qual

Antenna Hopping yesGPRS Enabled yesGPRS Cell Barred noGPRS MS Tx Pwr Max CCH yesGPRS MS Tx Pwr Max CCH 1x00 yesGPRS Penalty Time noGPRS Reselect Offset noGPRS Rxlev Access Min noGPRS Temporary Offset noHCS Threshold yesPriority Class yesRAC yesCS TCH Allocation RTSL0 noDL High Priority SSS yesDL Low Priority SSS yesDL Normal Priority SSS yesFree TSL For CS Downgrade noFree TSLs For CS Upgrade noGPRS Territory Update Guard Time noMaximum Number Of DL TBF yesMaximum Number Of UL TBF yesUL Priority 1 SSS yesUL Priority 2 SSS yesUL Priority 3 SSS yesUL Priority 4 SSS yesC31 Hysteresis yesC32 Qual yesCalculation Of Minimum Number Of Slots noCoding Scheme Hop yesCoding Scheme No Hop yesDedicated GPRS Capacity yesDefault GPRS Capacity yesDirect GPRS Access BTS yesDL adaption probability threshold noDL BLER Crosspoint For CS Selection Hop no

noGPRS Cell Barred noGPRS Cell Reselect Hysteresis noGPRS Enabled yesGPRS Max Number Of Retransmission noGPRS MS Txpwr Max CCH yesGPRS MS Txpwr Max CCH 1x00 yesGPRS Non BCCH Layer Rxlev Lower Limit yesGPRS Non BCCH Layer Rxlev Upper Limit yesGPRS Not Allowed Access Classes no

noGPRS Rxlev Access Min noHCS Threshold yesInitial MCS For Acknowledged Mode yesInitial MCS For Unacknowledged Mode yesMax GPRS Capacity yesMaximum BLER In Acknowledged Mode noMaximum BLER In Unacknowledged Mode noMean BEP Offset 8PSK noMean BEP Offset GMSK noNSEI noPAGCH Blocks noPBCCH Blocks no

DL BLER Crosspoint For CS Selection No Hop

GPRS Number Of Slots Spread Transmission

PRACH Blocks noPrefer BCCH Frequency GPRS yesPriority Class yesRA Reselect Hysteresis noReselection Time noUL Adaption Probability Threshold noUL BLER Crosspoint For CS Selection Hop no

noBinary Representation ALPHA noBinary Representation TAU noIdle Mode Signal Strength Filter Period noTransfer Mode Signal Strength Filter Period noLAC yesMCC noMNC noNSEI List noRAC yesGPRS Enabled TRX yesCS TCH Allocation Calculation yesEGPRS Enabled yesBit Error Probability Filter Averaging Period noAdaptive LA Algorithm yesDL Coding Scheme In Acknowledged Mode no

noUL Coding Scheme In Acknowledged Mode no

noTransport Type noEGPRS Inactivity Criteria no

nono

EGPRS Inactivity Alarm End Time Hour noEGPRS Inactivity Alarm End Time Minute noEGPRS Inactivity Alarm Start Time Hour noEGPRS Inactivity Alarm Start Time Minute noEGPRS Inactivity Alarm Weekdays no

nononononononononononononononono

BS TX Pwr Offset noRX Level Based TCH Access noRNW Configuration Identification noRNW Fallback Configuration Identification noRNW Plan Configuration Identification noInternal Handover To External noMaximum TCH Transaction Rate no

UL BLER Crosspoint For CS Selection No Hop

DL Coding Scheme In Unacknowledged ModeUL Coding Scheme In Unacknowledged Mode

Events Per Hour For EGPRS Inactivity AlarmSupervision Period Length for EGPRS Inactivity Alarm

Mean BEP Limit MS Multislot Pwr Prof 0 With 2 UL TSLMean BEP Limit MS Multislot Pwr Prof 0 With 3 UL TSLMean BEP Limit MS Multislot Pwr Prof 0 With 4 UL TSLMean BEP Limit MS Multislot Pwr Prof 1 With 2 UL TSLMean BEP Limit MS Multislot Pwr Prof 1 With 3 UL TSLMean BEP Limit MS Multislot Pwr Prof 1 With 4 UL TSLMean BEP Limit MS Multislot Pwr Prof 2 With 3 UL TSLMean BEP Limit MS Multislot Pwr Prof 2 With 4 UL TSLRX Quality Limit MS Multislot Pwr Prof 0 With 2 UL TSLRX Quality Limit MS Multislot Pwr Prof 0 With 3 UL TSLRX Quality Limit MS Multislot Pwr Prof 0 With 4 UL TSLRX Quality Limit MS Multislot Pwr Prof 1 With 2 UL TSLRX Quality Limit MS Multislot Pwr Prof 1 With 3 UL TSLRX Quality Limit MS Multislot Pwr Prof 1 With 4 UL TSLRX Quality Limit MS Multislot Pwr Prof 2 With 3 UL TSLRX Quality Limit MS Multislot Pwr Prof 2 With 4 UL TSL

TCH Transaction Count noDelay Of HO And PC For Emergency Calls noLower C/I Limit For Band 1-6 noPriority Adjustment Step For Band 1-7 noC/I Estimation Weight noLevel Adjustment noMCC Of Interfering Cell noMNC Of Interfering Cell noCell Bar Qualify noCell Reselect Offset yesCell Reselection Parameter Index noPenalty Time yesTemporary Offset yesChained Adj Cell no

noDeep Dropping EDGE Monitoring Window noThreshold Deep Dropping EDGE noThreshold Deep Dropping EDGE Nx noThreshold Deep Dropping EDGE Px noThreshold Level Uplink For Rapid Field Drop noCoding Schemes CS3 And CS4 Enabled yesIntra Segment SDCCH HO Guard noNon BCCH Layer Access Threshold yesNon BCCH Layer Exit Threshold yesNon BCCH Layer Exit Threshold Nx yesNon BCCH Layer Exit Threshold Px yesBIM Confidence Probability noBIM Update Guard Time noBIM Update Period noBIM Update Scaling Factor noC/I Target FR yesC/I Target UL Offset yesDFCA Channel Allocation Method yesSoft Blocking C/I FR yesDFCA Mobile Allocation Frequency Lists yesDFCA Mode yesDFCA Indication yesC/I Target 14.4 noForced HR Mode C/I Averaging Period yesForced HR Mode Hysteresis yesSoft Blocking C/I 14.4 noC/I Target AMR FR yesSoft Blocking C/I AMR FR yesC/I Target AMR HR yesSoft Blocking C/I AMR HR yesForced AMR HR Mode C/I Threshold yesC/I Target HR yesSoft Blocking C/I HR yesSAIC DL C/I Offset noBIM Interference Threshold noExpected BSC-BSC Interface Delay noBSC-BSC Interface Status no

yesMeasurement BCCH Allocation List no

yesyes

Directed Retry Used noDirected Retry Method no

Count Of Successive Rapid Field Drop Thresholds

DFCA Unsynchronized Mode MA Frequency ListTarget Cell Of Direct Access To Desired LayerAMR Target Cell Of Direct Access To Desired Layer

Max Time Limit Directed Retry noMin Time Limit Directed Retry noFrequency Band In Use noBCCH Allocation Usage For Active MS noAdjacency On Other Band noMultiband Cell Reporting noDTM Enabled yesDTM Power Budget Margin yesDTM Fragmentation Penalty yesDTM PFC Packet Flow Timer noDTM Enabled yesDAP ID yesTCH Rate Intra-Cell Handover noEGPRS Link Adaptation Enabled yesEnable Enhanced Rapid Field Drop noEnhanced Rapid Field Drop Duration noModified Averaging Window noModified Number Of Zero Results noExtended Cell GPRS/EDGE Enabled yesExtended Cell Location Keep Period no

yesnonoyesyesno

HO Target Area noMS Distance HO Threshold Ext Cell Max noMS Distance HO Threshold Ext Cell Min noE-TRX Type noRadius Extension yesEnable Answer To Paging Call On FACCH noEnable Call Re-Establishment On FACCH noEnable Ordinary Calls On FACCH noAdjacent Cell Layer noFast Moving Threshold yesLower Speed Limit noMS Speed Averaging noMS Speed Detection State noMS Speed Threshold Nx noMS Speed Threshold Px noUpper Speed Limit noFEP In PC HO Use noMAIO Step yesBTS Hopping Mode yesPacket Service Entity Identifier noPCU Identifier noSoft Blocking C/N HR yesForced HR Mode C/I Threshold yesUpper Limit For FR TCH Resources yesLower Limit For FR TCH Resources yesUpper Limit For FR TCH Resources yesTCH In Handover noSuper Reuse Bad Threshold Nx noSuper Reuse Bad Threshold Px noSuper Reuse Bad Threshold Rx Level noSuper Reuse Good Threshold Nx noSuper Reuse Good Threshold Px no

UL Coding Scheme In Ext Area Acknowledged ModeDL Coding Scheme In Ext Area Unacknowledged ModeUL Coding Scheme In Ext Area Unacknowledged ModeDL Coding Scheme In Ext Area Acknowledged ModeInitial MCS For Ext Area Acknowledged ModeInitial MCS For Ext Area Unacknowledged Mode

Super Reuse Good Threshold Rx Level noHSCSD Cell Load Lower Limit noHSCSD Cell Load Upper Limit noHSCSD Downgrade Guard Time noHSCSD Minimum Exhaust noHSCSD Regular Cell Load Upper Limit noHSCSD TCH Capacity Minimum noHSCSD Upgrade Gain noHSCSD Upgrade Guard Time noSoft Blocking C/N 14.4 no

noIMSI Based Handover GSM Enabled yesSubscriber Type noLimit For Free TCHs no

nonono

Traffic Types noTrunk Reservation Used noIntelligent Directed Retry Used yesDirected Retry Threshold noAll Interfering Cells Averaged noEnable Inter FRT Handover noInterfering Cell Averaging Window Size noInterfering Cell Number Of Zero Results noMin Interval Between IUO HO Req BQ noMinimum BSIC Decode Time noSuper Reuse Bad C/I Threshold noSuper Reuse Bad C/I Threshold Nx noSuper Reuse Bad C/I Threshold Px noSuper Reuse Good C/I Threshold noSuper Reuse Good C/I Threshold Nx noSuper Reuse Good C/I Threshold Px noBackground C/I Estimation Type noBackground C/I Estimation Weight noBackground CI Of Interfering Cell noBackground LAC of Interfering Cell noBackground Level Adjustment noBackground MCC Of Interfering Cell no

noC/I Estimation Type noEnable TCH Assignment Super IUO noUnderlay Hopping Sequence Number noUnderlay MAL ID Used noSuper Reuse Estimation Method noBackground Direct Access Level noBackground TRX Frequency Type noDirect Access Level noTRX Frequency Type noUnderlay BTS Hopping Mode noUnderlay MAIO Offset noUnderlay MAL ID noUnderlay MAIO Step noDirect Access Ec/Io Threshold noMinimum CPICH Ec/Io Level noPenalty Trigger Measurement Period noService Area Penalty Time no

no

IMSI Based Handover GSM Cells Anonymous MS

Number Of TCH Reserved For Priority Subscribers OnlyReservation Method Used In Trunk ReservationRestricted Use Of Priority Channels In Incoming HO

Background Mobile Network Code Of Interfering Cell

Triggering Threshold For Service Area Penalty

GPRS FDD Cell Reselect Offset noMinimum FDD Threshold no

noAll Adjacent WCDMA RAN Cells Averaged noInter-System Direct Access Enabled noMin Interval Between Unsucc ISHO Attempt noMin Interval Between Unsucc IUO HO noMin Traffic Load For Speech Call noNumber Of Measured FDD Cells noNumber Of WCDMA RAN Zero Results noThreshold For Multi-RAT MS no

noWCDMA RAN Cell Penalty Time noGPRS Minimum FDD Threshold no

noIMSI Based Handover WCDMA Enabled noWCDMA FDD NCCR Enabled noWCDMA FDD NCCR Preferred noISHO Preferred For Non-DTM MS noFDD Cell Reselect Offset no

noThreshold To Search WCDMA RAN Cells noMinimum Fdd Threshold Offset noMinimum RSCP Threshold noISNCCR FDD Quality Threshold noAMR Lower Limit For FR Resources yesAMR Upper Limit For FR Resources yesAMR Lower Limit For SEG FR Resources noAMR Upper Limit For SEG FR Resources noNACC Enabled yesNCCR Number Of Zero Results noNCCR Other PCU Cell Offset yesNCCR Rxlev Idle Mode Window Size noNCCR Rxlev Transfer Mode Window Size noNCCR Control Mode yesNCCR Idle Mode Reporting Period noNCCR Neighbor Cell Penalty noNCCR Target Cell Penalty Time noNCCR Transfer Mode Reporting Period noNCCR EGPRS PBGT Margin yesNCCR EGPRS Quality Margin yesNCCR GPRS PBGT Margin yesNCCR GPRS Quality Margin yesNCCR Return To Old Cell Time yesMS Pwr Opt Level noPre-Emption Usage In Handover noAMR PPC DL FR Lower Threshold 1 yesAMR PPC DL FR Lower Threshold 2 yesAMR PPC DL FR Lower Threshold 3 yesAMR PPC DL FR Lower Threshold 4 yesAMR PPC DL FR Upper Threshold 1 yesAMR PPC DL FR Upper Threshold 2 yesAMR PPC DL FR Upper Threshold 3 yesAMR PPC DL FR Upper Threshold 4 yesAMR PPC UL FR Lower Threshold 1 yesAMR PPC UL FR Lower Threshold 2 yesAMR PPC UL FR Lower Threshold 3 yesAMR PPC UL FR Lower Threshold 4 yes

Adjacent WCDMA RAN Cell Averaging Window Size

Triggering Ratio For WCDMA RAN Cell Penalty

IMSI Based Handover WCDMA Cells Anonymous MS

GPRS Threshold To Search WCDMA RAN Cells

AMR PPC UL FR Upper Threshold 1 yesAMR PPC UL FR Upper Threshold 2 yesAMR PPC UL FR Upper Threshold 3 yesAMR PPC UL FR Upper Threshold 4 yesAMR PPC DL HR Lower Threshold 1 yesAMR PPC DL HR Lower Threshold 2 yesAMR PPC DL HR Lower Threshold 3 yesAMR PPC DL HR Lower Threshold 4 yesAMR PPC DL HR Upper Threshold 1 yesAMR PPC DL HR Upper Threshold 2 yesAMR PPC DL HR Upper Threshold 3 yesAMR PPC DL HR Upper Threshold 4 yesAMR PPC UL HR Lower Threshold 1 yesAMR PPC UL HR Lower Threshold 2 yesAMR PPC UL HR Lower Threshold 3 yesAMR PPC UL HR Lower Threshold 4 yesAMR PPC UL HR Upper Threshold 1 yesAMR PPC UL HR Upper Threshold 2 yesAMR PPC UL HR Upper Threshold 3 yesAMR PPC UL HR Upper Threshold 4 yesBTS Site Battery Backup Forced HO Timer noBinary Outputs noEnable SDCCH Handover yesNon BCCH Layer Offset yesSegment Name noSegment ID noSTIRC Enabled noInvalid BSIC Reporting noReporting Rate noScale Ord no1800 Reporting Offset no1800 Reporting Threshold no1900 Reporting Offset no1900 Reporting Threshold no800 Reporting Offset no800 Reporting Threshold no900 Reporting Offset no900 Reporting Threshold noFDD Reporting Offset noFDD Reporting Threshold noServing Band Reporting noPublic Served Count noTime Limit WPS noTime Limit WPS Handover noWPS Preference Capacity noWPS Priority Capacity no

nononoyesyesnonononononoyes

yesyesyes

FACCH LAPDm T200 noSDCCH LAPDm T200 no

Description

With this parameter you define the CI of the adjacent cell (target cell). The parameter is a part of the Cell Id parameter which consists of Mobile Country Code, Mobile Network Code, Location Area Code and the Cell Id of the target cell.

With this parameter you define the adjacent cell index for the adjacent GSM cell.With this parameter you define the BCCH frequency of an adjacent cell used as background data. In background data activation, background data is swapped with active data.With this parameter you define the BTS colour code used as background data. In background data activation, background data is swapped with active data.With this parameter you define the network colour code number used as background data. In background data activation background data is swapped with active data.With this parameter you define the BCCH frequency of an adjacent cell.With this parameter you define the BTS colour code number.With this parameter you define the network colour code number.With this parameter you define whether the handover margins for signal level and quality will be taken into account in the handover decision algorithm.With this parameter you define the minimum signal level of an adjacent cell, when a handover is allowed to an adjacent umbrella cell.With this parameter you define how much the priority of the target BTS will be decreased if the BTS is overloaded. The parameter is used only for the BTSs under one BSC because the BSC cannot get information about the loading of other BTSs.

With this parameter you define a threshold for a handover caused by signal level.With this parameter you define a threshold in the power budget process. The handover margin prevents repeated handover between adjacent cells.With this parameter you define a threshold for a handover caused by signal quality.With this parameter you define the priority level for an adjacent cell. The priority level is used for target cell evaluation by the handover control process. By using priority levels for the handover algorithm, it is possible to take into account the location of the adjacent cell.

With this parameter you define the LAC of the adjacent cell (target cell). The identification consists of the Mobile Country Code Number, Mobile Network Code Number, Cell Identification and the Location Area Code.With this parameter you define the MCC of the adjacent cell (target cell). The identification consists of the Mobile Country Code Number, Mobile Network Code Number, Cell Identification and the Location Area Code.With this parameter you define the MNC of the adjacent cell (target cell). The identification consists of the Mobile Country Code Number, Mobile Network Code Number, Cell Identification and the Location Area Code. With this parameter you define the maximum transmission power of the MS for each adjacent cell. This parameter replaces old ms_txpwr_max_cell parameter.With this parameter you define the maximum transmission power of the MS for each adjacent cell.With this parameter you define the minimum signal level of an adjacent cell, when a handover is allowed to one of them. With this parameter you define whether the adjacent cell is synchronised with the cell in use.With this parameter you define the minimum signal level when a traffic reason handover is allowed to an adjacent cell.With this parameter you define the alarm limit for available full rate traffic channels (%). The parameter is used by radio network recovery.With this parameter you define the alarm limit for available half rate traffic channels (%). The parameter is used by radio network recovery.With this parameter you define the alarm limit for available SDCCHs. The limit is the ratio of working SDCCHs to working TCHs in percent. The parameter is used by radio network recovery.The parameter supervises SDCCH and TCH congestion. With this parameter you define an alarm threshold for the number of channel seizures requests. Only when the number of channel seizure requests equals or exceeds this threshold during the measurement period, the values for alarm threshold for

The parameter supervises lost calls and too short a mean holding time in the traffic channels. With this parameter you define an alarm threshold for the number of channel seizures. Only when the number of channel seizures equals or exceeds this threshold during the measurement period, the alarm

With this parameter you define an alarm threshold for SDCCH congestion. This parameter supervises the traffic level of signalling channels in a BTS. If the percentage of SDCCH seizure requests refused due to congestion equals or exceeds the threshold and there have been enough call attempts

With this parameter you define an alarm threshold for the SDCCH failure rate. If the number of SDCCH failures equals or exceeds the threshold, the alarm system prints out an alarm.With this parameter you define an alarm threshold for traffic channel congestion. The parameter supervises the traffic level of traffic channels in a BTS. If the percentage of TCH seizure requests refused due to congestion equals or exceeds the threshold and there have been enough call attempts

With this parameter you define an alarm threshold for traffic channel failure rate. Whenever a channel is released with a release cause other than a normal one, the counter of channel failures for the released channel is incremented. If the percentage of channel failures equals or exceeds the

With this parameter you define the maximum time in percent that a TCH may be on high interference levels during a measurement period (%).With this parameter you define the threshold for the proportion of rejected measurement results in all measurement results. An overload in the BCSU unit causes the rejections. If this threshold is exceeded, the BCSU unit is regarded as overloaded, and the BSC generates the relevant alarm.

With this parameter you define the macrocell size by means of the maximum transmission power of the MS in a GSM 1800 or GSM 1900 cell. If you set the parameter value at 0 dBm, the division of cells into macrocells and microcells is not in use.

With this parameter you define the microcell size by means of the maximum transmission power of the MS in a GSM 1800 or GSM 1900 cell. If you set the parameter value at 33 dBm (GSM 1800) or 36 dBm (GSM 1900), the division of cells into macrocells and microcells is not in use.

With this parameter you disable or enable the external directed retry handovers.With this parameter you define whether all handovers are controlled by the MSC or not.With this parameter you enable or disable the emergency call setup on FACCH.With this parameter you define the macrocell size by means of the maximum transmission power of the MS in a GSM cell. If you set the parameter value at 5 dBm, the division of cells into macrocells and microcells is not in use.With this parameter you define the microcell size by means of the maximum transmission power of the MS in a GSM cell. If you set the parameter value at 43 dBm, the division of cells into macrocells and microcells is not in use.With this parameter you define the order of preference between intra-cell and inter-cell handovers when the cause of the handover is downlink interference.With this parameter you define the order of preference between intra-cell and inter-cell handovers when the cause of the handover is uplink interference.With this parameter you define the threshold for the proportion of rejected measurement results in all measurement results. An overload in the telecom Abis LAPD Link causes the rejections. If this threshold is exceeded, the LAPD Link is regarded as overloaded, and the BSC generates the relevant

With this parameter you define the general load limit for traffic channels in a cell under the BSC. If the TCH load in a cell is below the limit, the traffic channels for speech and single slot data calls are allocated using rotation between TRXs in a cell and between TSLs of a TRX. If the load limit has

With this parameter you define the maximum mean holding time for signalling channels. If the mean holding time during a measurement period is greater than or equals the maximum mean holding time, the alarm system prints out an alarm.

With this parameter you define the maximum mean holding time for traffic channels. If the mean holding time during ameasurement period is greater than or equals the maximum meanholding time, the alarm system prints out an alarm.

With this parameter you define the measurement period for the high TCH interference supervision.The parameter supervises too long mean holding times in SDCCHs. With this parameter you define the length of the measurement period. The alarms are printed out only at the end of the measurement period.With this parameter you define the measurement period for the supervision of BTSs with no transactions.The parameter supervises channel failures both in traffic channels and in SDCCHs. With this parameter you define the length of the measurement period. The alarms are printed out only at the end of the measurement period.

The parameter supervises too short and too long mean holding times in traffic channels. With this parameter you define the length of the measurement period. The alarms are printed out only at the end of the measurement period.

The parameter supervises SDCCH and TCH congestion in a BTS. With this parameter you define the length of the measurement period. The alarms are printed out only at the end of the measurement period.With this parameter you define the minimum mean holding time for traffic channels. If the mean holding time is below the minimum mean holding time and there have been enough calls during the measurement period (the number of seizures is greater than or equals the operator-defined threshold

With this parameter you define the executions allowed after the Timing Advance has exceeded the threshold.With this parameter you define how many successive remote transcoder failures the BSC may receive before it releases the call.With this parameter you define the maximum number of preferred cell identifiers that the BSC sends to the MSC in the HANDOVER_ REQUIRED message.

With this parameter you identify the cells within a location area.

With this parameter you identify the location area code number.

With this parameter you define the time, in minutes, that the BTS uses for the internal RX antenna supervision.With this parameter you define the balance between the downlink signal level and the uplink signal level within the BSC coverage area. Value 5 dB means that the downlink signal is 5 dB stronger than the uplink signal.With this parameter you define the minimum acceptable carrier/noise ratio for full rate and EFR speech connections, and for circuit switched dataWith this parameter you define the interference level which is regarded as high in traffic channel interference supervision.With this parameter you define the guard time after a BSC-controlled or an MSC-controlled TRHO, during which a handover back to the original cell is not allowed.With this parameter you define the upper limit of MS speed for the first class in MS speed measurement. One parameter step equals the speed of 2 km/h.With this parameter you define the upper limit of MS speed for the second class in MS speed measurement. One parameter step equals the speed of 2 km/h.With this parameter you define whether the variable step size is used in the power control algorithm when the downlink transmission power is decreased.With this parameter you define whether IMSI attach/detach is used in the cell.With this parameter you define the number of SACCH multiframes over which the averaging of the interference level in the unallocated time slots is performed.With this parameter you define the number of the BTS colour code used as background data.With this parameter you define the number of the network colour code used as background data. With this parameter you define the frequency hopping mode of the BTS.With this parameter you identify the BTS. The identification number must be unique within a BSC.With this parameter you determine the load limit for a BTS. It is used in controlling the load distribution between BTSs in a segment.With this parameter you define which proportion of reserved or unavailable channels in all channels is acceptable. BTS load threshold is one of the parameters used for the handover control process. If the threshold is exceeded, the BTS is considered to be overloaded, and handovers to that

With this parameter you define how many SACCH multiframes are used in measurement averaging in the BTS. The BTS calculates averages of the measurements performed by the BTS and the MS. The BTS is able to calculate the average on 2, 3, or 4 SACCH multiframes. Value 1 denies

With this parameter you define the name of the BTS.With this parameter you define the minimum acceptable C/N (carrier/noise) ratio when selecting a time slot to be allocated for a call or handover.With this parameter you define whether call re-establishment is allowed in the cell.With this parameter you define whether MSs are allowed to access the cell.With this parameter you give a load limit for traffic channels in the BTS. If the TCH load in a cell is below the limit traffic, channels for speech and single slot data calls are allocated using rotation between TRXs in a cell and between TSLs of a TRX. If the load limit has been reached or exceeded, the

With this parameter you define the received RF power level hysteresis for required cell reselection.With this parameter you define a BTS-specific downlink noise level. In the BTS the margin between the noise level and the downlink signal level of a connection must be at least the connection type-specific C/N soft blocking limit.

With this parameter you define how the MS uses DTX (discontinuous transmission).With this parameter you accept or forbid the early sending of the MS Classmark 3 message in call setup phase to the network.With this parameter you define if an emergency call in the cell is allowed to all MSs or only to the MSs which belong to one of the classes between 11 to 15. Value "Y" means the latter case.With this parameter you define whether cyclic or random hopping is used in BB hopping group 1 and in RF hopping. Hopping sequence number 1 is used in the frequency hopping sequence generation algorithm and it is located in the Frequency Hopping System 1 (time slots 0 except BCCH time

With this parameter you define whether cyclic or random hopping is used in BB hopping group 2. Hopping sequence number 2 is used in the frequency hopping sequence generation algorithm and it is located in the Frequency Hopping System 2 (time slots 1-7).With this parameter you set the MAIO offset that is the lowest MAIO in the cell. With MAIO offset it is possible to use the same MA frequency list for two or more sectors of the site without collisions.With this parameter you define the maximum number of repetitions of the PHYSICAL INFO message during a handover that the transceiver can perform.With this parameter you define the maximum number of retransmissions on the RACH (random access channel) that the MS can perform.With this parameter you define how many call and handover attempts can be queued to wait for a TCH release in a BTS. The parameter value is a percentage (0 - 100%) of the TCHs in use in a BTS.With this parameter you identify the location area code number.With this parameter you define the maximum distance between the BTS and the MS in call setup. The maximum distance is expressed as an access delay. Within the range of 0...62, one step correlates to a distance of 550 meters.

With this parameter you define whether the call priority in the ASSIGNMENT REQUEST message (or the HANDOVER REQUEST message in handover) from the MSC is taken into account in queue handling.With this parameter you define the maximum transmission power an MS may use when accessing a CCH in the cell for GSM 900/800 bands.With this parameter you define the maximum transmission power an MS may use when accessing a CCH in the cell for GSM 1800/1900 bands.With this parameter you define the maximum power level an MS may use in the serving cell for GSM 800 and GSM 900 bands. When the segment usage option is ON and the segment does not contain a BCCH BTS you cannot modify this parameter.

With this parameter you define the maximum power level an MS may use in the serving cell. When segment usage option is on and the segment does not contain a BCCH BTS you cannot modify this parameter.With this parameter you define the minimum power level an MS may use in the serving cell.With this parameter you define whether the BSC supports new establishment causes.With this parameter you define the MS access classes that are not allowed to access a cell.With this parameter you define the number of blocks reserved for access grant messages from the CCCH during the 51 TDMA frame (a multiframe).With this parameter you define the number of multiframes between two transmissions of the same paging message to the MSs of the same paging group.With this parameter you define the number of TDMA frames over which retransmission is spread on the RACH (random access channel).With this parameter you define to which PLMNs the MS is permitted to report measurement results. The values relate to the NCC part of the BSICs.With this parameter you define the maximum transmission power a class 3 GSM 1800 MS may use when accessing the system. The maximum transmission power is MS txpwr max CCH1x00 (TXP2) + Power Offset (PO).With this parameter you define whether the BSC internal queueing type priority (parameters queueing priority call (QPC), queueing priority urgent handover (QPH) and queueing priority non-urgent handover (QPN)) is taken into account in queue handling.

With this parameter you define the call attempt priority in the BTS. Queueing priority call is one of the queueing type priorities. The others are urgent handovers (parameter QPH) and non-urgent handovers (parameter QPN). Note that you have to define the QPU parameter value as Y before the

With this parameter you define the non-urgent handover attempt (queueing type) priority in the BTS. Queueing priority non-urgent handover is one of the queueing type priorities. The others are: call attempts (parameter QPC) and urgent handovers (parameter QPH). Note that you have to define the QPU

With this parameter you define the urgent handover attempt (queueing type) priority in the BTS. Queueing Priority Urgent Handover is one of the queueing type priorities. The others are call attempts (parameter Queueing Priority Call) and non-urgent handovers (parameter Queueing Priority non-

With this parameter you define the maximum value of the radio link counter expressed in SACCH blocks for non-AMR connections.With this parameter you define whether RX diversity is used in the BTS.With this parameter you define the minimum power level an MS has to receive before it is allowed to access the cell.With this parameter you allow or deny cell broadcast SMS (short message service) in a cell.

With this parameter you define the maximum queueing time for call attempts (incoming or outgoing) in the BTS in seconds. Value 0 deactivates call attempt queueing.With this parameter you define the maximum queueing time for handover attempts (both urgent and non-urgent) in the BTS in seconds.With this parameter you define the interval between periodic MS location updates. The value 0 means that the periodic location update is not used.With this parameter you define the guard time after a BSC-controlled or an MSC-controlled TRHO, during which a handover back to the original cell is not allowed.With this parameter you define whether the BCCH TRX or other TRXs (of the regular frequency area) are preferred in traffic channel allocation.With this parameter you define a BTS-specific uplink noise level. In the BTS the margin between the noise level and the uplink signal level of a connection must be at least the connection type-specific C/N soft blocking limit.

With this parameter you define the window size for averaging the signal quality, signal level and distance measurement results.With this parameter you indicate whether the signal measurement results will be averaged for all adjacent cells, or only for the six best adjacent cells.With this parameter you indicate whether the Fast Handover Measurement Averaging Method is enabled in the call setup phase in the SDCCH channel.With this parameter you indicate whether the Fast Handover Measurement Averaging Method is enabled after handovers and in the new TCH.With this parameter you indicate whether the Fast Handover Measurement Averaging Method after power control is enabled.With this parameter you indicate whether an intracell handover caused by downlink interference is enabled. The parameter does not affect handovers between normal and extended areas.With this parameter you indicate whether an intracell handover caused by uplink interference is enabled. The parameter does not affect handovers between normal and extended areas. Enable or disable intracell handovers. With this parameter you indicate whether the BTS - MS distance process is enabled.With this parameter you indicate whether the BTS power budget handover control is enabled.With this parameter you indicate whether the BTS umbrella handover is enabled.With this parameter you define a preference order for handover target GSM cells according to PLMN area.With this parameter you define the interval between power budget handover threshold comparisons.With this parameter you define the interval between umbrella handover threshold comparisons.Identifier (ID) of HOC object.With this parameter you define the weighting factor for calculating the averaged values from the signal strength downlink measurements for the handover control.The parameters calculate averaged values from signal strength downlink measurements. The window size represents the averaging window size in SACCH periods.With this parameter you define the weighting factor for calculating the averaged values from the signal strength uplink measurements for the handover control.The parameters calculate averaged values from signal strength uplink measurements. The window size represents the averaging window size in SACCH periods.With this parameter you define the minimum interval between handovers related to the same connection.With this parameter you define the minimum interval between unsuccessful handover attempts related to the same connection.The parameter is the averaging parameter for triggering the handover process because the MS is out of the cell boundary. With this parameter you define the number of SACCH multiframes over which the averaging is done.The parameters compare the MS-BS distance with the maximum allowed distance. The parameters compare the MS-BS distance with the maximum allowed distance. Nx is the number of distances that have to be taken into account when making a handover decision.The parameters compare the MS-BS distance with the maximum allowed distance. Px is the number of distances that have to be greater than the maximum distance before making a handover decision.With this parameter you define the number of zero results which can be omitted when the measurement results of the adjacent cells are averaged.With this parameter you define the weighting factor for calculating the averaged values from the signal quality downlink measurements for the handover control.The parameters calculate averaged values from signal quality downlink measurements. The window size represents the averaging window size in SACCH periods.With this parameter you define the weighting factor for calculating the averaged values from the signal quality uplink measurements for the handover control.The parameters calculate averaged values from signal quality uplink measurements. Window size represents the averaging window size in SACCH periods.The parameters compare the averaged values of interference downlink measurements for triggering the handover process. Nx: Number of averages that have to be taken into account when making a handover decision.The parameters compare the averaged values of interference downlink measurements for triggering the handover process. Px: Number of averages that have to be upper/lower than the threshold.The parameters compare the averaged values of interference downlink measurements for triggering the handover process.The parameters compare the averaged values of interference uplink measurements for triggering the handover process. Nx: Number of averages that have to be taken into account when making a handover decision.The parameters compare the averaged values of interference uplink measurements for triggering the handover process. Px: Number of averages that have to be upper/lower than the threshold.The parameters compare the averaged values of interference uplink measurements for triggering the handover process.The parameters compare the averaged values of signal strength downlink measurements for triggering the handover process. Nx: Number of averages that have to be taken into account when making a handover decision.The parameters compare the averaged values of signal strength downlink measurements for triggering the handover process. Px: Number of averages that have to be upper/lower than the threshold.The parameters compare the averaged values of signal strength downlink measurements for triggering the handover process.The parameters compare the averaged values of signal strength uplink measurements for triggering the handover process. Nx: Number of averages that have to be taken into account when making a handover decision.The parameters compare the averaged values of signal strength uplink measurements for triggering the handover process. Px: Number of averages that have to be upper/lower than the threshold.The parameters compare the averaged values of signal strength uplink measurements for triggering the handover process.The parameters compare the averaged values of signal quality downlink measurements for triggering the handover process. Nx: Number of averages that have to be taken into account when making a handover decision.The parameters compare the averaged values of signal quality downlink measurements for triggering the handover process. Px: Number of averages that have to be upper/lower than the threshold.The parameters compare the averaged values of signal quality downlink measurements for triggering the handover process.The parameters compare the averaged values of signal quality uplink measurements for triggering the handover process. Nx: Number of averages that have to be taken into account when making a handover decision.The parameters compare the averaged values of signal quality uplink measurements for triggering the handover process. Px: Number of averages that have to be upper/lower than the threshold.The parameters compare the averaged values of signal quality uplink measurements for triggering the handover process.With this parameter you switch on and off the automatic link adaptation function where the channel coding is changed between 14.4 kbit/s and 9.6 kbit/s.With this parameter you identify the maximum transmission power of the BTS as an attenuation from the peak power of the TRX. This parameter is used for frequency bands GSM 800 and GSM 900.With this parameter you identify the maximum transmission power of the BTS as an attenuation from the peak power of the TRX. This parameter is used for frequency bands GSM 1800 and GSM 1900.With this parameter you identify the minimum transmission power of the BTS as an attenuation from the peak power of the TRX. The total attenuation (bs tx pwr max (PMAX1) + bs tx pwr offset (POFF) or bs tx pwr max1x00 (PMAX2) + bs tx pwr offset (POFF)) must be lower than the value of this

With this parameter you determine the time interval between two consecutive automatic link adaptation procedures where the channel coding is changed between 14.4 kbit/s and 9.6 kbit/s.With this parameter you define the weighting factor for calculating the averaged values from the signal strength downlink measurements for the power control procedure.The parameter calculates averaged values from signal strength downlink measurements for the power control process. The parameter includes the averaging window size in SACCH periods.With this parameter you define the weighting factor for calculating the averaged values from the signal strength uplink measurements for the power control procedure.The parameter calculates averaged values from signal strength uplink measurements for the power control process. The parameter includes the averaging window size in SACCH periods.With this parameter you define the weighting factor for calculating the averaged values from the signal quality downlink measurements for the power control procedure.The parameter calculates averaged values from signal strength downlink measurements for the power control process. The parameter includes the averaging window size in SACCH periods.With this parameter you define the weighting factor for calculating the averaged values from the signal quality uplink measurements for the power control procedure.The parameter calculates averaged values from signal strength uplink measurements for the power control process. The parameter includes the averaging window size in SACCH periods.The parameters compare the averaged values of signal quality downlink measurements for triggering the power control process. Nx: The total number of averages that have to be taken into account before a power increase decision.

The parameters compare the averaged values of signal quality downlink measurements for triggering the power control process. Px: Number of averages that have to be lower than the threshold before making a power increase decision.

The parameters compare the averaged values of signal quality downlink measurements for triggering the power control process. Rx level: Threshold level for a downlink power increase.The parameters compare the averaged values of signal quality uplink measurements for triggering the power control process. Nx: The total number of averages that have to be taken into account before a power increase decision.

The parameters compare the averaged values of signal quality uplink measurements for triggering the power control process. Px: Number of averages that have to be lower than the threshold before making a power increase decision.

The parameters compare the averaged values of signal quality uplink measurements for triggering the power control process. Rx level: Threshold level for an uplink power increase.The parameters compare the averaged values of signal quality downlink measurements for triggering the power control process. Nx: The total number of averages that have to be taken into account before a power increase decision.

The parameters compare the averaged values of signal quality downlink measurements for triggering the power control process. Px: Number of averages that have to be lower than the threshold before making a power increase decision.

The parameters compare the averaged values of signal quality downlink measurements for triggering the power control process. Rx qual: Threshold level for a downlink power increase.The parameters compare the averaged values of signal quality uplink measurements for triggering the power control process. Nx: The total number of averages that have to be taken into account before a power increase decision.

The parameters compare the averaged values of signal quality uplink measurements for triggering the power control process. Px: Number of averages that have to be lower than the threshold before making a power increase decision.

The parameters compare the averaged values of signal quality uplink measurements for triggering the power control process. Rx qual: Threshold level for an uplink power increase.The parameter is used for comparing the averaged values of the signal quality uplink and downlink measurements for triggering the power control procedure for 14.4 kbit/s connections. Nx: Number of averages taken into account before a power increase decision is possible.

The parameter is used for comparing the averaged values of the signal quality uplink and downlink measurements for triggering the power control procedure for 14.4 kbit/s connections. Px: Number of averages out of total averages that have to be greater than or equal to the threshold before a

The parameter is used for comparing the averaged values of the signal quality uplink and downlink measurements for triggering the power control procedure for 14.4 kbit/s connections. Rx qual: Threshold level for power increase.

The parameters compare the averaged values of signal quality downlink measurements for triggering the power control process.Nx: The total number of averages that have to be taken into account before the power reduction decision.

The parameters compare the averaged values of signal quality downlink measurements for triggering the power control process.Px: Number of averages that have to be lower than the threshold before making a power reduction decision.

The parameters compare the averaged values of signal quality downlink measurements for triggering the power control process.Rx level: Threshold level for a downlink power reduction.The parameters compare the averaged values of signal quality uplink measurements for triggering the power control process.Nx: The total number of averages that have to be taken into account before the power reduction decision.

The parameters compare the averaged values of signal quality uplink measurements for triggering the power control process.Px: Number of averages that have to be lower than the threshold before making a power reduction decision.

The parameters compare the averaged values of signal quality uplink measurements for triggering the power control process.Rx level: Threshold level for an uplink power reduction.The parameters compare the averaged values of signal quality downlink measurements for triggering the power control process. Nx: The total number of averages that have to be taken into account before the power reduction decision.

The parameters compare the averaged values of signal quality downlink measurements for triggering the power control process. Px: Number of averages that have to be lower than the threshold before making a power reduction decision.

The parameters compare the averaged values of signal quality downlink measurements for triggering the power control process. Rx qual: Threshold level for a downlink power reduction.The parameters compare the averaged values of signal quality uplink measurements for triggering the power control process. Nx: The total number of averages that have to be taken into account before the power reduction decision.

The parameters compare the averaged values of signal quality uplink measurements for triggering the power control process. Px: Number of averages that have to be lower than the threshold before making a power reduction decision.

The parameters compare the averaged values of signal quality uplink measurements for triggering the power control process.Rx qual: Threshold level for an uplink power reduction.With this parameter you define the minimum interval between the changes in the radio frequency power level.With this parameter you indicate whether the BTS power control is enabled.With this parameter you define the maximum allowed power decrease step size. This step size limit is used when a power decrease of a MS is performed due to high uplink quality, and the averaged uplink signal quality (bit error rate) is lower than 0.2%.

With this parameter you define the maximum allowed power decrease step size. This step size limit is used when a power decrease of a MS is performed due to high uplink quality, and averaged uplink signal quality (bit error rate) is between 0.2% and0.4%.

With this parameter you define the maximum allowed power decrease step size. This step size limit is used when a power decrease of a MS is performed due to high uplink quality, and averaged uplink signal quality (bit error rate) is higher than 0.4%.

With this parameter you enable or disable the MS power decrease due to signal quality with the defined variable power change step size. This is done when the uplink signal level is lower than the optimum uplink RF signal level and the averaged signal quality equals the quality threshold. The parameter

With this parameter you define the step size for increasing the transmission power of the mobile station.With this parameter you determine the MS and BTS power levels for automatic link adaptation function, where the channel coding is changed between 14.4 kbit/s and 9.6 kbit/s.With this parameter you define the step size for reducing the transmission power of the mobile station.The identifier (ID) of RA (Routing Area) the object. With this parameter you identify the state into which the administrative state of the object will be changed.With this parameter you define the frequency used as background data. List of background interfering cellsWith this parameter you define the optimum RX uplink level used as background data. With this parameter you identify the state into which the administrative state of the object will be changed.With this parameter you define whether the D-channel O&M and telecom signalling links are combined.With this parameter you assign the ARFCN (absolute radio frequency number) to the transceiver.With this parameter you indicate the D-channel O&M link set name of the TRX.With this parameter you indicate the D-channel O&M link set number of the TRX.With this parameter you define the optimum downlink RF signal level. The optimum level ensures that both speech and data quality are sufficient simultaneously, and that there is no downlink interference.With this parameter you mark one or more TRXs as preferred TRXs where the BCCH is reconfigured, if possible.With this parameter you define how many subslots from the beginning of the TRX Abis allocation (Abis speech allocation) are reserved for signalling when you create a TRX. One subslot equals one radio time slot or two bits in the ET-PCM.

With this parameter you identify the transceiver. The value you enter for this parameter must be unique for each transceiver within one BCF.With this parameter you define the training sequence code (TSC) of a carrier.With this parameter you define whether the TRX is created to be autoconfigured.With this parameter you define the lower threshold for the load of the base station. The parameter is used to trigger advanced multilayer handling functionality with IUO and/or Dual Band/ microcell features.With this advanced multilayer handling parameter you define the maximum traffic load in adjacent cell allowed for a target cell of traffic reason handover (TRHO).With this parameter you define the upper threshold for the load of the base station. The parameter is used to trigger BSC-controlled traffic reason handovers.With this parameter you define the lower threshold for the load of the base station. The parameter is used to trigger advanced multilayer handling functionality with IUO and/or Dual Band/ microcell features.With this advanced multilayer handling parameter you define the maximum traffic load in the adjacent cell that is allowed to be the target cell for a traffic reason handover (TRHO).With this advanced multilayer handling parameter you define the upper threshold for the load of the base station. The parameter is used to trigger BSC-controlled traffic reason handovers.With this parameter you indicate whether the Advanced Multilayer Handling is used with Intelligent Underlay-Overlay.With this parameter you indicate whether the Advanced Multilayer Handling is used with micro cells or dual band.With this parameter you define the power budget margin used in Advance Multilayer Handling when the load of the cell exceeds the value defined with the AMH Upper Load Threshold (AUT).

With this parameter you define the downlink threshold for switching from codec mode 2 (second lowest bit rate) to codec mode 1 (lowest bit rate). Unused threshold is set as 0. If the AMR FR codec mode set parameter is defined as disabled, this parameter is set as 0 by the BSC. AMR FR

With this parameter you define the downlink threshold for switching from codec mode 3 (third lowest bit rate) to codec mode 2 (second lowest bit rate). Unused threshold is set as 0. If the AMR FR codec mode set parameter is defined as disabled, this parameter is set as 0 by the BSC.

With this parameter you define the downlink threshold for switching from codec mode 4 (fourth lowest bit rate) to codec mode 3 (third lowest bit rate). Unused threshold is set as 0. If the AMR FR codec mode set parameter is defined as disabled, this parameter is set as 0 by the BSC. AMR FR

With this parameter you define the uplink threshold for switching from codec mode 2 (second lowest bit rate) to codec mode 1 (lowest bit rate). Unused threshold is set as 0. If the AMR FR codec mode set parameter is defined as disabled, this parameter is set as 0 by the BSC. AMR FR uplink threshold 1

With this parameter you define the uplink threshold for switching from codec mode 3 (third lowest bit rate) to codec mode 2 (second lowest bit rate). Unused threshold is set as 0. If the AMR FR codec mode set parameter is defined as disabled, this parameter is set as 0 by the BSC. AMR FR uplink

With this parameter you define the uplink threshold for switching from codec mode 4 (fourth lowest bit rate) to codec mode 3 (third lowest bit rate). Unused threshold is set as 0. If the AMR FR codec mode set parameter is defined as disabled, this parameter is set as 0 by the BSC. AMR FR uplink

With this parameter you define the initial channel rate in call setup, internal inter cell handover (HO) and external HO for an Adaptive Multi Rate (AMR) call. With this parameter you define the minimum acceptable carrier/noise ratio for full rate AMR speech connections.With this parameter you define the codec mode set for a full rate channel. If the parameter is defined as disabled, then the whole codec mode set is disabled. If the parameter is defined as disabled, then other AMR FR set related parameters (thresholds, hystereses, ICMI and start mode) are set as

With this parameter, together with AMR FR threshold 1, you define the threshold for switching from codec mode 1 (lowest bit rate) to codec mode 2 (second lowest bit rate). Unused hysteresis is set as 0. If the AMR FR codec mode set parameter is defined as disabled, then this parameter is set as 0.

With this parameter, together with AMR FR threshold 2, you define the threshold for switching from codec mode 2 (lowest bit rate) to codec mode 3 (second lowest bit rate). Unused hysteresis is set as 0. If the AMR FR codec mode set parameter is defined as disabled, then this parameter is set as 0.

With this parameter, together with the AMR FR threshold 3, you define the threshold for switching from codec mode 3 (lowest bit rate) to codec mode 4 (second lowest bit rate). Unused hysteresis is set as 0. If the AMR FR codec mode set parameter is defined as disabled, then this parameter is set as 0.

With this parameter you define whether the initial codec mode used by the mobile station is defined explicitly in the AMR codec mode set or whether it is implicitly derived by the mobile station from the amount of codec modes in the AMR codec mode set. If the AMR FR codec mode set parameter is

With this parameter you define explicitly the initial codec mode used by the mobile station.With this parameter you define the threshold for switching from codec mode 2 (second lowest bit rate) to codec mode 1 (lowest bit rate). Unused threshold is set as 0. With this parameter you define the threshold for switching from codec mode 3 (third lowest bit rate) to codec mode 2 (second lowest bit rate). Unused threshold is set as 0. With this parameter you define the threshold for switching from codec mode 4 (third lowest bit rate) to codec mode 3 (second lowest bit rate). Unused threshold is set as 0.With this parameter you define the codec mode set for a full rate channel. If the parameter is defined as disabled, then the whole codec mode set is disabled. If the parameter is defined as disabled, then other AMR HR set related parameters (thresholds, hystereses, ICMI and start mode) are set as

With this parameter you define the threshold level of the downlink signal quality measurements for the BTS power increase. Defined for the default FR AMR set.With this parameter you define the threshold level of the downlink signal quality measurements for the MS power increase. Defined for the default FR AMR set.With this parameter you define the threshold level of the downlink signal quality measurements for the BTS power decrease. Defined for the default FR AMR set.With this parameter you define the threshold level of the downlink signal quality measurements for the MS power decrease. Defined for the default FR AMR set.With this parameter you define the threshold level of the signal quality downlink measurements for triggering the handover. Defined for the default AMR FR set.With this parameter you define the threshold level of the signal quality uplink measurements for triggering the handover. Defined for the default AMR FR set.With this parameter you define the preference between the currently used multirate configuration and the one defined for the target BTS during internal and external handovers. With this parameter you define the AMR link adaptation (LA) mode within the BSS.

With this parameter you define the downlink threshold for switching from codec mode 2 (second lowest bit rate) to codec mode 1 (lowest bit rate). Unused threshold is set as 0. If the AMR HR codec mode set parameter is defined as disabled, this parameter is set as 0 by the BSC. AMR HR

With this parameter you define the downlink threshold for switching from codec mode 3 (third lowest bit rate) to codec mode 2 (second lowest bit rate). Unused threshold is set as 0. If the AMR HR codec mode set parameter is defined as disabled, this parameter is set as 0 by the BSC.

With this parameter you define the downlink threshold for switching from codec mode 4 (fourth lowest bit rate) to codec mode 3 (third lowest bit rate). Unused threshold is set as 0. If the AMR HR codec mode set parameter is defined as disabled, this parameter is set as 0 by the BSC. AMR HR

With this parameter you define the uplink threshold for switching from codec mode 2 (second lowest bit rate) to codec mode 1 (lowest bit rate). Unused threshold is set as 0. If the AMR HR codec mode set parameter is defined as disabled, this parameter is set as 0 by the BSC. AMR HR uplink threshold 1

With this parameter you define the uplink threshold for switching from codec mode 3 (third lowest bit rate) to codec mode 2 (second lowest bit rate). Unused threshold is set as 0. If the AMR HR codec mode set parameter is defined as disabled, this parameter is set as 0 by the BSC. AMR HR uplink

With this parameter you define the uplink threshold for switching from codec mode 4 (fourth lowest bit rate) to codec mode 3 (third lowest bit rate). Unused threshold is set as 0. If the AMR HR codec mode set parameter is defined as disabled, this parameter is set as 0 by the BSC AMR HR uplink

With this parameter you define the minimum acceptable carrier/noise ratio for half rate AMR speech connections.With this parameter you define the threshold level of the signal quality downlink and uplink measurements for triggering the intra-cell handover process for an AMR HR call in order to switch it to an AMR FR call.With this parameter you define together with the AMR HR threshold 1 the threshold for switching from codec mode 1(lowest bit rate) to codec mode 2 (second lowest bit rate). Unused hysteresis is set as 0. If the AMR HR codec mode set parameter is defined as disabled, then this parameter is set as 0.

With this parameter, together with the AMR HR threshold 2, you define the threshold for switching from codec mode 2 (lowest bit rate) to codec mode 3 (second lowest bit rate). Unused hysteresis is set as 0. If the AMR HR codec mode set parameter is defined as disabled, then this parameter is set as 0.

With this parameter, together with the AMR HR threshold 3, you define the threshold for switching from codec mode 3 (lowest bit rate) to codec mode 4 (second lowest bit rate). Unused hysteresis is set as 0. If the AMR HR codec mode set parameter is defined as disabled, then this parameter is set as 0.

With this parameter you define whether the initial codec mode used by the mobile station is defined explicitly in the AMR codec mode set or is it implicitly derived by the mobile station from the amount of codec modes in the AMR codec mode set. If the AMR FR codec mode set parameter is

With this parameter you explicitly define the initial codec mode used by the mobile station.With this parameter you define the threshold for switching from codec mode 2 (second lowest bit rate) to codec mode 1 (lowest bit rate). Unused threshold is set as 0. With this parameter you define the threshold for switching from codec mode 2 (second lowest bit rate) to codec mode 1 (lowest bit rate). Unused threshold is set as 0. With this parameter you define the threshold for switching from codec mode 2 (second lowest bit-rate) to codec mode 1 (lowest bit-rate). Unused threshold is set as 0.With this parameter you define whether codec mode set downgrades during internal HOs and upgrades after internal HOs are applied or not. With this parameter you define the maximum value of the radio link counter expressed in SACCH blocks for AMR connections.The parameter controls the TCH channel rate determination on the BSC level according to the cell load in traffic channel allocation. With this parameter you define the lower limit for the percentage of free full rate resources. Full rate TCHs are allocated until the number of free full rate

With this parameter you define whether the TRX hardware supports half rate. The parameter is a flag for statistics.

With this parameter you define whether antenna hopping is used in the BTS or not.With this parameter you define whether the GPRS capability is enabled or disabled in the adjacent cell.With this parameter you combine the cell barred (BAR) and cell bar qualify (QUA) parameters and indicate the status for cell reselection.With this parameter you define the maximum transmission power an MS may use when accessing a packet control channel in the adjacent cell. This is used when BCCH is in GSM 900 or GSM 800 frequency band.With this parameter you define the maximum transmission power an MS may use when accessing a packet control channel in the adjacent cell. This is used when BCCH is in GSM 1900 or GSM 1800 frequency band.With this parameter you define the duration for which the GPRS Temporary Offset (GTEO) applies.With this parameter you define the offset of the C32 reselection criterion for adjacent cell.With this parameter you define the minimum power level an MS has to receive before it is allowed to access the adjacent cell.With this parameter you define the negative offset of the C32 reselection criterion for the duration of the GPRS penalty time (GPET) after the MS has placed the cell on the list of the strongest carriers. It is used by the mobile station as part of its calculation of C32 for the cell reselection process. The

With this parameter you define the signal strength threshold for applying HCS in GPRS reselection. If this parameter is not given in the adjacent cell creation and the SEG and the adjacent cell are in the same BSS, the value of this parameter is copied from the SEG.

With this parameter you define the HCS (hierarchical cell structures) priority for the cells. 0 is the lowest and 7 is the highest priority. In the adjacent cell creation, if this parameter is not given and the SEG and the adjacent cell are in the same BSS, the value of this parameter is copied from the SEG.

With this parameter you define the routing area code in the adjacent cell. With this parameter you define the priority order between GPRS and RTSL-0 allocation. With the parameter the RTSL-0 can be defined to be allocating before allocating a TCH from GPRS territory (the order of preference in TCH allocation between the RTSL-0 hopping group and the GPRS territory of the

With this parameter you define the scheduling step side (SSS) for high priority level in the downlink direction.With this parameter you define the scheduling step side (SSS) for low priority level in the downlink direction.With this parameter you define the scheduling step side (SSS) for normal priority level in the downlink direction.The parameter gives a target probability of TCH availability for circuit switched services in a BTS with GPRS territory. Based on the given probability and the size of a BTS (number of TRXs) the BSC defines a margin of idle TCHs that it tries to maintain free for the incoming circuit

With this parameter you define a period following a GPRS upgrade during which the probability for a GPRS downgrade in a BTS should be no more than 5%. Based on the given time and the size of a BTS (number of TRXs) the BSC defines a margin of idle TSLs that is required as a condition for

With this parameter you set the time which must elapse between two subsequent territory updates.With this parameter you define the maximum number of TBFs that a radio time slot can have in average, in a GPRS territory, in the downlink direction.With this parameter you define the maximum number of TBFs that a radio time slot can have in average, in a GPRS territory, in the uplink direction.With this parameter you define the scheduling step size (SSS) for priority level 1 (highest) in the uplink direction.With this parameter you define the scheduling step size (SSS) for priority level 2 in the uplink direction.Defines the scheduling step side (SSS) for priority level 3 in the uplink direction.Defines the scheduling step side (SSS) for priority level 4 (lowest) in the uplink direction.With this parameter you indicate the GPRS cell reselection criterion.With this parameter you indicate an exception to the rule for GPRS cell reselect offset.With this parameter you calculate the minimum number of slots between two successive Packet Channel Request messages.With this parameter you indicate the selection of Coding Scheme in RLC (Radio Link Control) Acknowledged mode in case frequency hopping is used.With this parameter you indicate the selection of Coding Scheme in RLC (Radio Link Control) Acknowledged mode in case frequency hopping is not used.With this parameter you determine the amount of PSW-only channels in a cell. The value of the dedicated GPRS capacity parameter must be smaller than or equal to the value of the default GPRS capacity parameter.With this parameter you determine the default GPRS territory size in a cell. The channels in the default GPRS territory are used primarily for packet switched traffic. However, if the circuit switched territory becomes congested, the BSC can allocate a traffic channel in the default GPRS territory for circuit

With this parameter you define which BTSs in the SEG may be used for GPRS or EGPRS without signal level measurements. This parameter defines the signal level compared to non BCCH layer offset. When the value of this parameter is higher than the value of the parameter non BCCH layer offset

With this parameter you define the allowed probability (%) for the system to make a wrong decision in downlink adaptation.With this parameter you indicate the RLC BLER (block error rate percentage) for CS-1 channel coding. At this point CS-1 and CS-2 give the same effective bit rate and Coding Scheme selection criteria in RLC Acknowledged mode for downlink TBFs changes. The parameter is meaningful only if link

With this parameter you indicate the RLC BLER (block error rateWith this parameter you combine the cell barred (BAR) and cellbar qualify (QUA) parameters and indicate the status for cell reselection.With this parameter you define additional hysteresis applied in READY state for selecting a cell in the same routing area.With this parameter you define whether the GPRS capability is enabled in the cell.With this parameter you indicate the maximum number of retransmissions allowed on the PRACH for each Radio Priority level 1 to 4. Radio Priority level 1 represents the highest priority. One parameter contains four values. With this parameter you define the maximum transmission power level a mobile station can use when accessing a packet control channel in the cell for GSM 900/800 bands.With this parameter you define the maximum transmission power level a mobile station may use when accessing a packet control channel in the cell for GSM 1800/1900 bands.With this parameter you define the threshold when a reallocation to a better BTS must be made. BTS with the direct GPRS access BTS option on is selected. If there are no BTSs with direct GPRS access BTS set to on.With this parameter you define the minimum power level the MS has to receive to allocate resources from the BTS.With this parameter you define the MS access classes that are not allowed to access a cell.With this parameter you define the number of slots used to spread transmission on the PRACH (Packet random access Channel).With this parameter you define the minimum power level an MS has to receive before it is allowed to access the cell.With this parameter you define the signal strength threshold for applying HCS in GPRS and LSA reselection.With this parameter you indicate the Modulation and CodingScheme (MCS) used at the beginning of a TBF for acknowledged mode. The parameter is used in EGPRS link adaptation.With this parameter you indicate the MCS used at the beginning of a TBF for unacknowledged mode. The parameter is used in EGPRS link adaptation.Attribute defines the maximum number of PSW (packet switched) channels in a BTS.With this parameter you indicate the maximum block error rate of first transmission in acknowledged mode. The parameter is used in EGPRS link adaptation.With this parameter you indicate the maximum block error rate in unacknowledged mode. The unit is parts per thousand. The parameter is used in EGPRS link adaptation.With this parameter you can adjust the MCS and modulation preferences. This is the offset added to reported 8PSK mean BEP values before BEP table lookups. The value applies to both uplink and downlink directions. The parameter is used in EGPRS link adaptation.

With this parameter you can adjust the MCS and modulation preferences. This is the offset added to reported GMSK mean BEP values before BEP table lookups. The value applies to both uplink and downlink directions. The parameter is used in EGPRS link adaptation.

With this parameter you can manually select the network service entity identifier to which the BTS/SEG will be connected. If you give this parameter the PCU selection algorithm is not used. The routing area must be created and the NSEI must exist on the routing area the BTS/SEG is using.

With this parameter you indicate the number of blocks on each PDCH carrying the PCCCH per multiframe where neither packet paging nor PBCCH should appear. This number corresponds therefore to the number of blocks reserved for PAGCH, PNCH, PDTCH and PACCH. The sum of parameters

With this parameter you define the amount of blocks allocated to the PBCCH in the multiframe. The sum of parameters PAB (bsPagingBlocksRes) and PBB (bsPBCCHBlocks) has to be less than 12.

With this parameter you define the criteria used to the EGPRS Inactivity.

With this parameter you indicate the number of blocks reserved in a fixed way to the PRACH channel on any PDCH carrying the PCCCH.With this parameter you define whether the BCCH TRX or other TRXs are preferred in GPRS channel allocation.With this parameter you define the HCS (hierarchical cell structures) priority for the cells. 0 is the lowest and 7 is the highest priority.With this parameter you define additional hystereses applied in both STANDBY and READY states for selecting a cell in a different routing area.With this parameter you define the time in seconds that a mobile station, which has performed an abnormal release with cell reselection from this cell, is not allowed to reselect this cell if another cell is available.With this parameter you define the allowed probability (%) for the system to make a wrong decision in uplink adaptation.With this parameter you indicate the RLC BLER (block error rate percentage) for CS-1 channel coding. At this point CS-1 and CS-2 give the same effective bit rate and Coding Scheme selection criteria in RLC Acknowledged mode for uplink TBFs changes. The parameter is meaningful only if link adaptation

With this parameter you indicate the RLC BLER (block error rate percentage) for CS-1 channel coding. At this point CS-1 and CS-2 give the same effective bit rate and Coding Scheme selection criteria in RLC Acknowledged mode for uplink TBFs changes. The parameter is meaningful only if link adaptation

With this parameter you describe the binary representation of the parameter ±.With this parameter you describe the binary representation of the parameter T ch for MS output power control.With this parameter you control the signal strength filter period for power control in the packet idle mode.With this parameter you control the signal strength filter period for power control in the packet transfer mode.With this parameter you identify the location area code number.With this parameter you identify the mobile country code number.With this parameter you identify the mobile network code number.With this parameter you define the network service entity identifiers of the routing area.With this parameter you identify the routing area code number.When GPRS is enabled in the cell (GENA=Y), the parameter modification requires TRX locking. If EGPRS Enabled or Coding Schemes CS3 and CS4 parameter of the BTS is enabled, the modification to value Yes requires TRX or BTS locking.

With this parameter you define how the GPRS territory is seen when calculating FR resources. (The RTSLs to be used when the limit for FR resources is defined for the TCH rate selection between full rate and half rate).

Attribute enables or disables EGPRS on BTS level. All GPRS-enabled TRXs of the BTS have to be EDGE capable.The GPRS must be enabled in the segment in order to enable EGPRS in the BTS.With this parameter you define the bit error probability filter averaging period for EGPRS channel quality measurements.With this parameter the operator can define if the used GPRS Link Adaptation algorithm is adaptive or not.With this parameter you can define the initial Coding Scheme of the territory in acknowledge mode in downlink direction. The parameter values 2,3,6 and 7 are valid only for Nokia MetroSite, Nokia UltraSite and Nokia Flexi EDGE.With this parameter you can define the initial Coding Scheme of the territory in unacknowledged mode in downlink direction. The parameter values 2,3,6 and 7 are valid only for Nokia MetroSite, Nokia UltraSite and Nokia Flexi EDGE.

With this parameter you can define the initial Coding Scheme of the territory in acknowledge mode in uplink direction. The parameter values 2,3,6 and 7 are valid only for Nokia MetroSite, Nokia UltraSite and Nokia Flexi EDGE.With this parameter you can define the initial Coding Scheme of the territory in unacknowledged mode in uplink direction. The parameter values 2,3,6 and 7 are valid only for Nokia MetroSite, Nokia UltraSite and Nokia Flexi EDGE.With this parameter you can manually select the transport type of the NSEI which the BTS/SEG will use. This parameter is used in the PCU selection algorithm.With this parameter you define the number of TBF allocation attempts required per hour for EGPRS Inactivity Alarm.This parameter determines the length of the supervision period for EGPRS inactivity alarm in minutes.This parameter determines the time of day when the EGPRS inactivity alarm is disabled.This parameter determines the time of day when the EGPRS inactivity alarm is disabled.This parameter determines the time of day when the EGPRS inactivity alarm is enabled.This parameter determines the time of day when the EGPRS inactivity alarm is enabled.This parameter determines the day of week when the EGPRS inactivity alarm is enabled.This parameter indicates the mean Bit Error Probability (BEP) limit for MS multislot power profile 0 when allocating 2 uplink TSLs. The measured mean BEP value is compared to the value of this parameter when defining how many uplink TSLs can be allocated. If the mean BEP limit is set low, power

This parameter indicates the mean Bit Error Probability (BEP) limit for MS multislot power profile 0 when allocating 3 uplink TSLs. The measured mean BEP value is compared to the value of this parameter when defining how many uplink TSLs can be allocated. If the mean BEP limit is set low, power







This parameter indicates the RX quality limit for MS multislot power profile 0 when allocating 2 uplink TSLs. The measured RX quality value is compared to the value of this parameter when defining how many uplink TSLs can be allocated. If the RX quality limit is set high, power reduction is not taken into








With this parameter you identify a transmission power attenuation offset for non-BCCH Super-Reuse TRXs of the segment if FRT of TRX is 16 and Handover Support for Coverage Enhancement (HSCE) feature is active in the segment.

This parameter is used to determine whether TCH access is based on downlink RX level.RNW Configuration Identification identifies the active configuration. It is copied from Plan Configuration Identification in activation phase.RNW Fallback Configuration Identification identifies the fallback configuration. It is copied from RNW Plan Configuration Identification in activation phase.With this parameter you identify RNW Plan Configuration. RNW Configuration Identification for plan database is defined when plan is downloaded. Parameter defines whether it is allowed to change internal handover, where speech codec or channel rate is changed, to MSC controlled in order to avoid downlink muting.This parameter defines the maximum incoming (from MSC to BSC) TCH transaction rate (transactions per second) that is acceptable for changing internal handover to external. In this context TCH transaction means MSC controlled TCH handover or TCH assignment.

With this parameter you define whether cell barring can be overridden.

With this parameter you define the operational mode of a DFCA BTS.

This parameter defines how many incoming TCH transactions (incoming MSC controlled TCH handover or assignment) are taken into account when calculating average TCH transaction rate.With this parameter you can temporarily disable mobile power control and handovers in TCH for emergency calls. This enhances U-TDOA positioning accuracy.With these parameters you define the estimated co-channel interference level for each of the 6 interference bands. This interference level is compared to the co-channel interference level parameter of the handover candidate to find out the priority adjustment step used.

With these parameters you define the priority adjustment step for each of the 7 interference bands. The values are used in the calculation of the final priority of the handover candidate. Value -8 disables the handover to the handover candidate.

With these parameters you indicate the weighting coefficient of the interfering cell. With these parameters you can affect the adjustment levels of the interfering cells. On the basis of this parameter, the system calculates an estimation of the interference level from the signal level of the interfering cell.With these parameters you define in which country the interfering cell in question is located.With these parameters you define the network in which the interfering cell in question is located.With this parameter you define the offset of the C2 reselection criterion for a cell.With this parameter you define whether C2 reselection parameters are broadcast to mobile stations. The C2 cell reselection allows you to define other criteria for cell reselection in addition to power level.With this parameter you define the duration for which the temporary offset (TEO) applies. The parameter can be changed in steps of 20 s. Value 640 s indicates that the sign of the cell reselect offset (REO) parameter will be changed and the temporary offset (TEO) parameter will be ignored.

With this parameter you define the negative offset of the C2 reselection criterion for the duration of the penalty time (PET) after the MS has placed the cell on the list of the strongest carriers. The parameter can be changed in 10 dB steps. Value 70 dB means infinity.

With this parameter you define the adjacent cell as a chained cell, to which the rapid field drop handover criteria are applied.With this parameter you define how many successive rapid field drop thresholds have to be triggered before a call will be handed over to a chained adjacent cell.With this parameter you define the number of SACCH frames that the deep dropping edge is checked against.The parameter is used for comparing the size of the signal drop for triggering the rapid field drop handover.The parameter is used for comparing the size of the signal drop for triggering the rapid field drop handover.The parameter is used for comparing the size of the signal drop for triggering the rapid field drop handover. Number of measurement sample frames when the deep dropping edge is detected.With this parameter you define an uplink Rx threshold level for rapid field drop.With this parameter you define whether the Coding Schemes CS-3 and CS-4 capability is enabled in the BTS. The Coding Schemes CS-3 and CS-4 can be used in GPRS-enabled TRXs, which are EDGE-capable. The GPRS must be enabled in the segment, BTS SW and PCU card must support the Coding

With this parameter you define the guard time for attempting an SDCCH handover from the BCCH BTS resource layer to another resource layer in a segment.With this parameter you define a threshold value for the estimated downlink signal level on non-BCCH layer for a moving MS from BCCH layer to non-BCCH layer.With this parameter you define a threshold value for the measured downlink signal level on non-BCCH layer for a moving MS from non-BCCH layer to BCCH layer WCDMA RAN cells.With this parameter you define the total number of the averaged values of the signal strength downlink measurements for triggering the handover.With this parameter you define the number of averaged signal strength downlink measurements for triggering the handover.With this parameter you define the level of confidence for the estimation used to build a background interference matrix. It gives the share of users experiencing a C/I equal to or greater than the C/I contained in the matrix.With this parameter you define the number of BIM update periods that the DFCA algorithm allows for a neighbouring cell without update. If during the update guard time the neighbouring cell is not included in any BIM update for the cell, it is removed from the BIM table of the cell.

With this parameter you define the period between successive background interference matrix updates. Therefore, it is the length of the data collecting period for a single BIM update.With this parameter you define the weighting factor for the C/I value defined during the latest BIM update period when this is combined with the long term C/I statistics.With this parameter you define the target C/I value for full rate and EFR speechWith this parameter you define an offset that is added to the C/I targets and soft blocking C/I limits of all connection types when uplink interference checks are performed.With this parameter you define if DCFA assignments are made primarily to channels with the connection specific C/I target level or to channels with the highest positive C/I difference from the target level.With this parameter you define the minimum acceptable C/I value for full rate andWith this parameter you define the DFCA mobile allocation frequency lists that will be attached to the BTS.With this parameter you define whether the TRX belongs to the non-DFCA or to the DFCA layer when the DFCA mode of the BTS is DFCA hopping.With this parameter you define the target C/I value for circuit switched data connections of 14.4 kbit/s.With this parameter you define the period for calculating an average C/I of the 1-way DL C/I estimates used in DFCA channel assignments. This band specific average value is used in deciding between full rate and half rate in DFCA channel assignment.

With this parameter you define how many decibels the BTS level C/I average must be above the corresponding forced HR mode C/I threshold in order for the forced HR mode to be switched off.With this parameter you define the minimum acceptable C/I value for circuit switched data connections of 14.4 kbit/s.With this parameter you define the target C/I value for full rate AMR speech connections.With this parameter you define the minimum acceptable C/I value for full rate AMR speech connections.With this parameter you define the target C/I value for half rate AMR speech connections.With this parameter you define the minimum acceptable C/I value for half rate AMR speech connections.If the BTS level average C/I is below the threshold defined by this parameter, then HR will be preferred for all the DFCA speech channel assignments of AMR requests.With this parameter you define the target C/I value for half rate speechWith this parameter you define the minimum acceptable C/I value for half rate speech connections.This parameter defines how much lower downlink C/I values can be used for SAIC calls than for non-SAIC calls in DFCA TCH allocation.With this parameter you define an upper limit for C/I values which are considered as relevant for the interference estimations. C/I values above the Interference threshold can be discarded during the BIM update procedure.This parameter is used in the Radio Resource Manager for the channel assignment control to prevent simultaneous channel allocations in neighbouring BSCs.This parameter indicates if the DFCA algorithm is temporarily replaced by the conventional channel allocation algorithm in the cell due to a failure with connections to neighbour cells in remote BSCs.With this parameter you define the DFCA unsynchronized mode MA list. The MA list is to be used in the DFCA TRXs if a BTS in "DFCA hopping" mode loses synchronisation.With this parameter you define whether or not Measurement BCCH Allocation List is used during measurements when necessary.With this parameter you define whether the direct access to desired layer/band handover is applied to the adjacent cell.With this parameter you define whether the direct access to desired layer/band handover is applied to the adjacent cell in case of AMR call establishment and whether AMR target cells are prioritised in handover. In handover this parameter indicates whether AMR is enabled in the target cell.

With this parameter you define if the directed retry feature is in use in the cell.With this parameter you define which method is used in directed retry procedure when candidate cells are evaluated. This parameter is also used to switch off directed retry method improvements.

This parameter indicates if DTM is enabled in a SEGMENT.

This parameter identifies the PCU object in the BSC.

With this parameter you define the maximum time period starting from the assignment request during which the target cell evaluation for the directed retry handover is allowed.With this parameter you define the period starting from the assignment request during which the target cell evaluation for the directed retry handover is not allowed.With this parameter you indicate the frequency band used in the BTS. The frequency bands are GSM 800 (800), GSM 900 (900), GSM 1800 (1800) and GSM 1900 (1900).With this parameter you define the BCCH frequency list used by active MS's. This list is used for handovers and is sent on the SACCH.With this parameter you define whether adjacent cells with a BCCH allocated from a different frequency band than the serving cell BCCH are taken into account in handovers and in idle mode cell selection or reselection.With this parameter you define the number of adjacent cells from the other frequency band that the MS will report in the RX level report. Indicates if adjacent cell supports DTM or not.With this parameter you define a power budget handover threshold for moving:This parameter defines the value of the fragmentation penalty that is used in the DTM channel allocation algorithm if there is a need to search for a configuration giving the highest capacity for the DTM MS. This is the case if the DTM MS is considered to be a nRT user and if there are some RT and/or

Defines the maximum time accepted for a Packet Flow Timer (PFT) during a DTM allocation. The PFC life-time determines how long the CS connection of a DTM MS is kept in the PS territory after the data traffic has ceased for the MS.With this parameter you indicate the Dynamic Abis Pool ID. This can be given only if the site type is Nokia MetroSite or Nokia UltraSite or Nokia Flexi EDGE.With this parameter you control the TCH channel rate determination in TCH allocation and the TCH speech codec to be allocated during internal intra-cell handover.With this parameter you enable or disable EGPRS link adaptation on cell level. If disabled the system uses the MCS value defined by initial MCS for acknowledged mode or initial MCS for unacknowledged mode parameters or a lower MCS.

With this parameter you indicate when the Enhanced Rapid Field Drop feature is enabled.With this parameter you define how long the modified averaging window is being used after the deep dropping edge in serving cell signal is detected.With this parameter you indicate the new averaging window size of the serving cell and adjacent cell. A new averaging window is employed after the deep dropping edge in serving cell signal is detected.With this parameter you indicate the new number of zero results after the deep dropping edge in serving cell signal is detected.

With this parameter you define whether the Extended Cell for GPRS/EDGE is enabled in the the cell. Also GPRS must be enabled in the cell (GENA=Y) in order to enable GPRS traffic in the extended area of the cell. In order to use EDGE traffic in the extended area of the cell, it requires also that

With this parameter you define the time period that tells how long the MS's service area is kept in the PCU's memory following the release of all TBFs allocated for the MS. This parameter is valid only for Nokia UltraSite and Nokia Flexi EDGE BTSs.

With this parameter you can define the initial Coding Scheme in acknowledge mode in uplink direction for GPRS territory in the extended service area of an extended cell. This parameter is valid only for Nokia UltraSite and Nokia Flexi EDGE BTSs. NOTE: Values 2, 3, 6, and 7 require

With this parameter you can define the initial Coding Scheme in unacknowledged mode in downlink direction for GPRS territory in the extended service area of an extended cell. This parameter is valid only for Nokia UltraSite and Nokia Flexi EDGE BTSs. NOTE: Values 2, 3, 6, and 7

With this parameter you can define the initial Coding Scheme in unacknowledged mode in uplink direction for the GPRS territoryin the extended service area of an extended cell. This parameter is valid only for Nokia UltraSite and Nokia Flexi EDGE BTSs. NOTE: Values 2, 3, 6, and 7

With this parameter you can define the initial Coding Scheme for the GPRS territory in acknowledge mode in the extended service area of an extended cell in downlink direction. This parameter is valid only for Nokia UltraSite and Nokia Flexi EDGE BTSs. NOTE: Values 2, 3, 6, and 7 require that the

With this parameter you indicate the initial Modulation and Coding Scheme (MCS) used at the beginning of a TBF for acknowledged mode in the extended service area of an extended cell. The parameter is used in EGPRS link adaptation. This parameter is valid only for Nokia UltraSite and Nokia

With this parameter you indicate the Modulation and Coding Scheme (MCS) used at the beginning of a TBF for unacknowledged mode in the extended service area of an extended cell. The parameter is used in EGPRS link adaptation. This parameter is valid only for Nokia UltraSite and Nokia Flexi

With this parameter you define whether the adjacent cell is a normal or an extended cell. The meanings of the HOTA values are:With this parameter you define the threshold level for the maximum value of timing advance. If this threshold is reached, the call is handed over to an extended area of an extended cell in the case of the Nokia TalkFamily and Nokia UltraSite type, and to an outer cell or another cell in the case of the

With this parameter you define the threshold level of minimum value of timing advance. If this threshold is reached, the call is handed over to a normal area of an extended cell in the case of the Nokia Talkfamily and Nokia UltraSite type, and to an inner or another cell in the case of the Nokia

With this parameter you define whether the TRX is working as an extended TRX (E-TRX) or a normal TRX (N-TRX).With this parameter you define the radius extension of an extended cell.With this parameter you enable or disable an answer to the paging call setup on FACCH. FACCH call setup is only possible when SDCCH congestion occurs.With this parameter you enable or disable the call re-establishment setup on FACCH. FACCH call setup is only possible when SDCCCH congestion occurs.With this parameter you enable or disable the ordinary call setup on FACCH. FACCH call setup is only possible when SDCCH congestion occurs.With this parameter you define the adjacent cell layer in relation to the active cell. A call can be handed over to the cells that are visible to the serving cell by adjacency definition. This means the cells of upper layer, serving layer and lower layer. The adjacent cell layer definition can be used, for example,

With this parameter you define the limit which is compared with the identification counter (fast moving MS) in the adjacent cell. If the limit is exceeded, the call is handed over from the macrocell to the best microcell.With this parameter you define the lower speed threshold for an MS. If the speed of the MS is lower than this threshold, the MS will be handed over to a lower layer adjacent cell (if any). One parameter step equals the speed of 2 km/h. If the value is zero, then the lower speed verifying will not be made.

With this parameter you define the averaging window size for the MS speed indications from the BTS.With this parameter you indicate the method used for MS speed detection algorithm.The parameter is used in threshold comparison between the averaged MS speed and the upper and lower speed thresholds. Nx is the total number of averages to be taken into account before the decision is possible. This parameter is common to both lower and upper speed thresholds.

The parameter is used in threshold comparison between the averaged MS speed and the upper and lower speed thresholds. Px is the number of averages out of total averages that have to be lower/higher than the threshold, before a handover due to MS speed is possible. This parameter is

With this parameter you define the upper speed threshold for an MS. If the speed of the MS is higher than this threshold, the MS will be handed over to a upper layer adjacent cell (if any). One parameter step equals the speed of 2 km/h. If the value is zero, the upper speed verifying is not made.

With this parameter you can indicate whether the Frame Error Probability based Power Control (PC) and Handover (HO) decision-making is used in the Power control and Handover algorithm.With this parameter you choose the MAIOs not to be allocated successively for the cell, but for instance every second or every third value.With this parameter you define the frequency hopping mode of the BTS.This parameter identifies the PSE object in the BSC.

With this parameter you define the minimum acceptable carrier/noise ratio for half rate speech connections.If the BTS level average C/I is below the threshold defined by this parameter, then HR will be preferred for all the DFCA speech channel assignments of non-AMR requests. The parameter controls the TCH channel rate determination on the BSC level according to the cell load in traffic channel allocation. With this parameter you define the upper limit for the percentage of free full rate resources. Full rate TCHs are allocated when the number of free full rate

With this parameter you define the percentage of full rate TCH resources that must be available for traffic channel allocation. Full rate TCHs are allocated until the number of free full rate resources is reduced below the threshold given in the parameter. The half rate resources are then allocated.

With this parameter you define the percentage of full rate TCH resources that must be available for traffic channel allocation. Full rate TCHs are again allocated when the number of the free full rate resources increases above the threshold given by the parameter.

With this parameter you define the traffic channel allocation during BSS internal or external handovers. The parameter controls the target cell selection and the TCH channel rate and speech codec determination in traffic channel allocation. The parameter can have the following values:

The parameter is used for comparing the downlink signal level of the super-reuse TRX for triggering the handover to a regular TRX. Nx: Total number of comparisons to be taken into account before the handover decision is possible.

The parameter is used for comparing the downlink signal level of the super-reuse TRX for triggering the handover to a regular TRX. Px: Number of comparisons out of total comparisons where the downlink signal level has to be lower or equal to the threshold before the handover decision is possible.

The parameter is used for comparing the downlink signal level of the super-reuse TRX for triggering the handover to a regular TRX.The parameter is used for comparing the downlink signal level for triggering a handover to the super-reuse TRX. Nx: Total number of comparisons to be taken into account before the handover decision is possible.The parameter is used for comparing the downlink signal level for triggering a handover to the super-reuse TRX. Px: Number of comparisons out of total comparisons where the downlink signal level has to be greater or equal to the threshold before a handover decision is possible.

The parameter is used for comparing the downlink signal level for triggering a handover to the super-reuse TRX.With this parameter you determine the lower limit in percent for cell load when the singleslot TCH allocation is stopped and the multislot allocation is started and resource upgrades are allowed for the HSCSD calls.With this parameter you determine the upper limit in percent for cell load when the multislot TCH allocation is stopped and the singleslot allocation is started for the HSCSD calls.With this parameter you determine the guard time before a resource downgrade for a HSCSD call is executed after call setup, handover, ALA, resource upgrade or resource downgrade.With this parameter you determine how much the data rate should decrease at least during the downgrade of an HSCSD call.With this parameter you determine the upper limit in percent for the cell load in the IUO regular frequency area when the multislot TCH allocation is stopped and the singleslot allocation is started for the HSCSD calls. Resource upgrades are not done in the IUO regular frequency area.

With this parameter you determine the minimum TCH capacity in percent which is offered to HSCSD calls in the cell. In low traffic load situation, the HSCSD calls can have more TCHs than indicated by the parameter.With this parameter you determine the data rate gain (%) which must be achieved before the resource upgrade can be done even though the upgrade guard time is not over.With this parameter you determine the guard time before a resource upgrade for a HSCSD call is executed after call setup, handover, ALA, resource upgrade or resource downgrade. If the parameter is set to value 0, resource upgrade is not done.

With this parameter you define the minimum acceptable carrier/noise ratio for circuit switched dataWith this parameter you define in the case of intra-GSM handover whether one of the existing Authorised Networks is used for target cell selection or if all neighbour GSM cells are permitted. This parameter is used in a serving GSM cell when a mobile subscriber is anonymous and IMSI based GSM-

With this parameter you define whether forbidden neighbour GSM cells are filtered out from mobile specific handover target cell lists or not. The filtering is done based on IMSI information of a mobile, Authorised Networks and Subscriber Group definitions.

With this parameter you define the subscriber type that is to be attached to a certain priority level or levels.With this parameter you define the number of free traffic channels that must be exceeded before all access attempts are granted. The value is BTS-specific and common to all traffic types of that BTS.With this parameter you define the number of traffic channels reserved in the BTS for priority subscribers only.With this parameter you define which reservation method of traffic channels the trunk reservation algorithm uses.With this parameter you define if the priority channels are available only for priority subscribers also in an incoming handover.With this parameter you define the specified decision threshold table for traffic type(s).With this parameter you define whether the trunk reservation algorithm is used in the cell.With this parameter you define if the directed retry feature is in use in the cell.With this parameter you define the threshold value of the signal strength in the adjacent cell for the Directed Retry procedure. If the signal strength level in the cell is lower than this threshold value, adjacent cell is not accepted as a candidate in directed retry.

With this parameter you indicate whether measurement results will be averaged for all interfering cells (value Y), or only for those interfering cells which are among the six best neighbouring cells received in the last measurement result message (value N).

With this parameter you indicate whether a handover between super-reuse frequency groups is enabled in situations when a handover to a regular TRX is not possible.With this parameter you define the window size, that is, the number of consecutive measurement samples for calculating averaged values from downlink (interfering cell) signal strength measurements for the C/I evaluation procedure.

With this parameter you indicate the number of zero results which can be omitted when measurement results of the interfering cells are being averaged for the C/I evaluation procedure.With this parameter you define the minimum time for handover attempt from a regular TRX to a super-reuse TRX. This minimum interval is calculated after a successful HO from this particular super-reuse TRX to a regular TRX, when there has been a bad quality experience in this super-reuse TRX.

With this parameter you determine the period after a call set-up or a handover during which the handover to a super-reuse TRX is not possible.The parameter compares the downlink C/I ratio on a super-reused TRX for triggering a handover from the super-reused TRX. C/I ratio: Threshold level for a handover.The parameter compares the downlink C/I ratio on a super-reused TRX for triggering a handover from the super-reused TRX. Nx: Total number of comparisons to be taken into account before a decision is possible.The parameter compares the downlink C/I ratio on a super-reused TRX for triggering a handover from the super-reused TRX. Px: Number of comparisons out of total comparisons that have to be greater than or equal to the threshold before a handover is possible.

The parameter compares the downlink C/I ratio on a super-reused TRX for triggering a handover to the super-reused TRX. C/I ratio: Threshold level for a handover.The parameter compares the downlink C/I ratio on a super-reused TRX for triggering a handover to the super-reused TRX. Nx: Total number of comparisons to be taken into account before a decision is possible.The parameter compares the downlink C/I ratio on a super-reused TRX for triggering a handover to the super-reused TRX.Px: Number of comparisons out of total comparisons that have to be greater than or equal to the threshold before a handover is possible.

With these parameters you define the estimation type of the interfering cell signal level used as background data. With these parameters you define the weighting coefficient of the interfering cell used as background data.With these parameters you define the cell identification used as background data. With this parameter you define the location are of the interfering cell used as background data. With these parameters you define the level adjustment used as background data. MML description: In background data activation (EE command group), background data is swapped with active data.With this parameter you define the mobile country code of the interfering cell used as background data. With this parameter you define the mobile network code of the interfering cell used as background data.With these parameters you indicate whether the signal level of the interfering cell is considered as a directly measured interference level, or if the signal level of the interfering cell is a reference value which is used for calculating an estimation of the interference level.

With this parameter you indicate whether the TCH assignment to a super-reuse TRX is enabled in IUO and what the BSIC (Base Station Identity Code) decoding time in SDCCH is.With this parameter you define whether cyclic or random hopping is used in the underlay layer of the IUO cell. Hopping sequence numbers are used in the frequency hopping sequence generation algorithm.With this parameter you define the mobile allocation frequency list to which the underlay layer of the BTS will be attached.With this parameter you define the method which will be used in the handover evaluation procedure when the handover algorithm calculates either the downlink C/I ratio for Intelligent Underlay-Overlay (IUO) or the downlink signal level for Intelligent Coverage Enhancement (ICE).

With this parameter you define the direct access level used as background data. With this parameter you define the TRX frequency type used as background data.With this parameter you indicate whether direct access to a super-reuse TRX is enabled. The parameter also determines the level which the downlink signal level on the super-reuse TRX must exceed in order for the direct access procedure to become possible.

With this parameter you define the type of the TRX's radio frequency used with the optional Intelligent Underlay-Overlay feature. Values from 1 to 16 indicate that the radio frequency is super-reused. They also show the number of a super-reuse frequency group where the super-reused frequency

With this parameter you define the frequency hopping mode of the underlay layer.With this parameter you set the lowest MAIO value of the underlay layer per sector.With this parameter you define the mobile allocation frequency list to which the BTS's underlay layer will be attached.With this parameter you choose the MAIOs of the underlay layer not to be allocated successively for the cell, but for example every second or every third value.

With this parameter you define the minimum CPICH Ec/Io level of an adjacent WCDMA RAN cell in decibels, when a direct access to the adjacent WCDMA RAN cell is allowed. If this parameter has the value 0.5 dB, the BSC is not allowed to initiate a direct access from the serving GSM cell to

With this parameter you define the minimum CPICH Ec/Io level of an adjacent WCDMA RAN cell for an inter-system handover attempt. The threshold level must be exceeded before the BSC is allowed to trigger a handover attempt towards the adjacent WCDMA RAN cell. NOTE: The value

With this parameter you define the length of the period during which the latest Inter-System Handover counters are used, if the WCDMA RAN Service Area and neighbour WCDMA RAN cell penalty triggering are used. According to the value of this parameter, the BSC calculates how many

With this parameter you define the duration of the handover penalty timer which has been triggered for a Service Area. While the Service Area penalty timer is on, the BSC is not allowed to initiate an Inter-System Handover attempt towards WCDMA RAN cells that belong to the Service Area.

With this parameter you define the triggering level for a Service Area penalty. If the number of incoming Inter-System Handovers which occur from a certain Service Area exceed the penalty triggering level during a measurement period, the Service Area-specific penalty timer is triggered.

With this parameter you define a WCDMA RAN cell reselection offset for GPRS capable dual mode mobiles which are in the idle state. This parameter defines a minimum Ec/Io threshold which must be exceeded before a non-GPRS capable dual mode mobile is allowed to make a reselection from the serving GSM cell to an adjacent WCDMA RAN cell that is using frequency division duplex (FDD) type access technology/mode.

With this parameter you define the window size for averaging the signal quality, signal level and distance measurement results that are adjacent WCDMA RAN cell related.With this parameter you indicate whether the signal measurement results will be averaged for all adjacent WCDMA RAN cells, or only for the three best adjacent WCDMA RAN cells.With this parameter you enable or disable the Inter-System Direct Access to the WCDMA RAN. If the value of the parameter is Yes, the Inter-System Direct Access to the WCDMA RAN is tried first.With this parameter you define the minimum length of time interval between inter-system handover attempts related to the same connection and the same non-GSM cell when a handover attempt from the serving GSM cell to a non-GSM cell has been unsuccessful.

With this parameter you indicate the length of time interval between handover attempts when a HO attempt from a regular TRX to a super-reuse TRX has failed.With this parameter you define the minimum traffic load that must be exceeded on the serving GSM cell before the handover algorithm is allowed to initiate a handover for a speech call from the serving GSM cell to a WCDMA RAN cell.

With this parameter you define the number of the best valid WCDMA RAN cells to be reported by a dual mode mobile in the list of the strongest cells or in the measurement report.With this parameter you define the number of zero results that can be omitted when the measurement results of the adjacent WCDMA RAN cells are averaged.With this parameter you indicate a threshold for multi-RAT (radio access technology) MSs in dedicated state to measure WCDMA RAN neighbour cells introduced in 3G Cell Reselection list when the measured downlink signal level (RLA_C) of the serving cell is below (0-7) or above (8-15) the

With this parameter you define the triggering ratio for an adjacent WCDMA RAN cell penalty on a serving GSM cell. If the ratio of unsuccessful outgoing Inter-System Handover attempts towards a certain adjacent WCDMA RAN cell exceeds the penalty triggering ratio during a measurement period, the

With this parameter you define the duration of a handover penalty timer that has been triggered on a serving GSM cell for an adjacent WCDMA RAN cell. While the WCDMA RAN cell penalty timer is ticking, the BSC is not allowed to initiate an Inter-System Handover attempt from the serving GSM cell

This parameter defines a minimum Ec/Io threshold that must be exceeded before a GPRS capable dual mode mobile is allowed to make a reselection from the serving GSM cell to an adjacent WCDMA RAN cell that is using frequency division duplex (FDD) type access technology/mode.

With this parameter you define in the case of WCDMA handover whether one of the existing Authorised Networks is used for target cell selection or all neighbour WCDMA cells are permitted. This parameter is used in a serving GSM cell when a mobile subscriber is anonymous and IMSI based GSM-

With this parameter you define whether forbidden neighbour WCDMA cells are filtered out from mobile specific handover target cell lists or not. The filtering is done based on IMSI information of a mobile, Authorised Networks and Subscriber Group definitions.

With this parameter you switch on or off the ISNCCR to WCDMA FDD cells. With this parameter you define if the coverage reason inter-system network-controlled cell re-selection is triggered as soon as an appropriate WCDMA FDD cell is available, or if it is triggered only in case there is not an appropriate GSM/EDGE cell available and an appropriate WCDMA FDD cell

With this parameter the operator can determine whether an inter-system handover is to be triggered for a DTM incapable but WCDMA capable MS as soon as an appropriate WCDMA target cell is available.With this parameter you define a UTRAN cell reselection offset for non-GPRS capable dual mode mobiles which are in the idle state. With this parameter you define the threshold for GPRS capable dual mode mobiles to search for and to measure UTRAN neighbour cells introduced in 3G Cell Reselection list when a running average of the received downlink signal level (RLA_C) of the serving cell is below (0-7) or above (8-15) the

With this parameter you define the threshold for dual mode mobiles in idle state to search for and to measure UTRAN neighbour cells introduced in 3G Cell Reselection list when a running average of the received downlink signal level (RLA_C) of the serving cell is below (0-7) or above (8-15) the threshold.

This parameter applies a negative offset to the minimum Ec/No threshold for cell reselection from the serving GSM cell to an adjacent UTRAN FDD cell for dual-mode mobiles (R5 onwards).This parameter defines the minimum RSCP threshold for cell reselection from the serving GSM cell to an adjacent UTRAN FDD cell for dual-mode mobiles (R5 onwards).

With this parameter you define the minimum signal quality level of an adjacent WCDMA RAN cell for an inter-system network-controlled cell re-selection (ISNCCR). Note: The value 0.5 dB of this parameter means that the BSC is never allowed to initiate an ISNCCR attempt from the serving cell

The parameter controls the TCH channel rate determination for AMR calls in the cells of the BSC according to the cell load of each particular cell. With this parameter you define the lower limit for the percentage of free full rate resources. AMR full rate TCHs are allocated until the number of free full rate

The parameter controls the AMR TCH channel rate determination on the BSC level according to the cell load in traffic channel allocation. With this parameter you define the upper limit for the percentage of free full rate resources. AMR Full rate TCHs are allocated when the number of free full

With this parameter you define the percentage of full rate TCH resources that must be available for traffic channel allocation in order to use full rate for AMR calls in the cell. AMR full rate TCHs are allocated until the number of free full rate resources is reduced below the threshold given in the

With this parameter you define the percentage of full rate TCH resources that must be available for traffic channel allocation before the BSC allocates AMR calls in full rate mode again after using half rate for AMR calls in the cell. AMR full rate TCHs are again allocated when the number of the free full

With this parameter you define the usage of NACC procedures. When enabled the MS (when in packet transfer mode) may receive neighbour cell system information messages in serving cell before the cell reselection is executed. When enabled also the Packet SI Status support is activated.

With this parameter you indicate the number of zero results that can be omitted when the measurement results of the adjacent cells are averaged in RR Packet transfer mode and RR Packet idle mode. With this parameter you define the used offset for power budget NCCR criterion of the neighbor cells under control of a different PCU than the serving cell.With this parameter you determine the window size when the Network Control (NC) measurement results of the adjacent cells are averaged in RR Packet idle mode.With this parameter you determine the window size when the Network Control (NC) measurement results of the adjacent cells are averaged in RR Packet transfer mode.With this parameter you enable or disable the NCCR in the BSC. If NCCR is enabled then the MS in RR Packet transfer mode and RR Packet idle mode sends neighbor cell measurements to the network and the network commands the MS to perform cell reselection. MS is in NC2 mode. If NCCR

With this parameter you define the Network Control (NC) measurement reporting period for the MSs in RR Packet Idle mode.With this parameter you define the penalty time for a neighbor cell after a NCCR to that cell has failed.With this parameter you define the time during which NCCR is not allowed for a mobile station that has been ordered to select another cell and has returned from that cell to the original cell. With this parameter you define the Network Control (NC) measurement reporting period for the MSs in RR Packet Transfer mode.With this parameter you define the threshold which is used for EGPRS MSs as a power budget margin in the NCCR power budget process.With this parameter you define the margin for EGPRS MS by which the signal level of the neighbor cell must exceed the signal level of the serving cell before the cell reselection is possible.With this parameter you define the threshold which is used for GPRS MSs as a power budget margin in the NCCR power budget process.With this parameter you define the margin for GPRS MS by which the signal level of the neighbor cell must exceed the signal level of the serving cell before the cell reselection is possible. With this parameter you define the start value for a timer that together with another timer (NCCR target cell penalty time) counteracts the Ping-Pong effect. With this parameter you define the optimum uplink RF signal level after a handover on a channel in the adjacent cell. If optimisation is enabled, the parameter indicates also the desirable uplink signal level after the handover. The optimisation procedure works only for intra-BSC handovers. The BSC

With this parameter you define if the pre-emption feature is applied or not in handovers.

With this parameter you define the border of DL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc lower threshold dl Rx qual AMR FR (LDRF) – 2 is used, and the lower border for a range where pc lower threshold dl Rx qual AMR FR

With this parameter you define the border of DL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc lower threshold dl Rx qual AMR FR (LDRF) – 1 is used, and the lower border for a range where pc lower threshold dl Rx qual AMR FR

With this parameter you define the border of DL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc lower threshold dl Rx qual AMR FR (LDRF) is used, and the lower border for a range where pc lower threshold dl Rx qual AMR FR (LDRF) + 1

With this parameter you define the border of DL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc lower threshold dl Rx qual AMR FR (LDRF) + 1 is used, and the lower border for a range where pc lower threshold dl Rx qual AMR FR

With this parameter you define the border of DL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc upper threshold dl Rx qual AMR FR (UDRF) – 2 is used, and the lower border for a range where pc upper threshold dl Rx qual AMR FR

With this parameter you define the border of DL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc upper threshold dl Rx qual AMR FR (UDRF) – 1 is used and the lower border for a range where pc upper threshold dl Rx qual AMR FR

With this parameter you define the border of DL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc upper threshold dl Rx qual AMR FR (UDRF) is used and the lower border for a range where pc upper threshold dl Rx qual AMR FR (UDRF) + 1

With this parameter you define the border of DL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc upper threshold dl Rx qual AMR FR (UDRF) + 1 is used and the lower border for a range where pc upper threshold dl Rx qual AMR FR

With this parameter you define the border of UL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc lower threshold ul Rx qual AMR FR (LURF) – 2 is used and the lower border for a range where pc lower threshold ul Rx qual AMR FR

With this parameter you define the border of UL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc lower threshold ul Rx qual AMR FR (LURF) – 1 is used and the lower border for a range where pc lower threshold ul Rx qual AMR FR

With this parameter you define the border of UL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc lower threshold ul Rx qual AMR FR (LURF) is used and the lower border for a range where pc lower threshold ul Rx qual AMR FR (LURF) + 1

With this parameter you define the border of UL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc lower threshold ul Rx qual AMR FR (LURF) + 1 is used and the lower border for a range where pc lower threshold ul Rx qual AMR FR

With this parameter you define the border of UL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc upper threshold ul Rx qual AMR FR (UURF) - 2 is used and the lower border for a range where pc upper threshold ul Rx qual AMR FR

With this parameter you define the border of UL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc upper threshold ul Rx qual AMR FR (UURF) - 1 is used and the lower border for a range where pc upper threshold ul Rx qual AMR FR

With this parameter you define the border of UL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc upper threshold ul Rx qual AMR FR (UURF) is used and the lower border for a range where pc upper threshold ul Rx qual AMR FR (UURF) + 1

With this parameter you define the border of UL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc upper threshold ul Rx qual AMR FR (UURF) + 1 is used and the lower border for a range where pc upper threshold ul Rx qual AMR FR

With this parameter you define the border of DL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc lower threshold dl Rx qual AMR HR (LDRH) – 2 is used and the lower border for a range where pc lower threshold dl Rx qual AMR HR

With this parameter you define the border of DL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc lower threshold dl Rx qual AMR HR (LDRH) – 1 is used and the lower border for a range where pc lower threshold dl Rx qual AMR HR

With this parameter you define the border of DL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc lower threshold dl Rx qual AMR HR (LDRH) is used and the lower border for a range where pc lower threshold dl Rx qual AMR HR (LDRH) + 1

With this parameter you define the border of DL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc lower threshold dl Rx qual AMR HR (LDRH) + 1 is used and the lower border for a range where pc lower threshold dl Rx qual AMR HR

With this parameter you define the border of DL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc upper threshold dl Rx qual AMR HR (UDRH) – 2 is used and the lower border for a range where pc upper threshold dl Rx qual AMR FR

With this parameter you define the border of DL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc upper threshold dl Rx qual AMR HR (UDRH) – 1 is used and the lower border for a range where pc upper threshold dl Rx qual AMR FR

With this parameter you define the border of DL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc upper threshold dl Rx qual AMR HR (UDRH) is used and the lower border for a range where pc upper threshold dl Rx qual AMR FR (UDRH) + 1

With this parameter you define the border of DL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc upper threshold dl Rx qual AMR HR (UDRH) +1 is used and the lower border for a range where pc upper threshold dl Rx qual AMR FR

With this parameter you define the border of UL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc lower threshold ul Rx qual AMR HR (LURH) – 2 is used and the lower border for a range where pc lower threshold ul Rx qual AMR HR

With this parameter you define the border of UL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc lower threshold ul Rx qual AMR HR (LURH) – 1 is used and the lower border for a range where pc lower threshold ul Rx qual AMR HR

With this parameter you define the border of UL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc lower threshold ul Rx qual AMR HR (LURH) is used and the lower border for a range where pc lower threshold ul Rx qual AMR HR (LURH) + 1

With this parameter you define the border of UL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc lower threshold ul Rx qual AMR HR (LURH) + 1 is used and the lower border for a range where pc lower threshold ul Rx qual AMR HR

With this parameter you define the border of UL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc upper threshold ul Rx qual AMR HR (UURH) – 2 is used and the lower border for a range where pc upper threshold ul Rx qual AMR HR

With this parameter you define the border of UL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc upper threshold ul Rx qual AMR HR (UURH) – 1 is used and the lower border for a range where pc upper threshold ul Rx qual AMR HR

With this parameter you define the border of UL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc upper threshold ul Rx qual AMR HR (UURH) is used and the lower border for a range where pc upper threshold ul Rx qual AMR HR (UURH) + 1

With this parameter you define the border of UL power ranges for the AMR Progressive Power Control algorithm. This is the upper border for a range where pc upper threshold ul Rx qual AMR HR (UURH) + 1 is used and the lower border for a range where pc upper threshold ul Rx qual AMR HR

The parameter defines the maximum time period during which handover is attempted in TRX.With this parameter you indicate which binary outputs are in the ON and OFF state. The outputs are identified by a number.With this parameter you indicate whether the BTS SDCCH handover is enabled.With this parameter you define whether the predefined offset margin is used when evaluating the signal level of the non BCCH layer.With this parameter you identify the segment by its name.With this parameter you identify the segment.With this parameter you can define whether the STIRC feature is used in the BTS.With this parameter you indicate if GSM cells with invalid BSIC but allowed NCC part may be reported in the Enhanced Measurement Report.With this parameter you define a reporting rate for the remaining measured neighbouring cells that do not fit into the first three priority classes.With this parameter you define whether or not a 10 dB offset shall be added to the reported downlink signal level, or if the mobile makes the decision automatically. With this parameter you apply an offset to the reported value when prioritising GSM 1800 cells for reporting.With this parameter you apply priority reporting if the reported signal level of the GSM 1800 band neighbouring cell is above the threshold.With this parameter you apply an offset to the reported value when prioritising GSM 1900 cells for reporting.With this parameter you apply priority reporting if the reported signal level of the GSM 1900 band neighbouring cell is above the threshold.With this parameter you apply an offset to the reported value when prioritising GSM 800 cells for reporting.With this parameter you apply priority reporting if the reported signal level of the GSM 800 band neighbouring cell is above the threshold.With this parameter you apply an offset to the reported value when prioritising GSM 900 cells for reporting.With this parameter you apply priority reporting if the reported signal level of the GSM 900 band neighbouring cell is above the threshold.With this parameter you apply an offset to the reported value when prioritising FDD cells for reporting.With this parameter you apply priority reporting if the reported measurement quantity of the neighbouring cell of the FDD access technology is above the threshold.With this parameter you define the number of cells from the serving GSM frequency band that shall be included in the Enhanced Measurement Report.With this parameter you define how many public users must be served before a WPS user can be served. This parameter is applied in traffic channel allocation when the WPS users already have WPS priority capacity in use and more than WPS preference capacity of the rest of the cell's

With this parameter you define the maximum queueing time in seconds for WPS call setup attempts.With this parameter you define the maximum queuing time in seconds for WPS handover attempts.With this parameter you define how much of the rest of the cell's resources (100 WPSPriCapa) can be allocated for WPS users without any restriction. This parameter is also applied in Directed Retry handover target cell evaluation together with parameter WPS priority capacity.

With this parameter you define the portion of cell's total traffic capacity to which the WPS users are given priority. This parameter is also applied in Directed Retry handover target cell evaluation together with the parameter WPS preference capacity.

With this parameter you define whether the GPRS capability is enabled or disabled in the adjacent cell.

With this parameter you indicate the IDR type of the cell. This parameter affects the intelligent directed retry.

With this parameter you define the adjacent cell as a chained cell, to which the rapid field drop handover criteria are applied.With these parameters you define the boundary limits of four interference bands for the unallocated time slots. MML sets boundary 0 and 5 values automatically.With these parameters you define the boundary limits of four interference bands for the unallocated time slots. MML sets boundary 0 and 5 values automatically.With these parameters you define the boundary limits of four interference bands for the unallocated time slots. MML sets boundary 0 and 5 values automatically.With these parameters you define the boundary limits of four interference bands for the unallocated time slots. MML sets boundary 0 and 5 values automatically.With these parameters you define the boundary limits of four interference bands for the unallocated time slots. MML sets boundary 0 and 5 values automatically.With these parameters you define the boundary limits of four interference bands for the unallocated time slots. MML sets boundary 0 and 5 values automatically.

With this parameter you define the mobile allocation frequency list to which the BTS will be attached. The parameter is relevant when RF hopping is used.

With this parameter you define the threshold level of the signal quality downlink and uplink measurements for triggering the intra-cell handover process for an AMR FR call in order to switch it to an AMR HR callWith this parameter you define the threshold level of the signal quality downlink and uplink measurements for triggering the intra-cell handover process for an AMR HR call in order to switch it to an AMR FR call.

The parameter determines a LAPDm T200 for supervision of the FACCH message transfer from BTS to mobile. NOTE: MMI is the only user interface supporting this parameter. The parameter is modifiable only for Nokia Talk-family, Nokia UltraSite and Nokia Flexi EDGE BTSs. NOTE: MML

The parameter determines a LAPDm T200 for supervision of the SDCCH message transfer from BTS to mobile. NOTE: MMI is the only user interface supporting this parameter. The parameter is modifiable only for Nokia Talk-family, Nokia UltraSite and Nokia Flexi EDGE BTSs. NOTE: MML

Range and step

0..65535, step 10..31, step 10..65535, step 10..7, step 10..7, step 10..65535, step 10..7, step 10..7, step 10 (not used (N)), 1 (used (Y))-110..-47 dBm, step 1 dBm0..7, step 1-24..24 dB, step 1 dB-24..63 dB, step 1 dB-24..24 dB, step 1 dB0..7, step 11..65533, step 13 characters2..3 characters5..39 dBm, step 2 dBm0..36, step 2-110..-47 dBm, step 1 dBm0 (not synchronized (N)), 1 (synchronized (Y))-109..-47 dBm, step 1 dBm0..100, step 11..100 %, step 1 %0..100 %, step 1 %1..65535, step 11..65535, step 11..100 %, step 1 %1..100 %, step 1 %1..100 %, step 1 %1..100 %, step 1 %1..100 %, step 1 %0..10000, step 10..36, step 10..36, step 1

5..39 dBm, step 2 dBm5..39 dBm, step 2 dBm

0..10000, step 10..100 %, step 1 %0..1440 min, step 1 min0..1440 min, step 1 min5..1440 min, step 1 min5..1440 min, step 1 min5..1440 min, step 1 min5..1440 min, step 1 min5..1440 min, step 1 min5..1440 min, step 1 min0..65535 s, step 1 s0..60, step 10..5, step 11..16, step 1

0 (enable external directed retry handovers (N)), 1 (disable external directed retry handovers (Y))0 (all handovers are not controlled by the MSC (N)), 1 (all handovers are controlled by the MSC (Y))0 (disable emergency call setup on FACCH (N)), 1 (enable emergency call setup on FACCH (Y))

0 (Inter-cell handover has greater priority (INTER)), 1 (Intra-cell handover has greater priority (INTRA))0 (Inter-cell handover has greater priority (INTER)), 1 (Intra-cell handover has greater priority (INTRA))

15..65534 min, step 1 min0..20 dB, step 1 dB0..63 dB, step 1 dB0..4, step 10..120 s, step 1 s0..255, step 10..255, step 1

0 (IMSI attach/detach is not used (N)), 1 (IMSI attach/detach is used (Y))1..32, step 10..7, step 10..7, step 10 (Non-hopping), 1 (Baseband hopping), 2 (Radio Frequency hopping)1..10 characters0..100 %, step 1 %0..100 %, step 1 %1..4, step 11..15 characters0..63, step 10 (re-establishment is not allowed (N)), 1 (re-establishment is allowed (Y))0 (cell not barred), 1 (cell barred)0..100 %, step 1 %0..14 dB, step 2 dB0..65535, step 1-120..-80 dB, step 1 dB0 (MS may use DTX), 1 (MS shall use DTX), 2 (MS shall not use DTX)

0 (false), 1 (true)0..63, step 10..63, step 11..65533, step 10..62, step 15..35, step 11 (1), 2 (2), 4 (4), 7 (7)0..100 %, step 1 %2..3 characters0..255 *550m, step 1 *550m0 (MS priority is not used (N)), 1 (MS priority is used (Y))5..39 dBm, step 2 dBm0..36 dBm, step 2 dBm5..39 dBm, step 2 dBm0..36 dBm, step 2 dBm0..39 dBm, step 1 dBm

0 (false), 1 (true)0..7, step 12..9, step 1

0 (false), 1 (true)0..6 dBm, step 2 dBm0 (Queue priority is not used (N)), 1 (Queue priority is used (Y))1..14, step 11..14, step 11..14, step 14..64 blocks, step 4 blocks0 (RX diversity is not used (N)), 1 (RX diversity is used (Y))-110..-47 dBm, step 1 dBm0 (SMS CB is not allowed (N)), 1 (SMS CB is allowed (Y))

0 (The variable downlink step size is not used (N)), 1 (The variable downlink step size is used (Y))

0 (early classmark sending is forbidden (N)), 1 (early classmark sending is accepted (Y))

0 (New establishment causes support is not allowed(N)), 1 (New establishment causes support is allowed(Y))

0 (3), 1 (4), 2 (5), 3 (6), 4 (7), 5 (8), 6 (9), 7 (10), 8 (11), 9 (12), 10 (14), 11 (16), 12 (20), 13 (25), 14 (32), 15 (50)

0..15 s, step 1 s0..10 s, step 1 s0..25 h, step 0 h0..120 s, step 1 s

-120..-80 dB, step 1 dB1..32, step 10 (the six best adjacent cells (N)), 1 (all adjacent cells (Y))0 (method is disabled (N)), 1 (method is enabled (Y))0 (method is disabled (N)), 1 (method is enabled (Y))0 (method is disabled (N)), 1 (method is enabled (Y))0 (handover control is disabled (N)), 1 (handover control is enabled (Y))0 (handover control is disabled (N)), 1 (handover control is enabled (Y))0 (false), 1 (true)0 (distance process is disabled (N)), 1 (distance process is enabled (Y))0 (handover control is disabled (N)), 1 (handover control is enabled (Y))0 (handover is disabled (N)), 1 (handover is enabled (Y))0 (Not Used), 1 (Own), 2 (Outer)0..63, step 10..63, step 11..1, step 11..3, step 11..32, step 11..3, step 11..32, step 10..31 s, step 1 s0..31 s, step 1 s1..32, step 10..63 bits, step 1 bits1..32, step 11..32, step 10..7, step 11..3, step 11..32, step 11..3, step 11..32, step 11..32, step 11..32, step 1-110..-47 dBm, step 1 dBm1..32, step 11..32, step 1-110..-47 dBm, step 1 dBm1..32, step 11..32, step 1-110..-47 dBm, step 1 dBm1..32, step 11..32, step 1-110..-47 dBm, step 1 dBm1..32, step 11..32, step 1

1..32, step 11..32, step 1

0..30, step 20..30 dB, step 2 dB0..30 dB, step 2 dB

0 (No Priority), 1 (From BCCH TRX), 2 (Beyond BCCH TRX), 3 (From the BCCH TRX for the non AMR and AMR users)

0 (< 0.2%), 1 (0.2% - 0.4%), 2 (0.4% - 0.8%), 3 (0.8% - 1.6%), 4 (1.6% - 3.2%), 5 (3.2% - 6.4%), 6 (6.4% - 12.8%), 7 (> 12.8%)

0 (< 0.2%), 1 (0.2% - 0.4%), 2 (0.4% - 0.8%), 3 (0.8% - 1.6%), 4 (1.6% - 3.2%), 5 (3.2% - 6.4%), 6 (6.4% - 12.8%), 7 (> 12.8%)0 (automatic link adaptation is disabled (N)), 1 (automatic link adaptation is enabled (Y))

0..30, step 11..3, step 11..32, step 11..3, step 11..32, step 11..3, step 11..32, step 11..3, step 11..32, step 11..32, step 11..32, step 1-110..-47 dBm, step 1 dBm1..32, step 11..32, step 1-110..-47 dBm, step 1 dBm1..32, step 11..32, step 1

1..32, step 11..32, step 1

1..32, step 11..32, step 1

1..32, step 11..32, step 1-110..-47 dBm, step 1 dBm1..32, step 11..32, step 1-110..-47, step 11..32, step 11..32, step 1

1..32, step 11..32, step 1

0..31, step 10 (power control is disabled (N)), 1 (power control is enabled (Y))0..38, step 20..38, step 20..38, step 20 (Disabled), 1 (Enabled)2..6, step 20..30, step 22..4, step 26..8 characters1 (Unlocked), 3 (Locked)0..1023, step 1

-109..-47 dBm, step 1 dBm0 (Locked), 1 (Unlocked)

0..1023, step 11..5 characters0..65535, step 1-109..-47 dBm, step 1 dBm0 (The TRX is a normal TRX (N)), 1 (The TRX is a preferred TRX (P))0..4, step 1

0 (< 0.2%), 1 (0.2% - 0.4%), 2 (0.4% - 0.8%), 3 (0.8% - 1.6%), 4 (1.6% - 3.2%), 5 (3.2% - 6.4%), 6 (6.4% - 12.8%), 7 (> 12.8%)

0 (< 0.2%), 1 (0.2% - 0.4%), 2 (0.4% - 0.8%), 3 (0.8% - 1.6%), 4 (1.6% - 3.2%), 5 (3.2% - 6.4%), 6 (6.4% - 12.8%), 7 (> 12.8%)

0 (< 0.2%), 1 (0.2% - 0.4%), 2 (0.4% - 0.8%), 3 (0.8% - 1.6%), 4 (1.6% - 3.2%), 5 (3.2% - 6.4%), 6 (6.4% - 12.8%), 7 (> 12.8%)

0 (< 0.2%), 1 (0.2% - 0.4%), 2 (0.4% - 0.8%), 3 (0.8% - 1.6%), 4 (1.6% - 3.2%), 5 (3.2% - 6.4%), 6 (6.4% - 12.8%), 7 (> 12.8%)

0 (< 0.2%), 1 (0.2% - 0.4%), 2 (0.4% - 0.8%), 3 (0.8% - 1.6%), 4 (1.6% - 3.2%), 5 (3.2% - 6.4%), 6 (6.4% - 12.8%), 7 (> 12.8%)

0 (O&M and telecom sign. links are not combined (N)), 1 (O&M and telecom sign. links are combined (Y))

1..16, step 10..7, step 1

0..100 %, step 1 %0..100 %, step 1 %0..100 %, step 1 %0..100 %, step 1 %0..100 %, step 1 %0..100 %, step 1 %0 (method is not used (N)), 1 (method is used (Y))0 (method is not used (N)), 1 (method is used (Y))-24..24 dBm, step 1 dBm0...31.5 dB, step 0.5 dB0...31.5 dB, step 0.5 dB0...31.5 dB, step 0.5 dB0...31.5 dB, step 0.5 dB0...31.5 dB, step 0.5 dB0...31.5 dB, step 0.5 dB

1 (Any rate), 2 (AMR FR)0..63 dB, step 1 dB

0..7 dB, step 0 dB0..7 dB, step 0 dB0..7 dB, step 0 dB


1 (Currently used multirate), 2 (Multirate configuration of target BTS)0 (fast LA mode is used (N)), 1 (enable slow AMR LA mode (Y))0...31.5 dB, step 0.5 dB0...31.5 dB, step 0.5 dB0...31.5 dB, step 0.5 dB0...31.5 dB, step 0.5 dB0...31.5 dB, step 0.5 dB0...31.5 dB, step 0.5 dB

0..63 dB, step 1 dB



4..64 blocks, step 4 blocks0..100 %, step 1 %

0 (TRX is not created to be autoconfigured (N)), 1 (TRX is created to be autoconfigured (Y))

Bit 0: 4.75 kbit/s, Bit 1: 5.15 kbit/s, Bit 2: 5.90 kbit/s, Bit 3: 6.70 kbit/s, Bit 4: 7.40 kbit/s, Bit 5: 7.95 kbit/s, Bit 6: 10.2 kbit/s, Bit 7: 12.2 kbit/s

0 (Defined by implicit rule provided in GSM 05.09), 1 (Defined by Start Mode)0 (Codec Mode 1), 1 (Codec Mode 2), 2 (Codec Mode 3), 3 (Codec Mode 4)

Bit 0: 4.75 kbit/s, Bit 1: 5.15 kbit/s, Bit 2: 5.90 kbit/s, Bit 3: 6.70 kbit/s, Bit 4: 7.40 kbit/s0 (< 0.2%), 1 (0.2% - 0.4%), 2 (0.4% - 0.8%), 3 (0.8% - 1.6%), 4 (1.6% - 3.2%), 5 (3.2% - 6.4%), 6 (6.4% - 12.8%), 7 (> 12.8%)0 (< 0.2%), 1 (0.2% - 0.4%), 2 (0.4% - 0.8%), 3 (0.8% - 1.6%), 4 (1.6% - 3.2%), 5 (3.2% - 6.4%), 6 (6.4% - 12.8%), 7 (> 12.8%)0 (< 0.2%), 1 (0.2% - 0.4%), 2 (0.4% - 0.8%), 3 (0.8% - 1.6%), 4 (1.6% - 3.2%), 5 (3.2% - 6.4%), 6 (6.4% - 12.8%), 7 (> 12.8%)0 (< 0.2%), 1 (0.2% - 0.4%), 2 (0.4% - 0.8%), 3 (0.8% - 1.6%), 4 (1.6% - 3.2%), 5 (3.2% - 6.4%), 6 (6.4% - 12.8%), 7 (> 12.8%)0 (< 0.2%), 1 (0.2% - 0.4%), 2 (0.4% - 0.8%), 3 (0.8% - 1.6%), 4 (1.6% - 3.2%), 5 (3.2% - 6.4%), 6 (6.4% - 12.8%), 7 (> 12.8%)0 (< 0.2%), 1 (0.2% - 0.4%), 2 (0.4% - 0.8%), 3 (0.8% - 1.6%), 4 (1.6% - 3.2%), 5 (3.2% - 6.4%), 6 (6.4% - 12.8%), 7 (> 12.8%)

0 (< 0.2%), 1 (0.2% - 0.4%), 2 (0.4% - 0.8%), 3 (0.8% - 1.6%), 4 (1.6% - 3.2%), 5 (3.2% - 6.4%), 6 (6.4% - 12.8%), 7 (> 12.8%)

0 (Defined by implicit rule provided in GSM 05.09), 1 (Defined by Start Mode)0 (Codec Mode 1), 1 (Codec Mode 2), 2 (Codec Mode 3), 3 (Codec Mode 4)

0 (downgrades and upgrades are not applied (N)), 1 (downgrades and upgrades are applied (Y))

0 (TRX HW does not support half rate (N)), 1 (TRX HW supports half rate (Y))

0 (antenna hopping not used (N)), 1 (antenna hopping used (Y))

5..39 dBm, step 2 dBm0..36 dBm, step 2 dBm10..320 s, step 10 s-52..48 dB, step 2 dB-110..-47 dBm, step 1 dBm0..70 dB, step 10 dB-110..-48 dB, step 2 dB0..7, step 10..255, step 1

1..12, step 11..12, step 11..12, step 10..100 %, step 1 %0..10 s, step 1 s1..255 s, step 1 s1..9, step 11..7, step 11..12, step 11..12, step 11..12, step 11..12, step 10 (false), 1 (true)0 (false), 1 (true)

0 (Link Adaptation used), 1 (CS-1 used), 2 (CS-2 used)0 (Link Adaptation used), 1 (Cs1 used), 2 (Cs2 used)0..100 %, step 1 %1..100 %, step 1 %-40..40, step 10..50 %, step 1 %0..100 %, step 1 %0..100 %, step 1 %

0..14 dB, step 2 dB0 (GPRS is disabled (N)), 1 (GPRS is enabled (Y))0 (1), 1 (2), 2 (4), 3 (7)5..39 dBm, step 2 dBm0..36, step 2-110..-47 dBm, step 1 dBm-110..-47 dBm, step 1 dBm0 (false), 1 (true)

-110..-47 dBm, step 1 dBm-110..-48 dB, step 2 dB1..9, step 11..9, step 11..100 %, step 1 %10..100 %, step 1 %1..100, step 1-31..31, step 1-31..31, step 10..65535, step 10..10, step 11..4, step 1

0 (GPRS is disabled in the adjacent cell (N)), 1 (GPRS is enabled in the adjacent cell (Y))0 (Status for cell reselection is set to normal), 1 (Status for cell reselection is set to barred)

0 (The GPRS territory is allocated first), 1 (The RTSL-0 hopping group is allocated first)

0 (12), 1 (15), 2 (20), 3 (30), 4 (41), 5 (55), 6 (76), 7 (109), 8 (163), 9 (217)

0 (Status for cell reselection is set to normal), 1 (Status for cell reselection is set to barred)

0 (2), 1 (3), 2 (4), 3 (5), 4 (6), 5 (7), 6 (8), 7 (9), 8 (10), 9 (12), 10 (14), 11 (16), 12 (20), 13 (25), 14 (32), 15 (50)

0..12, step 10 (No), 1 (Yes), 2 (GPRS channels are allocated beyond the BCCH TRX)0..7, step 10..14 dB, step 2 dB0 (5 s), 1 (10 s), 2 (15 s), 3 (20 s), 4 (30 s), 5 (60 s), 6 (120 s), 7 (300 s)0..50 %, step 1 %0..100 %, step 1 %0..100 %, step 1 %0..10, step 10..62, step 20..25, step 10..25, step 11..65533, step 13 characters2..3 characters0..65535, step 10..255, step 1

0 (EGPRS is disabled (N)), 1 (EGPRS is enabled (Y))0 (1), 1 (2), 2 (3), 3 (4), 4 (5), 5 (7), 6 (10), 7 (12), 8 (15), 9 (20), 10 (25)

0 (FR), 1 (IP), 255 (ANY)

0..255, step 115..1440 min, step 1 min0..23 h, step 1 h0..45 min, step 15 min0..23 h, step 1 h0..45 min, step 15 min

0..8 dB, step 1 dB0..8 dB, step 1 dB0..8 dB, step 1 dB0..8 dB, step 1 dB0..8 dB, step 1 dB0..8 dB, step 1 dB0..8 dB, step 1 dB0..8 dB, step 1 dB0..8 dB, step 1 dB0..8 dB, step 1 dB0..8 dB, step 1 dB0..8 dB, step 1 dB0..8 dB, step 1 dB0..8 dB, step 1 dB0..8 dB, step 1 dB0..8 dB, step 1 dB0..30 dB, step 2 dB

1..2147483647, step 11..2147483647, step 11..2147483647, step 1

0..1000, step 1

0 (GPRS is disabled for the current TRX (N)), 1 (GPRS is enabled for the current TRX (Y))0 (Only CSW used RTSLs are used ), 1 (CSW and PSW used RTSLs are used.), 2 (CSW used and PSW used RTSLs are used.)

0 (Adaptive LA algorithm is enabled (Y)), 1 (Adaptive LA algorithm is disabled (N))0 (CS1), 1 (CS2), 2 (CS3), 3 (CS4), 4 (LA with initial CS1), 5 (LA with initial CS2), 6 (LA with initial CS3), 7 (LA with initial CS4)0 (CS1), 1 (CS2), 2 (CS3), 3 (CS4), 4 (LA with initial CS1), 5 (LA with initial CS2), 6 (LA with initial CS3), 7 (LA with initial CS4)0 (CS1), 1 (CS2), 2 (CS3), 3 (CS4), 4 (LA with initial CS1), 5 (LA with initial CS2), 6 (LA with initial CS3), 7 (LA with initial CS4)0 (CS1), 1 (CS2), 2 (CS3), 3 (CS4), 4 (LA with initial CS1), 5 (LA with initial CS2), 6 (LA with initial CS3), 7 (LA with initial CS4)0 (Alarm disabled), 1 (No normal UL TBF releases), 2 (No normal DL TBF releases), 3 (No normal UL and DL TBF releases)

Bit 0: Sunday, Bit 1: Saturday, Bit 2: Friday, Bit 3: Thursday, Bit 4: Wednesday, Bit 5: Tuesday, Bit 6: Monday

0 (Not Used), 1 (Used In Call Setup), 2 (Used In Call Setup And In Handovers)

0 (Not allowed), 1 (Allowed for AMR), 2 (Allowed for other internal handovers than AMR), 3 (Allowed for all internal handovers)

0..100, step 10..10 s, step 1 s-128..127 dB, step 1 dB-8..7, step 11..10, step 1-63..63 dB, step 1 dB3 characters2..3 characters

0..126 dB, step 2 dB

20..640 s, step 20 s0..70 dB, step 10 dB0 (adjacent cell is not chained (N)), 1 (adjacent cell is chained (Y))0..32, step 11..32, step 10..63 dB, step 1 dB1..32, step 11..32, step 1-110..-47 dBm, step 1 dBm

0..255 s, step 1 s-110..-47 dBm, step 1 dBm-110..-47 dBm, step 1 dBm1..32, step 11..32, step 150..95 %, step 5 %0..63 period, step 1 period

0..1, step 00..63 dB, step 1 dB-31..31 dB, step 1 dB0 (TCH With Highest C/I Level), 1 (TCH With C/I On Target Level)-20..43 dB, step 1 dB2001..2032, step 10 (Off), 1 (Standby), 2 (DFCA hopping)0 (TRX is a non-DFCA TRX (N)), 1 (TRX is a DFCA TRX (Y))0..63 dB, step 1 dB5..30 min, step 5 min0..63 dB, step 1 dB-20..43 dB, step 1 dB0..63 dB, step 1 dB-20..43 dB, step 1 dB0..63 dB, step 1 dB-20..43 dB, step 1 dB0..63 dB, step 1 dB0..63 dB, step 1 dB-20..43 dB, step 1 dB0..63 dB, step 1 dB0..35, step 10..2000 ms, step 10 ms0 (Ok), 1 (Not Ok)1..2000, step 1

0 (DADL is not applied (N)), 1 (DADL is applied (Y))0 (DADLA is not applied (N)), 1 (DADLA is applied (Y))0 (directed retry is not in use (N)), 1 (directed retry is in use (Y))0 (Basic directed retry method), 1 (Threshold evaluation method)

0 (Cell barring cannot be overridden (N)), 1 (Cell barring can be overridden (Y))0 (C2 reselection parameters are not broadcast (N)), 1 (C2 reselection parameters are broadcast (Y))

0 (Coding schemes CS3 and CS4 are disabled (N)), 1 (Coding schemes CS3 and CS4 are enabled (Y))

0 (turns off the BIM update procedure), 10 (10 min), 20 (20 min), 30 (30 mn), 40 (40 min), 50 (50 min), 60 (1 h), 120 (2 h), 180 (3 h), 240 (4 h), 300 (5 h), 360 (6 h), 720 (12 h), 1440 (24 h)

0 (Measurement BCCH Allocation List not used (N)), 1 (Measurement BCCH Allocation List used (Y))

1..15 s, step 1 s0..14 s, step 1 s0 (GSM 900), 1 (GSM 1800), 2 (GSM 1900), 5 (GSM 800)0 (Idle State BCCH List), 1 (Adjacent Cells BCCHs)0 (false), 1 (true)0..3, step 10 (DTM disabled (N)), 1 (DTM enabled (Y))-24..63 dB, step 1 dB0..1, step 01..600 s, step 1 s0 (DTM disabled (N)), 1 (DTM enabled (Y))1..1600, step 1

0..64 s, step 1 s1..32, step 11..32, step 1

0...44 s, step 1 s

1...9, step 11...9, step 1

0..63, step 10..63, step 10 (The TRX is a normal TRX (N)), 1 (The TRX is an extended TRX (Y))0..67 km, step 1 km

0 (Not Used), 1 (Same Layer), 2 (Upper Layer), 3 (Lower Layer)0..255 SACCH fr, step 1 SACCH fr0..255, step 11..32, step 10..100, step 11..32, step 11..32, step 10..255, step 1

1..62, step 1Non-hopping (0), Baseband hopping (1), Radio Frequency hopping (2)0..99, step 10..99, step 10..63 dB, step 1 dB0..63 dB, step 1 dB0..100 %, step 1 %0..100 %, step 1 %0..100 %, step 1 %

1..32, step 11..32, step 1-110..-47 dBm, step 1 dBm1..32, step 11..32, step 1

0 (No Constraints), 1 (Actual Rate), 2 (Data Call), 3 (No Rate Change), 4 (Preferred Rate)0 (EGPRS link adaptation is disabled), 1 (enabled for RLC acknowledged mode), 2 (enabled for RLC acknowledged and unacknowledged)0 (Not Used), 1 (Based On UL Meas), 2 (Based On DL Meas), 3 (Based On UL And DL Meas)

Extended Cell GPRS/EDGE is disabled in the cell(N) (0), Extended Cell GPRS/EDGE is enabled in the cell (Y) (1)CS1 (0), CS2 (1), CS3 (2), CS4 (3), LA with initial CS1 (4), LA with initial CS2 (5), LA with initial CS3 (6), LA with initial CS4 (7)CS1 (0), CS2 (1), CS3 (2), CS4 (3), LA with initial CS1 (4), LA with initial CS2 (5), LA with initial CS3 (6), LA with initial CS4 (7)CS1 (0), CS2 (1), CS3 (2), CS4 (3), LA with initial CS1 (4), LA with initial CS2 (5), LA with initial CS3 (6), LA with initial CS4 (7)CS1 (0), CS2 (1), CS3 (2), CS4 (3), LA with initial CS1 (4), LA with initial CS2 (5), LA with initial CS3 (6), LA with initial CS4 (7)

0 (Normal or Nokia 2nd generation extended cell), 1 (E Cell Normal TRX Alloc), 2 (E Cell Extended TRX Alloc), 3 (E Cell Same Type As TRX Alloc)

0 (disable answer to paging call setup on FACCH (N)), 1 (enable answer to paging call setup on FACCH (Y))0 (disable call re-establishment setup on FACCH (N)), 1 (enable call re-establishment setup on FACCH (Y))0 (disable ordinary calls setup on FACCH (N)), 1 (enable ordinary calls setup on FACCH (Y))

0 (PC and HO decision-making is not used (N)), 1 (PC and HO decision-making is used (Y))

1 (Actual Rate), 2 (Data Call), 3 (No Rate Change), 4 (Preferred Rate), 5 (Best Candidate)

-110..-47 dBm, step 1 dBm0..100 %, step 1 %0..100 %, step 1 %1..65535 s, step 1 s

0..100 %, step 1 %0..100 %, step 1 %

1..65535 s, step 1 s0..63 dB, step 1 dB0..10, step 1

1..16, step 10..8, step 1

0 (Only For Priority Subscriber), 1 (All Subscribers)0..64, step 1

-110..-47 dBm, step 1 dBm0 (false), 1 (true)0 (disabled), 1 (enabled), 2 (priority)1..32, step 10..31, step 10..255, step 10..128, step 1-127..127, step 11..32, step 11..32, step 1-127..127, step 11..32, step 11..32, step 10 (Measured interference level), 1 (Interference level estimate)1..10, step 10..65535, step 11..65533, step 1-63..63 dB, step 1 dB3 characters2..3 characters0 (Measured interference level), 1 (Interference level estimate)0..32, step 10..63, step 10 (false), 1 (true)0 (Not Used), 1 (Average), 2 (Maximum), 3 (ICE)-109..-47, step 10..16, step 1-109..-47 dBm, step 1 dBm0..16, step 10 (Not Used), 1 (Baseband), 2 (RF Hopping)0..62, step 11..2000, step 11..62, step 1-24...0.5 dB, step 0.5 dB-24...0.5 dB, step 0.5 dB

2..254 seconds, step 2 seconds0..255 sec, step 1 sec0..255, step 1

1 (Release 1), 2 (Release 2 or 1 or 1), 3 (Release 2 or 2 or 1), 4 (Release 3 or 2 or 1)

0 (Gain Not Used), 33 (When Possible), 50 (1 or 2 TSL), 100 (1 or 2 or 4 TSL)

0 (IMSI based handover to GSM cells is disabled (N)), 1 (IMSI based handover to GSM cells is enabled (Y))0 (GSM subscriber type), 1 (MCN subscriber type), 2 (Priority subscriber type)

0 (dynamic reservation method (DYN)), 1 (static reservation method (STAT))

0 (trunk reservation algorithm is not in use (N)), 1 (trunk reservation algorithm is in use (Y))0 (Intelligent Directed Retry is not in use (N)), 1 (Intelligent Directed Retry is in use (Y))

-32..28 dB, step 4 dB

1..32, step 10 (the three best RAN cells (N)), 1 (all adjacent WCDMA RAN cells (Y))0 (false), 1 (true)0..255 s, step 1 s0..255, step 10..100 %, step 1 %0..3, step 10..32, step 10..15, step 10..100 %, step 1 %0..255, step 1

0..10, step 1

0 (false), 1 (true)0 (Not triggered), 1 (Triggered)-32..28 dB, step 4 dB

0...14 dB, step 2 dB-114...-84 dBm, step 2 dBm-24...0.5 dB, step 0.5 dB0...100 %, step 1 %0...100 %, step 1 %

0 (NACC is disabled (N)), 1 (NACC is enabled (Y))0..10, step 10..14 dB, step 2 dB1..10, step 11..10, step 1

1..60 s, step 1 s5..60 s, step 1 s

-63..63 dB, step 1 dB-5..5 dB, step 1 dB-63..63 dB, step 1 dB-5..5 dB, step 1 dB5..20 s, step 1 s-110..-47 dBm, step 1 dBm

0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB

0 (-20 dB), 1 (-6 dB), 2 (-18 dB), 3 (-8 dB), 4 (-16 dB), 5 (-10 dB), 6 (-14 dB), 7 (-12 dB)

0 (-20 dB), 1 (-6 dB), 2 (-18 dB), 3 (-8 dB), 4 (-16 dB), 5 (-10 dB), 6 (-14 dB), 7 (-12 dB)0 (IMSI based handover to WCDMA cells is disabled (N)), 1 (IMSI based handover to WCDMA cells is enabled (Y))0 (ISNCCR is disabled to WCDMA FDD cells (N)), 1 (ISNCCR is enabled to WCDMA FDD cells (Y))

0 (-98 dBm), 1 (-94 dBm), 2 (-90 dBm), 3 (-86 dBm), 4 (-82 dBm), 5 (-78 dBm (RLA_P below)), 6 (-74 dBm (RLA_P below)), 7 (Infinity (always)), 8 (-78 dBm (RLA_P above)), 9 (-74 dBm (RLA_P above)), 10 (-70 dBm), 11 (-66 dBm), 12 (-62 dBm), 13 (-58 dBm), 14 (-54 dBm), 15 (Infinity (never))

0 (-98 dBm), 1 (-94 dBm), 2 (-90 dBm), 3 (-86 dBm), 4 (-82 dBm), 5 (-78 dBm (RLA_C below)), 6 (-74 dBm (RLA_C below)), 7 (Infinity (always)), 8 (-78 (RLA_C above)), 9 (-74 (RLA_C above)), 10 (-70), 11 (-66), 12 (-62), 13 (-58), 14 (-54), 15 (Infinity (never))

0 (NCCR is disabled for all mobile stations. ), 1 (NCCR is enabled for release 97 onwards MS), 2 (NCCR is enabled for release 99 onwards MS), 3 (NCCR is enabled for release 4 onwards MS), 4 (NCCR is enabled for all mobile stations.)

0 (0.48 s), 1 (0.96 s), 2 (1.92 s), 3 (3.84 s), 4 (7.68 s), 5 (15.36 s), 6 (30.72 s), 7 (61.44 s)

0 (0.48 s), 1 (0.96 s), 2 (1.92 s), 3 (3.84 s), 4 (7.68 s), 5 (15.36 s), 6 (30.72 s), 7 (61.44 s)

0 (the pre-emption is not applied in handover (N)), 1 (the pre-emption is applied in handover (Y))

0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB0...30 dB, step 2 dB

1..500 s, step 1 s0 (false), 1 (true)0 (handover is disabled (N)), 1 (handover is enabled (Y))-40..40, step 11..15 characters1..2000, step 10 (STIRC is disabled (N)), 1 (STIRC is enabled (Y))0 (false), 1 (true)0 (SACCH Rate), 1 (Reduced Rate )0 (NO), 1 (scaled by 10 dB), 2 (AUTOMATIC)0..42 dB, step 6 dB

0..42, step 6

0..42 dB, step 6 dB

0..42, step 6

0..3, step 10..10, step 10..30 sec, step 1 sec0..30 sec, step 1 sec0..100 %, step 1 %0..100 %, step 1 %

adjacent cell is not chained (N) (0), adjacent cell is chained (Y) (1)

-110 dBm. Fixed boundary (0) -110 dBm. Fixed boundary (0) -110 dBm. Fixed boundary (0) -110 dBm. Fixed boundary (0) -110 dBm. Fixed boundary (0) -110 dBm. Fixed boundary (0)

1...2000, step 1

0 (Always), 1 (6 dB), 2 (12 dB), 3 (18 dB), 4 (24 dB), 5 (30 dB), 6 (36 dB), 7 (Never)0 (Always), 1 (6 dB), 2 (12 dB), 3 (18 dB), 4 (24 dB), 5 (30 dB), 6 (36 dB), 7 (Never)0 (Always), 1 (6 dB), 2 (12 dB), 3 (18 dB), 4 (24 dB), 5 (30 dB), 6 (36 dB), 7 (Never)0 (Always), 1 (6 dB), 2 (12 dB), 3 (18 dB), 4 (24 dB), 5 (30 dB), 6 (36 dB), 7 (Never)0 (Always), 1 (6 dB), 2 (12 dB), 3 (18 dB), 4 (24 dB), 5 (30 dB), 6 (36 dB), 7 (Never)0 (Always), 1 (6 dB), 2 (12 dB), 3 (18 dB), 4 (24 dB), 5 (30 dB), 6 (36 dB), 7 (Never)

GPRS is disabled in the adjacent cell (N) (0), GPRS is enabled in the adjacent cell (Y) (1)GSM (0), MCN/Shared (1)

200...1260 ms, step 20 ms220...1260 ms, step 20 ms

< 0.2% (0), 0.2% - 0.4% (1), 0.4% - 0.8% (2), 0.8% - 1.6% (3), 1.6% - 3.2% (4), 3.2% - 6.4% (5), 6.4% - 12.8% (6), > 12.8% (7)< 0.2% (0), 0.2% - 0.4% (1), 0.4% - 0.8% (2), 0.8% - 1.6% (3), 1.6% - 3.2% (4), 3.2% - 6.4% (5), 6.4% - 12.8% (6), > 12.8% (7)

Default value Required on creation Modification

0 Mandatory unmodifiable

-1 Mandatory unmodifiable

0 Optional unmodifiable






1 Mandatory onLine

-47 Mandatory onLine

1 Mandatory onLine

3 Mandatory onLine

6 Mandatory onLine

0 Mandatory onLine

3 Mandatory onLine






-100 Mandatory onLine

0 Mandatory onLine

0 Mandatory onLine

30 Mandatory onLine

30 Mandatory onLine

30 Mandatory onLine

100 Mandatory onLine

10 Mandatory onLine

20 Mandatory onLine

80 Mandatory onLine

20 Mandatory onLine

20 Mandatory onLine

50 Mandatory onLine


26 Optional onLine

24 Optional onLine

0 Mandatory onLine

0 Mandatory onLine

0 Mandatory onLine

35 Mandatory onLine

33 Mandatory onLine

0 Mandatory onLine

0 Mandatory onLine


100 Optional onLine

30 Mandatory onLine



60 Mandatory onLine


60 Mandatory onLine



10 Mandatory onLine


0 Mandatory onLine

3 Mandatory onLine


5 Mandatory onLine

12 Optional onLine

4 Mandatory onLine

30 Mandatory onLine

10 Mandatory onLine

30 Mandatory onLine

0 Optional onLine

1 Optional onLine

6 Optional onLine



0 Optional objectLocking


70 Optional onLine

70 Optional onLine

1 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

4 Optional onLine

0 Mandatory objectLocking

-117 Optional onLine

2 Optional onLine

1 Optional onLine

false Optional onLine




0 Optional onLine

5 Optional onLine

4 Optional onLine

50 Optional onLine


255 Optional onLine

1 Optional onLine

33 Optional onLine

30 Optional onLine



5 Optional onLine

0 Optional onLine




7 Optional onLine

0 Optional onLine

0 Optional onLine

1 Optional onLine

10 Optional onLine

9 Optional onLine

9 Optional onLine

20 Optional onLine

0 Optional onLine


0 Optional onLine

10 Optional onLine

5 Optional onLine

0 Optional onLine

30 Mandatory onLine

0 Optional onLine


6 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

true Optional onLine

0 Optional onLine

1 Optional onLine

0 Optional onLine

0 Optional onLine

6 Optional onLine

6 Optional onLine


1 Optional onLine

6 Optional onLine

1 Optional onLine

6 Optional onLine

5 Optional onLine

3 Optional onLine

10 Optional onLine

63 Optional onLine

1 Optional onLine

1 Optional onLine

2 Optional onLine

1 Optional onLine

1 Optional onLine

1 Optional onLine

1 Optional onLine

1 Optional onLine

1 Optional onLine

-85 Optional onLine

1 Optional onLine

1 Optional onLine

-85 Optional onLine

1 Optional onLine

1 Optional onLine

-95 Optional onLine

1 Optional onLine

1 Optional onLine

-95 Optional onLine

6 Optional onLine

4 Optional onLine

4 Optional onLine

6 Optional onLine

4 Optional onLine

4 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

30 Optional onLine

10 Optional onLine

1 Optional onLine

4 Optional onLine

1 Optional onLine

4 Optional onLine

1 Optional onLine

1 Optional onLine

1 Optional onLine

1 Optional onLine

1 Optional onLine

1 Optional onLine

-85 Optional onLine

1 Optional onLine

1 Optional onLine

-85 Optional onLine

4 Optional onLine

3 Optional onLine

3 Optional onLine

4 Optional onLine

3 Optional onLine

3 Optional onLine

4 Optional onLine

3 Optional onLine

3 Optional onLine

1 Optional onLine

1 Optional onLine

-70 Optional onLine

1 Optional onLine

1 Optional onLine

-70 Optional onLine

32 Optional onLine

32 Optional onLine

0 Optional onLine

32 Optional onLine

32 Optional onLine

0 Optional onLine

2 Optional onLine

1 Optional onLine

38 Optional onLine

38 Optional onLine

38 Optional onLine

1 Optional onLine

4 Optional onLine

6 Optional onLine

2 Optional onLine


3 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

1 Mandatory onLine

false Optional unmodifiable


0 Optional onLine


0 Optional onLine

0 Optional onLine





20 Mandatory onLine

70 Mandatory onLine

80 Mandatory onLine

20 Mandatory onLine

70 Mandatory onLine

80 Mandatory onLine

0 Optional onLine

0 Optional onLine

255 Optional onLine4 dB optional On-Line7 dB optional On-Line11 dB optional On-Line4 dB optional On-Line7 dB optional On-Line11 dB optional On-Line

1 Optional onLine

7 Optional onLine

149 Optional onLine

1 Optional onLine

1 Optional onLine

1 Optional onLine

0 Optional onLine

0 Optional onLine

4 Optional onLine

7 Optional onLine

11 Optional onLine

21 Optional onLine

3 Optional onLine

3 Optional onLine

0 Optional onLine

0 Optional onLine

4 Optional onLine

4 Optional onLine

1 Optional onLine

0 Optional onLine11 dB optional On-Line14 dB optional On-Line0 dB optional On-Line11 dB optional On-Line14 dB optional On-Line0 dB optional On-Line

12 Optional onLine

4 Optional onLine

1 Optional onLine

1 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

11 Optional onLine

14 Optional onLine

0 Optional onLine

0 Optional onLine

20 Optional onLine

40 Optional onLine

1 Optional onLine


0 Optional Objectlocking

0 Optional onLine



10 Optional onLine

0 Optional onLine


0 Optional onLine




0 Optional onLine

3 Optional onLine

12 Optional onLine

6 Optional onLine

95 Optional onLine

4 Optional onLine

5 Optional onLine

9 Optional onLine

7 Optional onLine

3 Optional onLine

6 Optional onLine

9 Optional onLine

12 Optional onLine



3 Optional onLine

0 Optional onLine

2 Optional onLine

0 Optional onLine

1 Optional onLine

0 Optional onLine

20 Optional onLine

20 Optional onLine

90 Optional onLine

0 Optional onLine

4 Optional onLine


2 Optional onLine

33 Optional onLine

30 Optional onLine


-95 Optional onLine

0 Optional onLine

8 Optional onLine



6 Optional onLine

5 Optional onLine

100 Optional onLine

90 Optional onLine

10 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine




0 Optional onLine


4 Optional onLine

0 Optional onLine

10 Optional onLine

24 Optional onLine

90 Optional onLine

7 Optional onLine

34 Optional onLine

9 Optional onLine

13 Optional onLine




0 Optional onLine


1 Optional onLine

0 Optional onLine


6 Optional onLine

0 Optional onLine

1 Optional onLine

1 Optional onLine

1 Optional onLine

1 Optional onLine

255 Optional onLine

0 Optional onLine

10 Optional onLine

15 Optional onLine

18 Optional onLine

0 Optional onLine

8 Optional onLine

0 Optional onLine

0 Optional onLine

6 Optional onLine

7 Optional onLine

7 Optional onLine

5 Optional onLine

6 Optional onLine

7 Optional onLine

5 Optional onLine

6 Optional onLine

5 Optional onLine

5 Optional onLine

4 Optional onLine

5 Optional onLine

5 Optional onLine

4 Optional onLine

5 Optional onLine

5 Optional onLine

0 Optional onLine

0 Optional onLine




0 Optional onLine

50 Optional onLine

10 Optional onLine

5 Optional onLine

30 Optional onLine

3 Optional onLine

1 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

20 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

2 Optional onLine

10 Optional onLine

3 Optional onLine

2 Optional onLine



255 Optional onLine

-90 Optional onLine

-95 Optional onLine

1 Optional onLine

1 Optional onLine

80 Optional onLine

62 Optional onLine

120 Optional onLine

0 Optional onLine

14 Optional onLine

0 Optional onLine

0 Optional onLine

-20 Optional onLine



0 Optional onLine

16 Optional onLine

15 Optional onLine

3 Optional onLine

-20 Optional onLine

12 Optional onLine

-20 Optional onLine

12 Optional onLine

-20 Optional onLine

0 Optional onLine

14 Optional onLine

-20 Optional onLine

2 Optional onLine

35 Optional onLine

50 Optional onLine




0 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

5 Optional onLine

0 Optional onLine


1 Optional onLine


1 Optional onLine

0 Optional Objectlocking

6 Optional onLine

0 Optional onLine

4 Optional onLine



0 Optional onLine

2 Optional onLine

0 Optional onLine

10 Optional onLine

2 Optional onLine

1 Optional onLineoptional

15 s optional On-LineCS1 (0) optional On-LineCS1 (0) optional On-LineCS1 (0) optional On-LineCS1 (0) optional On-Line

1 optional On-Line1 optional On-Line

0 Optional onLine

63 Optional onLine

2 Optional onLine



0 Mandatory onLine

0 Mandatory onLine

0 Mandatory onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

4 Optional onLine

0 Optional onLine

6 Optional onLine

3 Optional onLine

0 Optional onLine

0 Optional onLine

1 Optional onLine


0 Optional onLine


14 Optional onLine

0 Optional onLine

60 Optional onLine

100 Optional onLine

0 Optional onLine

1 Optional onLine

6 Optional onLine

2 Optional onLine

-85 Optional onLine

10 Optional onLine

8 Optional onLine

Extended Cell GPRS/EDGE is disabled in the cell(N) (0)

Requires object locking

-80 Optional onLine

100 Optional onLine

100 Optional onLine

0 Optional onLine

1 Optional onLine

100 Optional onLine

100 Optional onLine

0 Optional onLine

0 Optional onLine

14 Optional onLine

0 Optional onLine


0 Optional onLine

16 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine



0 Optional onLine

10 Optional onLine

2 Optional onLine

10 Optional onLine

10 Optional onLine

10 Optional onLine

6 Optional onLine

2 Optional onLine

17 Optional onLine

10 Optional onLine

8 Optional onLine

0 Mandatory onLine

0 Mandatory onLine

0 Mandatory onLine

0 Mandatory onLine

0 Mandatory onLine

0 Mandatory onLine

0 Mandatory onLine

0 Mandatory onLine

0 Optional onLine



0 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine



0 Optional onLine

0 Optional onLine

1 Optional onLine-11.5 dB optional On-Line-15 dB optional On-Line

128 Optional onLine

127 Optional onLine

127 Optional onLine

-32 Optional onLine

7 Optional onLine

6 Optional onLine

0 Optional onLine


3 Optional onLine

20 Optional onLine

80 Optional onLine

2 Optional onLine

5 Optional onLine

15 Optional onLine

50 Optional onLine

127 Optional onLine

7 Optional onLine

0 Optional onLine


0 Optional onLine


0 Optional onLine

-32 Optional onLine

0 Optional onLine

15 Optional onLine0 dB optional On-Line-102 dBm optional On-Line-15 dB optional On-Line40 % optional On-Line60 % optional On-Line

0 Optional onLine

2 Optional onLine

4 Optional onLine

5 Optional onLine

5 Optional onLine

0 Optional onLine

5 Optional onLine

6 Optional onLine

10 Optional onLine

0 Optional onLine

6 Optional onLine

0 Optional onLine

6 Optional onLine

0 Optional onLine

10 Optional onLine

255 Optional onLine

1 Optional onLine30 dB mandatory On-Line18 dB mandatory On-Line6 dB mandatory On-Line0 dB mandatory On-Line30 dB mandatory On-Line18 dB mandatory On-Line6 dB mandatory On-Line0 dB mandatory On-Line30 dB mandatory On-Line18 dB mandatory On-Line6 dB mandatory On-Line0 dB mandatory On-Line

30 dB mandatory On-Line18 dB mandatory On-Line6 dB mandatory On-Line0 dB mandatory On-Line30 dB mandatory On-Line18 dB mandatory On-Line6 dB mandatory On-Line0 dB mandatory On-Line30 dB mandatory On-Line18 dB mandatory On-Line6 dB mandatory On-Line0 dB mandatory On-Line30 dB mandatory On-Line18 dB mandatory On-Line6 dB mandatory On-Line0 dB mandatory On-Line30 dB mandatory On-Line18 dB mandatory On-Line6 dB mandatory On-Line0 dB mandatory On-Line

30 Mandatory onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine

0 Optional onLine


0 Optional onLine

0 Optional onLine

0 Mandatory onLine

0 Mandatory onLine

0 Mandatory onLine

0 Mandatory onLine

0 Mandatory onLine

0 Mandatory onLine

0 Mandatory onLine

0 Mandatory onLine

0 Mandatory onLine

0 Mandatory onLine

2 Optional onLine

3 Optional onLine

28 Optional onLine

5 Optional onLine

97 Optional onLine

25 Optional onLineGPRS is disabled in the adjacent cell (N) (0) Optional unmodifiableGSM (0) Optional onLineadjacent cell is not chained (N) (0) Optional onLine

Optional onLineOptional onLineOptional onLineOptional onLineOptional onLine

-47 dBm. Fixed boundary (63) Optional onLine

0 Optional onLine

-110 dBm. Fixed boundary (0) -105 dBm -100 dBm -95 dBm -90 dBm

< 0.2% (0) Optional onLine1.6% - 3.2% (4) Optional onLine0 ms optional0 ms optional

Parameter is modifiable if BTS site type is TalkFamily

Parameter is modifiable if BTS site type is Talk-family

Related features

Abis Auto Configuration (32) (optional) Advanced Multilayer Handling (AMH) (33) (optional) Advanced Multilayer Handling (AMH) (33) (optional) Advanced Multilayer Handling (AMH) (33) (optional) Advanced Multilayer Handling (AMH) (33) (optional) Advanced Multilayer Handling (AMH) (33) (optional) Advanced Multilayer Handling (AMH) (33) (optional) Advanced Multilayer Handling (AMH) (33) (optional) Advanced Multilayer Handling (AMH) (33) (optional) Advanced Multilayer Handling (AMH) (33) (optional) AMR FR (50) (optional)AMR FR (50) (optional)AMR FR (50) (optional)AMR FR (50) (optional)AMR FR (50) (optional)AMR FR (50) (optional)AMR FR (50) (optional) AMR FR (50) (optional) AMR FR (50) (optional) AMR FR (50) (optional) AMR FR (50) (optional) AMR FR (50) (optional) AMR FR (50) (optional) AMR FR (50) (optional) AMR FR (50) (optional) AMR FR (50) (optional) AMR FR (50) (optional) AMR FR (50) (optional) AMR FR (50) (optional) AMR FR (50) (optional) AMR FR (50) (optional) AMR FR (50) (optional) AMR FR (50) (optional) AMR FR (50) (optional) AMR FR (50) (optional) OR AMR HR (72) (optional) AMR FR (50) (optional) OR AMR HR (72) (optional) AMR HR (72) (optional)AMR HR (72) (optional)AMR HR (72) (optional)AMR HR (72) (optional)AMR HR (72) (optional)AMR HR (72) (optional)AMR HR (72) (optional) AMR HR (72) (optional) AMR HR (72) (optional) AMR HR (72) (optional) AMR HR (72) (optional) AMR HR (72) (optional) AMR HR (72) (optional) AMR HR (72) (optional) AMR HR (72) (optional) AMR HR (72) (optional) AMR HR (72) (optional) OR AMR FR (50) (optional) AMR HR (72) (optional) OR AMR FR (50) (optional) BSS20048: Separate radio link timeout parameters for AMR and EFR (standard) AMR HR (72) (optional) OR Half Rate (17) (optional) AMR HR (72) (optional) OR Half Rate (17) (optional)

Antenna Hopping Usage (62) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional)

BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) AND ( Half Rate (17) (optional) OR AMR HR (72) (optional) ) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) AND Enhanced GPRS (EGPRS) Usage (51) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) AND Enhanced GPRS (EGPRS) Usage (51) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS11088: Coding Schemes CS-3 and CS-4 (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS11088: Coding Schemes CS-3 and CS-4 (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS11088: Coding Schemes CS-3 and CS-4 (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS11088: Coding Schemes CS-3 and CS-4 (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS11088: Coding Schemes CS-3 and CS-4 (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS11110: Gb Over IP (IPV4 & IPV6) / DX PART (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20062: (E)GPRS Inactivity Alarm / DX-part (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20062: (E)GPRS Inactivity Alarm / DX-part (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20062: (E)GPRS Inactivity Alarm / DX-part (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20062: (E)GPRS Inactivity Alarm / DX-part (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20062: (E)GPRS Inactivity Alarm / DX-part (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20062: (E)GPRS Inactivity Alarm / DX-part (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20062: (E)GPRS Inactivity Alarm / DX-part (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20062: (E)GPRS Inactivity Alarm / DX-part (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) BSR Support In BSC (79) (optional) BSS20002: Cingular 38 RxLev Min Access (standard) BSS20012/BSS20699: File Based RNW Plan Provisioning (standard) BSS20012/BSS20699: File Based RNW Plan Provisioning (standard) BSS20012/BSS20699: File Based RNW Plan Provisioning (standard) BSS20117: TCSM3i Support in BSC (standard) BSS20117: TCSM3i Support in BSC (standard)

BSS20117: TCSM3i Support in BSC (standard) BSS20211: Disabling PC and HO for E911/UTDOA (standard) C/I Based Handover Candidate Evaluation (18) (optional) C/I Based Handover Candidate Evaluation (18) (optional) C/I Based Handover Candidate Evaluation (18) (optional) C/I Based Handover Candidate Evaluation (18) (optional) C/I Based Handover Candidate Evaluation (18) (optional) C/I Based Handover Candidate Evaluation (18) (optional) C2 Cell Reselection (3) (optional) C2 Cell Reselection (3) (optional) C2 Cell Reselection (3) (optional) C2 Cell Reselection (3) (optional) C2 Cell Reselection (3) (optional) Chained Cells In Rapid Field Drop (9) (optional) Chained Cells In Rapid Field Drop (9) (optional) Chained Cells In Rapid Field Drop (9) (optional) Chained Cells In Rapid Field Drop (9) (optional) Chained Cells In Rapid Field Drop (9) (optional) Chained Cells In Rapid Field Drop (9) (optional) Chained Cells In Rapid Field Drop (9) (optional) Coding Schemes CS-3 And CS-4 (83) (optional) AND BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS11088: Coding Schemes CS-3 and CS-4 (standard) Common BCCH EGSM900 (47) (optional) OR Common BCCH GSM1800 (48) (optional) OR Multi BCF Control (42) (optional) OR Common BCCH GSM800 (57) (optional) OR Common BCommon BCCH GSM900 (46) (optional) OR Common BCCH EGSM900 (47) (optional) OR Common BCCH GSM1800 (48) (optional) OR Common BCCH GSM1900 (58) (optional) OR CCommon BCCH GSM900 (46) (optional) OR Common BCCH EGSM900 (47) (optional) OR Common BCCH GSM1800 (48) (optional) OR Common BCCH GSM800 (57) (optional) OR CoCommon BCCH GSM900 (46) (optional) OR Common BCCH EGSM900 (47) (optional) OR Common BCCH GSM1800 (48) (optional) OR Common BCCH GSM800 (57) (optional) OR CoCommon BCCH GSM900 (46) (optional) OR Common BCCH EGSM900 (47) (optional) OR Common BCCH GSM1800 (48) (optional) OR Common BCCH GSM800 (57) (optional) OR CoDFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) AND ( Data 144 Usage (69) (optional) OR High Speed Circuit Switched Data (HSCSD - TCSM2) (25) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) AND ( Half Rate (17) (optional) OR AMR HR (72) (optional) ) BSS11052: Dynamic Frequency and Channel AllocDFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) AND ( Half Rate (17) (optional) OR AMR HR (72) (optional) ) BSS11052: Dynamic Frequency and Channel AllocDFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) AND ( High Speed Circuit Switched Data (HSCSD - TCSM2) (25) (optional) OR Data 144 Usage (69) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) AND AMR FR (50) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) AND AMR FR (50) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) AND AMR HR (72) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) AND AMR HR (72) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) AND AMR HR (72) (optional) BSS11052: Dynamic Frequency and Channel Allocation (standard) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) AND Half Rate (17) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) AND Half Rate (17) (optional) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) AND Single Antenna Interference Cancellation (SAIC) (92) (optional) BSS20082: Single Antenna Interference CDFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) BSS11052: Dynamic Frequency and Channel Allocation (standard) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) BSS11052: Dynamic Frequency and Channel Allocation (standard) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) BSS11052: Dynamic Frequency and Channel Allocation (standard) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) BSS20118: BSC3i 1000/2000 (standard) DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) OR Double BCCH Allocation List (0) (optional) Direct Access To Desired Layer/Band (35) (optional) Direct Access To Desired Layer/Band (35) (optional) AND ( AMR FR (50) (optional) OR AMR HR (72) (optional) ) Directed Retry (1) (optional) Directed Retry (1) (optional) OR Intelligent Directed Retry (IDR) (20) (optional)

Directed Retry (1) (optional) OR Intelligent Directed Retry (IDR) (20) (optional) Directed Retry (1) (optional) OR Intelligent Directed Retry (IDR) (20) (optional) Double BCCH Allocation List (0) (optional) Double BCCH Allocation List (0) (optional) OR DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) Dual Band GSM/DCS (16) (optional) OR GSM800-1900 Usage (59) (optional) OR GSM800-1800 Usage (60) (optional) Dual Band GSM/DCS (16) (optional) OR GSM800-1900 Usage (59) (optional) OR GSM800-1800 Usage (60) (optional) Dual Transfer Mode and Statistics (DTM) (91) (optional) BSS20088: Dual Transfer Mode DX O&M and Statistics (standard) Dual Transfer Mode and Statistics (DTM) (91) (optional) BSS20088: Dual Transfer Mode DX O&M and Statistics (standard) Dual Transfer Mode and Statistics (DTM) (91) (optional) BSS20088: Dual Transfer Mode DX O&M and Statistics (standard) Dual Transfer Mode and Statistics (DTM) (91) (optional) BSS20088: Dual Transfer Mode DX O&M and Statistics (standard) Dual Transfer Mode and Statistics (DTM) (91) (optional) BSS20088: Dual Transfer Mode DX O&M and Statistics (standard) Dynamic Abis (54) (optional) AND ( Enhanced GPRS (EGPRS) Usage (51) (optional) OR Coding Schemes CS-3 And CS-4 (83) (optional) ) BSS11088: Coding Schemes CS-3 and CS-4 Enhanced Full Rate Codec (24) (optional) OR AMR HR (72) (optional) OR Half Rate (17) (optional) Enhanced GPRS (EGPRS) Usage (51) (optional) AND BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) Enhanced Rapid Field Drop (28) (optional) Enhanced Rapid Field Drop (28) (optional) Enhanced Rapid Field Drop (28) (optional) Enhanced Rapid Field Drop (28) (optional) Extended Cell For GPRS/EDGE (103) (optional)Extended Cell For GPRS/EDGE (103) (optional)

Extended Cell For GPRS/EDGE (103) AND Enhanced GPRS (EGPRS) Usage (51) (optional)Extended Cell For GPRS/EDGE (103) AND Enhanced GPRS (EGPRS) Usage (51) (optional)Extended Cell For US (88) (optional) OR Extended Cell Radius (10) (optional) Extended Cell For US (88) (optional) OR Extended Cell Radius (10) (optional) Extended Cell For US (88) (optional) OR Extended Cell Radius (10) (optional) Extended Cell Radius (10) (optional) OR Extended Cell For US (88) (optional) Extended cell for GPSR ()Extended Cell Radius (10) (optional) OR Extended Cell For US (88) (optional) OR extended GPRS cellFACCH Call Setup Due To SDCCH Congestion (4) (optional) FACCH Call Setup Due To SDCCH Congestion (4) (optional) FACCH Call Setup Due To SDCCH Congestion (4) (optional) Fast Moving MS Handling In Macro Cell (15) (optional) Fast Moving MS Handling In Macro Cell (15) (optional) Fast Moving MS Handling In Macro Cell (15) (optional) Fast Moving MS Handling In Macro Cell (15) (optional) Fast Moving MS Handling In Macro Cell (15) (optional) Fast Moving MS Handling In Macro Cell (15) (optional) Fast Moving MS Handling In Macro Cell (15) (optional) Fast Moving MS Handling In Macro Cell (15) (optional) FER Measurement (44) (optional) Flexible MAIO Management (31) (optional) Frequency hoppingGb Over IP (82) (optional) Gb Over IP (82) (optional) Half Rate (17) (optional) Half Rate (17) (optional) AND DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) BSS11052: Dynamic Frequency and Channel Allocation (standard) Half Rate (17) (optional) OR AMR HR (72) (optional) Half Rate (17) (optional) OR AMR HR (72) (optional) Half Rate (17) (optional) OR AMR HR (72) (optional) Half Rate (17) (optional) OR Enhanced Full Rate Codec (24) (optional) OR AMR HR (72) (optional) OR AMR FR (50) (optional) Handover Support For Intelligent Coverage Enhancement (ICE) (30) (optional) Handover Support For Intelligent Coverage Enhancement (ICE) (30) (optional) Handover Support For Intelligent Coverage Enhancement (ICE) (30) (optional) Handover Support For Intelligent Coverage Enhancement (ICE) (30) (optional) Handover Support For Intelligent Coverage Enhancement (ICE) (30) (optional)

Extended Cell For GPRS/EDGE (103) AND ( BSC GPRS Param Enabled (GPRS O&M in BSC) (39) OR Enhanced GPRS (EGPRS) Usage (51) ) (optional)Extended Cell For GPRS/EDGE (103) AND ( BSC GPRS Param Enabled (GPRS O&M in BSC) (39) OR Enhanced GPRS (EGPRS) Usage (51) ) (optional)Extended Cell For GPRS/EDGE (103) AND ( BSC GPRS Param Enabled (GPRS O&M in BSC) (39) OR Enhanced GPRS (EGPRS) Usage (51) ) (optional)Extended Cell For GPRS/EDGE (103) AND ( Enhanced GPRS (EGPRS) Usage (51) OR BSC GPRS Param Enabled (GPRS O&M in BSC) (39) ) (optional)

Handover Support For Intelligent Coverage Enhancement (ICE) (30) (optional) High Speed Circuit Switched Data (HSCSD - TCSM2) (25) (optional) High Speed Circuit Switched Data (HSCSD - TCSM2) (25) (optional) High Speed Circuit Switched Data (HSCSD - TCSM2) (25) (optional) High Speed Circuit Switched Data (HSCSD - TCSM2) (25) (optional) High Speed Circuit Switched Data (HSCSD - TCSM2) (25) (optional) High Speed Circuit Switched Data (HSCSD - TCSM2) (25) (optional) High Speed Circuit Switched Data (HSCSD - TCSM2) (25) (optional) High Speed Circuit Switched Data (HSCSD - TCSM2) (25) (optional) High Speed Circuit Switched Data (HSCSD - TCSM2) (25) (optional) OR Data 144 Usage (69) (optional) IBHO (IMSI Based Handover) in BSC (80) (optional) BSS12158: IMSI Based Handover (standard) IBHO (IMSI Based Handover) in BSC (80) (optional) BSS12158: IMSI Based Handover (standard) Improved Trunk Reservation (19) (optional) Improved Trunk Reservation (19) (optional) Improved Trunk Reservation (19) (optional) Improved Trunk Reservation (19) (optional) Improved Trunk Reservation (19) (optional) Improved Trunk Reservation (19) (optional) Improved Trunk Reservation (19) (optional) Intelligent Directed Retry (IDR) (20) (optional) Intelligent Directed Retry (IDR) (20) (optional) OR Directed Retry (1) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) Intelligent Underlay Overlay (14) (optional) AND Directed Retry (1) (optional) Intelligent Underlay Overlay (14) (optional) AND Intelligent Underlay Overlay (IUO) With Frequency Hopping (29) (optional) Intelligent Underlay Overlay (14) (optional) OR Handover Support For Intelligent Coverage Enhancement (ICE) (30) (optional) Intelligent Underlay Overlay (14) (optional) OR Handover Support For Intelligent Coverage Enhancement (ICE) (30) (optional) Intelligent Underlay Overlay (14) (optional) OR Handover Support For Intelligent Coverage Enhancement (ICE) (30) (optional) Intelligent Underlay Overlay (14) (optional) OR Handover Support For Intelligent Coverage Enhancement (ICE) (30) (optional) Intelligent Underlay Overlay (14) (optional) OR Handover Support For Intelligent Coverage Enhancement (ICE) (30) (optional) Intelligent Underlay Overlay (14) (optional) OR Handover Support For Intelligent Coverage Enhancement (ICE) (30) (optional) Intelligent Underlay Overlay (IUO) With Frequency Hopping (29) (optional) AND ( Intelligent Underlay Overlay (14) (optional) OR Handover Support For Intelligent Coverage Enhancement (Intelligent Underlay Overlay (IUO) With Frequency Hopping (29) (optional) AND ( Intelligent Underlay Overlay (14) (optional) OR Handover Support For Intelligent Coverage Enhancement (Intelligent Underlay Overlay (IUO) With Frequency Hopping (29) (optional) AND ( Intelligent Underlay Overlay (14) (optional) OR Handover Support For Intelligent Coverage EnhancemenIntelligent Underlay Overlay (IUO) With Frequency Hopping (29) (optional) AND Flexible MAIO Management (31) (optional) AND ( Intelligent Underlay Overlay (14) (optional) OR HandoverInter System HO (ISHO Support In BSC) (56) (optional)Inter System HO (ISHO Support In BSC) (56) (optional)Inter System HO (ISHO Support In BSC) (56) (optional) Inter System HO (ISHO Support In BSC) (56) (optional) Inter System HO (ISHO Support In BSC) (56) (optional)

Inter System HO (ISHO Support In BSC) (56) (optional) Inter System HO (ISHO Support In BSC) (56) (optional) Inter System HO (ISHO Support In BSC) (56) (optional) Inter System HO (ISHO Support In BSC) (56) (optional) Inter System HO (ISHO Support In BSC) (56) (optional) Inter System HO (ISHO Support In BSC) (56) (optional) Inter System HO (ISHO Support In BSC) (56) (optional) Inter System HO (ISHO Support In BSC) (56) (optional) Inter System HO (ISHO Support In BSC) (56) (optional) Inter System HO (ISHO Support In BSC) (56) (optional) Inter System HO (ISHO Support In BSC) (56) (optional) Inter System HO (ISHO Support In BSC) (56) (optional) Inter System HO (ISHO Support In BSC) (56) (optional) Inter System HO (ISHO Support In BSC) (56) (optional) AND BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) Inter System HO (ISHO Support In BSC) (56) (optional) AND IBHO (IMSI Based Handover) in BSC (80) (optional) BSS12158: IMSI Based Handover (standard) Inter System HO (ISHO Support In BSC) (56) (optional) AND IBHO (IMSI Based Handover) in BSC (80) (optional) BSS12158: IMSI Based Handover (standard) Inter System HO (ISHO Support In BSC) (56) (optional) AND NC Cell Re-selection (85) (optional) AND ISNCCR Usage (86) (optional) BSS11112: Network Controlled Cell Re-selection (sInter System HO (ISHO Support In BSC) (56) (optional) AND NC Cell Re-selection (85) (optional) AND ISNCCR Usage (86) (optional) BSS11112: Network Controlled Cell Re-selection (sInter System HO (ISHO Support In BSC) (56) (optional) BSS20088: Dual Transfer Mode DX O&M and Statistics (standard) Inter System HO (ISHO Support In BSC) (56) (optional) OR TD-SCDMA Interworking, Idle Mode (113) (optional) Inter System HO (ISHO Support In BSC) (56) (optional) OR TD-SCDMA Interworking, Idle Mode (113) (optional) Inter System HO (ISHO Support In BSC) (56) (optional) OR TD-SCDMA Interworking, Idle Mode (113) (optional) Inter System HO (ISHO Support In BSC) (56) AND FDD RSCPmin Usage (104) (optional)Inter System HO (ISHO Support In BSC) (56) AND FDD RSCPmin Usage (104) (optional)Inter System HO (ISHO Support In BSC) (56) AND NC Cell Re-selection (85) AND ISNCCR Usage (86) (optional)Load based AMR packing (111) AND AMR HR (72) (optional)Load based AMR packing (111) AND AMR HR (72) (optional)Load based AMR packing (111) AND AMR HR (72) (optional)Load based AMR packing (111) AND AMR HR (72) (optional)NACC (Network Assisted Cell Change) (81) (optional) BSS11112: Network Controlled Cell Re-selection (standard) NC Cell Re-selection (85) (optional) AND BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS11112: Network Controlled Cell Re-selection (standard) BSS20394: Network NC Cell Re-selection (85) (optional) AND BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS11112: Network Controlled Cell Re-selection (standard) BSS20394: Network NC Cell Re-selection (85) (optional) AND BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS11112: Network Controlled Cell Re-selection (standard) BSS20394: Network NC Cell Re-selection (85) (optional) AND BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS11112: Network Controlled Cell Re-selection (standard) BSS20394: Network NC Cell Re-selection (85) (optional) BSS11112: Network Controlled Cell Re-selection (standard) NC Cell Re-selection (85) (optional) BSS11112: Network Controlled Cell Re-selection (standard) NC Cell Re-selection (85) (optional) BSS11112: Network Controlled Cell Re-selection (standard) NC Cell Re-selection (85) (optional) BSS11112: Network Controlled Cell Re-selection (standard) NC Cell Re-selection (85) (optional) BSS11112: Network Controlled Cell Re-selection (standard) NC Cell Re-selection (85) (optional) BSS11112: Network Controlled Cell Re-selection (standard) BSS20394: Network Controlled Cell Re-selection (standard) NC Cell Re-selection (85) (optional) BSS11112: Network Controlled Cell Re-selection (standard) BSS20394: Network Controlled Cell Re-selection (standard) NC Cell Re-selection (85) (optional) BSS11112: Network Controlled Cell Re-selection (standard) BSS20394: Network Controlled Cell Re-selection (standard) NC Cell Re-selection (85) (optional) BSS11112: Network Controlled Cell Re-selection (standard) BSS20394: Network Controlled Cell Re-selection (standard) NC Cell Re-selection (85) (optional) BSS20117: TCSM3i Support in BSC (standard) Optimization Of The MS Power Level In Handovers (13) (optional) Preempt Usage In BSC (68) (optional) Progressive AMR Power Control Algorithm (106) AND AMR FR (50) (optional)Progressive AMR Power Control Algorithm (106) AND AMR FR (50) (optional)Progressive AMR Power Control Algorithm (106) AND AMR FR (50) (optional)Progressive AMR Power Control Algorithm (106) AND AMR FR (50) (optional)Progressive AMR Power Control Algorithm (106) AND AMR FR (50) (optional)Progressive AMR Power Control Algorithm (106) AND AMR FR (50) (optional)Progressive AMR Power Control Algorithm (106) AND AMR FR (50) (optional)Progressive AMR Power Control Algorithm (106) AND AMR FR (50) (optional)Progressive AMR Power Control Algorithm (106) AND AMR FR (50) (optional)Progressive AMR Power Control Algorithm (106) AND AMR FR (50) (optional)Progressive AMR Power Control Algorithm (106) AND AMR FR (50) (optional)Progressive AMR Power Control Algorithm (106) AND AMR FR (50) (optional)

Progressive AMR Power Control Algorithm (106) AND AMR FR (50) (optional)Progressive AMR Power Control Algorithm (106) AND AMR FR (50) (optional)Progressive AMR Power Control Algorithm (106) AND AMR FR (50) (optional)Progressive AMR Power Control Algorithm (106) AND AMR FR (50) (optional)Progressive AMR Power Control Algorithm (106) AND AMR HR (72) (optional)Progressive AMR Power Control Algorithm (106) AND AMR HR (72) (optional)Progressive AMR Power Control Algorithm (106) AND AMR HR (72) (optional)Progressive AMR Power Control Algorithm (106) AND AMR HR (72) (optional)Progressive AMR Power Control Algorithm (106) AND AMR HR (72) (optional)Progressive AMR Power Control Algorithm (106) AND AMR HR (72) (optional)Progressive AMR Power Control Algorithm (106) AND AMR HR (72) (optional)Progressive AMR Power Control Algorithm (106) AND AMR HR (72) (optional)Progressive AMR Power Control Algorithm (106) AND AMR HR (72) (optional)Progressive AMR Power Control Algorithm (106) AND AMR HR (72) (optional)Progressive AMR Power Control Algorithm (106) AND AMR HR (72) (optional)Progressive AMR Power Control Algorithm (106) AND AMR HR (72) (optional)Progressive AMR Power Control Algorithm (106) AND AMR HR (72) (optional)Progressive AMR Power Control Algorithm (106) AND AMR HR (72) (optional)Progressive AMR Power Control Algorithm (106) AND AMR HR (72) (optional)Progressive AMR Power Control Algorithm (106) AND AMR HR (72) (optional)Remote Degration Of BTS Service Under TRX Shutdown (2) (optional) OR BTS Metro Site Batbu Pr (73) (optional) OR BTS Ultra Site Batbu Pr (74) (optional) Remote Interrogation of Serial and Version Numbers (6) (optional) SDCCH Handover (5) (optional) Segment Usage (45) (optional) Segment Usage (45) (optional) Segment Usage (45) (optional) BSS20118: BSC3i 1000/2000 (standard) ST-IRC licence (99) (optional) BSS20494: ST-IRC Licensing feature (standard) BSS20063: ST-IRC feature (standard) Support For Enhanced Measurement Report (EMR) (67) (optional) Support For Enhanced Measurement Report (EMR) (67) (optional) Support For Enhanced Measurement Report (EMR) (67) (optional) OR NC Cell Re-selection (85) (optional) Support For Enhanced Measurement Report (EMR) (67) (optional) OR NC Cell Re-selection (85) (optional) Support For Enhanced Measurement Report (EMR) (67) (optional) OR NC Cell Re-selection (85) (optional) Support For Enhanced Measurement Report (EMR) (67) (optional) OR NC Cell Re-selection (85) (optional) Support For Enhanced Measurement Report (EMR) (67) (optional) OR NC Cell Re-selection (85) (optional) Support For Enhanced Measurement Report (EMR) (67) (optional) OR NC Cell Re-selection (85) (optional) Support For Enhanced Measurement Report (EMR) (67) (optional) OR NC Cell Re-selection (85) (optional) Support For Enhanced Measurement Report (EMR) (67) (optional) OR NC Cell Re-selection (85) (optional) Support For Enhanced Measurement Report (EMR) (67) (optional) OR NC Cell Re-selection (85) (optional) Support For Enhanced Measurement Report (EMR) (67) (optional) OR NC Cell Re-selection (85) (optional) Support For Enhanced Measurement Report (EMR) (67) (optional) OR NC Cell Re-selection (85) (optional) Support For Enhanced Measurement Report (EMR) (67) (optional) OR NC Cell Re-selection (85) (optional) Wireless Priority Service (WPS) In Use In BSC (71) (optional) Wireless Priority Service (WPS) In Use In BSC (71) (optional) Wireless Priority Service (WPS) In Use In BSC (71) (optional) Wireless Priority Service (WPS) In Use In BSC (71) (optional) Wireless Priority Service (WPS) In Use In BSC (71) (optional) BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional)

Intelligent Directed Retry (IDR) (20)Chained Cells In Rapid Field Drop (9)

AMR FR (50)AMR HR (72)

Related features MMLEAC, EAD, EAO, EAMEAC, EAD, EAM, EAX, EAO, EAPEAM, EAOEAM, EAOEAM, EAOEAC, EAM, EAO, EAPEAC, EAM, EAO, EAPEAC, EAM, EAO, EAPEAM, EAOEAC, EAM, EAOEAC, EAM, EAOEAC, EAM, EAOEAC, EAM, EAOEAC, EAM, EAOEAC, EAM, EAOEAC, EAD, EAO, EAMEAC, EAD, EAM, EAX, EAO, EAT, EAPEAC, EAD, EAM, EAX, EAO, EAT, EAPEAC, EAM, EAOEAC, EAM, EAOEAC, EAM, EAOEAC, EAM, EAOEAC, EAM, EAOEEQ. EEOEEQ. EEOEEQ, EEOEEN, EEOEEN, EEOEEN, EEOEEN, EEOEEN, EEOEEN, EEOEEN, EEOEEQ, EEOEEM, EEOEEM, EEOEEQ, EEOEEQ, EEOEEM, EEOEEM, EEOEEM, EEOEEM, EEOEEM, EEOEEQ, EEOEEM, EEOEEN, EEOEEN, EEOEEN, EEOEEN, EEOEEN, EEOEEN, EEOEEN, EEOEEN, EEOEEN, EEOEEM, EEOEEQ, EEOEEM. EEO

EEQ, EEOEEQ, EEOEEQ, EEOEEN, EEOEEM, EEOEEQ, EEOEEQ, EEOEEQ, EEOEQJ, EQOEQK, EQOEAM, EAOEAM, EAOEQC, EQE, EQO, EFO, EEIESD, ESOEQM, EQOEQM, EQOEQM, EQOEQC, EQE, EQOEQK, EQOEQF, EQOEQF, EQOEQM, EQOEQG, EQOEQC, EQE, EQO, EEIEQM, EQOEQM, EQOEQM, EQOEQF, EQOEQC, EQE, EQO, EFOEQC, EQE, EQO, EFOEQC, EQE, EQO, EEIEQA, EQO, EFOEQM, EQOEQM,EQOEQH, EQOEQC, EQE, EQOEQM, EQOEQH, EQOEQG, EQOEQG, EQOEAC, EAM, EAOEAC, EAM, EAOEQM, EQOEQM, EQOEQF, EQOEQJ, EQOEQJ, EQOEQM, EQOEQF, EQOEQG, EQOEQH, EQOEQH, EQOEQH, EQOEQH, EQOEQG, EQOEQM, EQOEQG, EQOEQM, EQO

EQH, EQOEQH, EQOEQJ, EQOEEM, EEOEQM, EQOEQM, EQOEHC, EHN, EHOEHC, EHN, EHOEHC, EHG, EHOEHC, EHG, EHOEHC, EHG, EHOEHC, EHG, EHOEHC, EHG, EHO-EHC, EHG, EHOEHC, EHG, EHOEHC, EHG, EHOEHC, EHG, EHOEHC, EHG, EHOEHC, EHG, EHOESD, ESOEHA, EHC, EHOEHA, EHC, EHOEHA, EHC, EHOEHA, EHC, EHOEHC, EHG, EHOEHC, EHG, EHOEHC, EHD, EHOEHC, EHD, EHOEHC, EHD, EHOEHC, EHD, EHOEHC, EHN, EHOEHA, EHC, EHOEHA, EHC, EHOEHA, EHC, EHOEHA, EHC, EHOEHC, EHI, EHOEHC, EHI, EHOEHC, EHI, EHOEHC, EHI, EHOEHC, EHI, EHOEHC, EHI, EHOEHC, EHO, EHSEHC, EHO, EHSEHC, EHO, EHSEHC, EHO, EHSEHC, EHO, EHSEHC, EHO, EHSEHC, EHO, EHQEHC, EHO, EHQEHC, EHO, EHQEHC, EHO, EHQEHC, EHO, EHQEHC, EHO, EHQEUC, EUG, EUOEUC, EUG, EUOEUC,EUG,EUOEUC, EUG, EUO

EUC, EUG, EUOEUA, EUC, EUOEUA, EUC, EUOEUA, EUC, EUOEUA, EUC, EUOEUA, EUC, EUOEUA, EUC, EUOEUA, EUC, EUOEUA, EUC, EUOEUC, EUO, EUSEUC, EUO, EUSEUC, EUO, EUSEUC, EUO, EUSEUC, EUO, EUSEUC, EUO, EUSEUC, EUO, EUQEUC, EUO, EUQEUC, EUO, EUQEUC, EUO, EUQEUC, EUO, EUQEUC, EUO, EUQEUC, EUQ, EUOEUC, EUQ, EUOEUC, EUQ, EUOEUC, EUO, EUSEUC, EUO, EUSEUC, EUO, EUSEUC, EUO, EUSEUC, EUO, EUSEUC, EUO, EUSEUC, EUO, EUQEUC, EUO, EUQEUC, EUO, EUQEUC, EUO, EUQEUC, EUO, EUQEUC, EUO, EUQEUC, EUG, EUOEUC, EUG, EUOEUC, EUG, EUOEUC, EUG, EUOEUC, EUG, EUOEUC, EUG, EUOEUC, EUG, EUOEUC, EUG, EUOEUC, EUG, EUOESD, ESOEFO, EFS, EEIERM, ERO

0ERM, EROERO, ERSERCERC, ERM, ERO, EEIERC, ERM, ERO, EEIERC, ERM, EROERC, ERM, EROERM, ERO, ERCERC, ERO

ESD, ESOERC, ERM, EROEFCEEM, EEOEEM, EEOEEM, EEOEEM, EEOEEM, EEOEEM, EEOEHC, EHG, EHOEHC, EHG, EHOEHC, EHG, EHOEQY, EQOEQY, EQOEQY, EQOEQY, EQOEQY, EQOEQY, EQOEEM, EEOEEQ, EEOEQY, EQOEQY, EQOEQY, EQOEQY, EQOEQY, EQOEQY, EQO

#N/A#N/A#N/A

EQY, EQOEUB, EUC, EUOEUB, EUC, EUOEUB, EUC, EUOEUB, EUC, EUOEHC, EHB, EHOEHC, EHB, EHOEEM, EEOEEM, EEOEQY, EQOEQY, EQOEQY, EQOEQY, EQOEQY, EQOEQY, EQOEEQ, EEOEHB, EHOEQY, EQOEQY, EQOEQY, EQOEQY, EQOEQY, EQO

#N/A#N/A#N/A

EEM, EEOAMR HR (72) (optional) OR AMR FR (50) (optional) BSS20048: Separate radio link timeout parameters for AMR and EFR (standard) EQY, EQO

EEM, EEOERC, ERM, ERO

BSS20485: Separate UL & DL MR Link Adaptation ThresholdsBSS20485: Separate UL & DL MR Link Adaptation ThresholdsBSS20485: Separate UL & DL MR Link Adaptation ThresholdsBSS20485: Separate UL & DL MR Link Adaptation ThresholdsBSS20485: Separate UL & DL MR Link Adaptation ThresholdsBSS20485: Separate UL & DL MR Link Adaptation Thresholds

BSS20485: Separate UL & DL MR Link Adaptation ThresholdsBSS20485: Separate UL & DL MR Link Adaptation ThresholdsBSS20485: Separate UL & DL MR Link Adaptation ThresholdsBSS20485: Separate UL & DL MR Link Adaptation ThresholdsBSS20485: Separate UL & DL MR Link Adaptation ThresholdsBSS20485: Separate UL & DL MR Link Adaptation Thresholds

EQE, EQOEAC, EAM, EAO

#N/AEAC, EAM, EAO, EQG, EQOEAC, EAM, EAOEAC, EAM, EAO

#N/AEAC, EAM, EAOEAC, EAM, EAOEAC, EAM, EAOEAC, EAM, EAOEAC, EAM, EAOEEM, EEOEEV, EEOEEV, EEOEEV, EEOEEM, EEOEEM, EEOEEN, EEOEEQ, EEOEEQ, EEOEEV, EEOEEV, EEOEEV, EEOEEV, EEO

#N/A#N/A#N/A

EQV, EQOEQV, EQOEQV, EQOEQV, EQOEQG, EQOEQV, EQOEQV, EQOEQV, EQO

#N/A#N/A

EAC, EAM, EAO#N/A

EAC, EAM, EAO, EQG, EQOEAC, EAM, EAOEQG, EQOEQG, EQO

#N/A#N/A

EAC, EAM, EAOEAC, EAM, EAOEQV, EQOEQV, EQOEQV, EQOEQV, EQOEQV, EQOEQV, EQOEQV, EQOFXC, FXI, FXK, FXO, EQC, EQV, EQO

#N/A#N/A

#N/AEQV, EQOEAC, EAM, EAOEQG, EQO

#N/AEQV, EQOEQV, EQOEQV, EQOEUC, EUM, EUOEUC, EUM, EUOEUC, EUM, EUOEUC, EUM, EUOEBF, EBG, EBH, EBPEBF, EBG, EBH, EBPEBF, EBG, EBH, EBPEBF, EBH, EBPEBF, EBG, EBH, EBPERM, ERO, ERCEEM, EEOEQV, EQOEUC, EUM, EUOEQV, EQOEQV, EQOEQV, EQOEQV, EQOEQV, EQOEQC, EQV, EQOEEJ, EEOEEJ, EEOEEJ, EEOEQV,EQOEQV,EQOEQV,EQOEQV,EQOEQV,EQO

BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) EEJ, EEOBSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) EEJ, EEOBSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) EEJ, EEOBSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) EEJ, EEOBSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) EEJ, EEOBSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) EEJ, EEOBSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) EEJ, EEOBSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) EEJ, EEOBSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) EEJ, EEOBSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) EEJ, EEOBSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) EEJ, EEOBSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) EEJ, EEOBSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) EEJ, EEOBSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) EEJ, EEOBSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) EEJ, EEOBSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS20089: Extended Dynamic Allocation (standard) AND BSS20084: High Multislot Classes (standard) EEJ, EEO

EUC, EUG, EUOEEQ, EEOEEEEEEEEEEEQ, EEOEEQ, EEO

EEQ, EEOEEQ, EEOEHC, EHX, EHOEHC, EHX, EHOEAX, EAOEAX, EAOEAX, EAOEAX, EAOEQM, EQOEQM, EQOEQM, EQOEQM, EQOEQM, EQOEAC, EAM, EAOEHC, EHS, EHOEHC, EHS, EHOEHC, EHS, EHOEHC, EHS, EHOEHC, EHS, EHOEHC, EHS, EHO

Coding Schemes CS-3 And CS-4 (83) (optional) AND BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS11088: Coding Schemes CS-3 and CS-4 (standard) EQV, EQOCommon BCCH EGSM900 (47) (optional) OR Common BCCH GSM1800 (48) (optional) OR Multi BCF Control (42) (optional) OR Common BCCH GSM800 (57) (optional) OR Common BEEQ, EEOCommon BCCH GSM900 (46) (optional) OR Common BCCH EGSM900 (47) (optional) OR Common BCCH GSM1800 (48) (optional) OR Common BCCH GSM1900 (58) (optional) OR CEHS, EHOCommon BCCH GSM900 (46) (optional) OR Common BCCH EGSM900 (47) (optional) OR Common BCCH GSM1800 (48) (optional) OR Common BCCH GSM800 (57) (optional) OR CoEHS, EHOCommon BCCH GSM900 (46) (optional) OR Common BCCH EGSM900 (47) (optional) OR Common BCCH GSM1800 (48) (optional) OR Common BCCH GSM800 (57) (optional) OR CoEHS, EHOCommon BCCH GSM900 (46) (optional) OR Common BCCH EGSM900 (47) (optional) OR Common BCCH GSM1800 (48) (optional) OR Common BCCH GSM800 (57) (optional) OR CoEHS, EHO

EEH, EEOEEH, EEOEEH, EEOEEH, EEOEEH, EEOEEH, EEOEEH, EEOEEH, EEOEQA, EQOEQM, EQO, EFLERC, ERM, ERO, EEI, EFL

DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) AND ( Data 144 Usage (69) (optional) OR High Speed Circuit Switched Data (HSCSD - TCSM2) (25) (optional) EEH, EEODFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) AND ( Half Rate (17) (optional) OR AMR HR (72) (optional) ) BSS11052: Dynamic Frequency and Channel AllocEQO, EQMDFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) AND ( Half Rate (17) (optional) OR AMR HR (72) (optional) ) BSS11052: Dynamic Frequency and Channel AllocEQO, EQMDFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) AND ( High Speed Circuit Switched Data (HSCSD - TCSM2) (25) (optional) OR Data 144 Usage (69) (optional) EEH, EEO

EEH, EEOEEH, EEOEEH, EEOEEH, EEO

DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) AND AMR HR (72) (optional) BSS11052: Dynamic Frequency and Channel Allocation (standard) EQO, EQMEEH, EEOEEH, EEO

DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) AND Single Antenna Interference Cancellation (SAIC) (92) (optional) BSS20082: Single Antenna Interference CEEH, EEODFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) BSS11052: Dynamic Frequency and Channel Allocation (standard) EEH, EEODFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) BSS11052: Dynamic Frequency and Channel Allocation (standard) EEH, EEODFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) BSS11052: Dynamic Frequency and Channel Allocation (standard) EQO

EQA, EQOEQB, EQOEAC, EAM, EAOEAC, EAM, EAOEQF, EQOEQF, EQO

EQF, EQOEQF, EQOEBC, EBOEQB, EQOEQF, EQOEQM, EQOEAC, EAM, EAOEAC, EAM, EAOEEJ, EEOEEJ, EEOEAC, EAM, EAO

Dynamic Abis (54) (optional) AND ( Enhanced GPRS (EGPRS) Usage (51) (optional) OR Coding Schemes CS-3 And CS-4 (83) (optional) ) BSS11088: Coding Schemes CS-3 and CS-4 ERC, ERM, EROEQM, EQOEQV, EQOEHC, EHS, EHOEHC, EHS, EHOEHC, EHS, EHOEHC, EHS, EHO

BSS20094: Extended Cell for GPRS/EDGE EQV, EQOBSS20094: Extended Cell for GPRS/EDGE EQV, EQOBSS20094: Extended Cell for GPRS/EDGE EQV, EQOBSS20094: Extended Cell for GPRS/EDGE EQV, EQOBSS20094: Extended Cell for GPRS/EDGE EQV, EQOBSS20094: Extended Cell for GPRS/EDGE EQV, EQOBSS20094: Extended Cell for GPRS/EDGE EQV, EQOBSS20094: Extended Cell for GPRS/EDGE EQV, EQO

EAC, EAM, EAO, EATEHC, EHD, EHOEHC, EHD, EHOERC, ERM, ERO, EEIEQM, EQOEEM, EEOEEM, EEOEEM, EEOEAC, EAM, EAOEAC, EAM, EAOEHC, EHP, EHOEHC, EHA, EHOEHC, EHP, EHOEHC, EHP, EHOEHC, EHP, EHOEHC, EHP, EHOEEQ, EEOEQA, EQO, EFOEQC, EQE, EQO, EFO, EEIEQC, EQV, EQOFXI, FXLEEQ, EEO

Half Rate (17) (optional) AND DFCA (Dynamic Frequency And Channel Allocation) Usage (70) (optional) BSS11052: Dynamic Frequency and Channel Allocation (standard) EQO, EQMEEM, EEOEQM, EQOEQM, EQOEEM, EEOEHC, EHY, EHOEHC, EHY, EHOEHC, EHY, EHOEHC, EHY, EHOEHC, EHY, EHO

EHC, EHY, EHOEQX, EQOEQX, EQOEQX, EQOEQX, EQOEQX, EQOEQX, EQOEQX, EQOEQX, EQOEEQ, EEOEEQ, EEOEQM, EQOEET, EEIEQT, EQO, ETOEQT, EQOEQT, EQOEQT, EQOEQT, EQO, ETOEQT, EQOEQF, EQOEAC, EAM, EAOEHC, EHY, EHOEHC, EHY, EHOEHC, EHY, EHOEHC, EHY, EHOEHC, EHY, EHOEHC, EHY, EHOEHC, EHY, EHOEHC, EHY, EHOEHC, EHY, EHOEHC, EHY, EHOEHC, EHY, EHOEHC, EHY, EHOERY, EROERY, EROERY, EROERY, EROERY, EROERY, EROERY, EROERY, EROEHC, EHY, EHOEQC, EQE, EQO, EFOEQA, EQO, EFO, EBI, EROEHC, EHY, EHOERM, EROERM, EROERC, ERM, EROERC, ERM, ERO, EEI

Intelligent Underlay Overlay (IUO) With Frequency Hopping (29) (optional) AND ( Intelligent Underlay Overlay (14) (optional) OR Handover Support For Intelligent Coverage Enhancement (EQC, EQE, EQO, EFOIntelligent Underlay Overlay (IUO) With Frequency Hopping (29) (optional) AND ( Intelligent Underlay Overlay (14) (optional) OR Handover Support For Intelligent Coverage Enhancement (EQA, EQO, EFOIntelligent Underlay Overlay (IUO) With Frequency Hopping (29) (optional) AND ( Intelligent Underlay Overlay (14) (optional) OR Handover Support For Intelligent Coverage EnhancemenEQA, EQO, EFO, EBI, EROIntelligent Underlay Overlay (IUO) With Frequency Hopping (29) (optional) AND Flexible MAIO Management (31) (optional) AND ( Intelligent Underlay Overlay (14) (optional) OR HandoverEQA, EQO, EFO

EAE, EAH, EAIEAE, EAH, EAIEEM, EEOEEM, EEOEEM, EEO

#N/AEQM, EQOEHN,EHOEHN,EHOEHC,EHN,EHOEHN,EHOEHC, EHY, EHOEHN,EHOEHN,EHOEHN,EHOEHN,EHOEHC,EHN,EHOEHC,EHN,EHO

#N/AInter System HO (ISHO Support In BSC) (56) (optional) AND IBHO (IMSI Based Handover) in BSC (80) (optional) BSS12158: IMSI Based Handover (standard) EEQ, EEOInter System HO (ISHO Support In BSC) (56) (optional) AND IBHO (IMSI Based Handover) in BSC (80) (optional) BSS12158: IMSI Based Handover (standard) EQM, EQOInter System HO (ISHO Support In BSC) (56) (optional) AND NC Cell Re-selection (85) (optional) AND ISNCCR Usage (86) (optional) BSS11112: Network Controlled Cell Re-selection (sEEM, EEOInter System HO (ISHO Support In BSC) (56) (optional) AND NC Cell Re-selection (85) (optional) AND ISNCCR Usage (86) (optional) BSS11112: Network Controlled Cell Re-selection (sEEM, EEO

EEJ, EEOEQM, EQOEQM, EQOEQM, EQOEQM, EQOEQM, EQOEAE, EAH, EAI

BSS21154: Load based AMR packing EEM, EEOBSS21154: Load based AMR packing EEM, EEOBSS21154: Load based AMR packing EQM, EQOBSS21154: Load based AMR packing EQM, EQO

EEM, EEONC Cell Re-selection (85) (optional) AND BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS11112: Network Controlled Cell Re-selection (standard) BSS20394: Network EQN, EQONC Cell Re-selection (85) (optional) AND BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS11112: Network Controlled Cell Re-selection (standard) BSS20394: Network EQN, EQONC Cell Re-selection (85) (optional) AND BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS11112: Network Controlled Cell Re-selection (standard) BSS20394: Network EQN, EQONC Cell Re-selection (85) (optional) AND BSC GPRS Param Enabled (GPRS O&M in BSC) (39) (optional) BSS11112: Network Controlled Cell Re-selection (standard) BSS20394: Network EQN, EQO

EEM, EEOEEM, EEOEEM, EEOEEM, EEOEEM, EEO

NC Cell Re-selection (85) (optional) BSS11112: Network Controlled Cell Re-selection (standard) BSS20394: Network Controlled Cell Re-selection (standard) EAC, EAM, EAONC Cell Re-selection (85) (optional) BSS11112: Network Controlled Cell Re-selection (standard) BSS20394: Network Controlled Cell Re-selection (standard) EAC, EAM, EAONC Cell Re-selection (85) (optional) BSS11112: Network Controlled Cell Re-selection (standard) BSS20394: Network Controlled Cell Re-selection (standard) EAC, EAM, EAONC Cell Re-selection (85) (optional) BSS11112: Network Controlled Cell Re-selection (standard) BSS20394: Network Controlled Cell Re-selection (standard) EAC, EAM, EAO

EEM, EEOEAC, EAM, EAOEEQ, EEO

BSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEO

BSS20477: CPICH RSCP based criterion for 2G to 3G cell reselectionBSS20477: CPICH RSCP based criterion for 2G to 3G cell reselectionBSS11112: Network Controlled Cell Re-selection, BSS20394: Network Controlled Cell Re-selection

BSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEOBSS20776: Progressive AMR Power Control EEX, EEO

Remote Degration Of BTS Service Under TRX Shutdown (2) (optional) OR BTS Metro Site Batbu Pr (73) (optional) OR BTS Ultra Site Batbu Pr (74) (optional) EEM, EEOERT,EROEHC, EHG, EHOEQM, EQOMany commandsMany commands.EQM, EQOEHC,EHN,EHOEHC,EHN,EHOEQM, EQOEHC,EHN,EHOEHC,EHN,EHOEHC,EHN,EHOEHC,EHN,EHOEHC,EHN,EHOEHC,EHN,EHOEHC,EHN,EHOEHC,EHN,EHOEHC,EHN,EHOEHC,EHN,EHOEHC,EHN,EHOEEQ,EEOEEQ,EEOEEQ,EEOEEQ,EEOEEQ,EEO

#N/A#N/A#N/A#N/A#N/A#N/A#N/A#N/A#N/A#N/A#N/A#N/A

#N/A#N/A#N/A

BSS20924: BSC Support for LAPDm T200 Setting EFC, EFM, EFOBSS20924: BSC Support for LAPDm T200 Setting EFC, EFM, EFO

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S13+Parameters+for+NPO