3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3. 8 3.9 3.10 3.11 3.12 3.13 3.14 3.15 3.16 3.17 3.18 3.19 3.20 3.21 3.22 3.23 3.24 3.25 3.26 3.27 3.28 3.29 3.30 3.31 3.32 3.33 3.34 3.35 3.36 3.37 3.38 3.39 3.40 3.41 3.42 3.43 3.44 3.45 3.46 3.47 3.48 3.49 3.50 3.51
Object Types TRUNKROUTE JUNCTROUTE LOSSROUTE CSRROUTE KRROUTE PBXSROUTE TRAFFDEST MJGROUP *** OBJ BJE ECT CTT TYP YPE E IS CA CAN NCE CELL LLE ED *** *** TSB SSD LOAS TRAFFTYPE EOS RESTART SERVICES SUBDATA TMSWITCH DIGPATH GRPSWITCH SNT NETWSYNC AMA COINBOX TRUNKSUP CP RP EMRP EM EMG DTDSUBS DTDTRUNK STUDYSET SUBSGRPTRAF SUBSGRPFEAT EAINC EAOUT SSPSTAT SS7SLTRAFF SS7TOTAL BGCFCINT BGCFCPUB BGCFCOUTW TMATRIX BSUBTYPE SS7SLMT1 SS7SLMT2 SS7PRGRP SS7TOTAL2 SS7TIMERS SS7LS CAMABT
3.52 3.52 3.53 3.54 3.55 3.56 3.57 3.58 3.59 3.60 3.61 3.62 3.63 3.64 3.65 3.66 3.67 3.68 3.69 3.70 3.71 3.72 3.73 3.74 3.75 3.76 3.77 3.78 3.79 3.80 3.81 3.82 3.83 3.84 3.85 3.86 3.87 3.88 3.89 3.90 3.91 3.92 3.93 3.94 3.95 3.96 3.97 3.98 3.99 3.100 3.101 3.102 3.103 3.104
CFC800 CFC8 00 ** OB OBJE JECT CTTY TYPE PE IS CA CANC NCEL ELLE LED D ** ** ECDET EQACCTOT ONIQUEUE ONITRUNK EMGSTAT SPSP SPHD SPDL SSPSTAT2 TCAPBAS BCROUTE SUSSAE SERVICES2 SS7GWON SS7GWONTT SS7GWLS SS7GWLSON SS7GWLSDN SS7TT CELLTCH CELLCCH NCELL TG TRXC LAPD LIBAL1ST L2STATBA L3STATBA C7SI C7MESS EXCHFAULT BASTRAFFTY HLRMAP ROAMING AUTHEN VLR CHASSIGNT HNDOVER UPDLOCAT PAGING MAPSIGIWRK SECHAND SUPPLSERV BSCSTAT SESSCF SESSSF C7SCPERF C7SCQOS C7SCSUBSYS C7SCCPUSE C7SCSIGP TCMSG
3.52 3.52 3.53 3.54 3.55 3.56 3.57 3.58 3.59 3.60 3.61 3.62 3.63 3.64 3.65 3.66 3.67 3.68 3.69 3.70 3.71 3.72 3.73 3.74 3.75 3.76 3.77 3.78 3.79 3.80 3.81 3.82 3.83 3.84 3.85 3.86 3.87 3.88 3.89 3.90 3.91 3.92 3.93 3.94 3.95 3.96 3.97 3.98 3.99 3.100 3.101 3.102 3.103 3.104
CFC800 CFC8 00 ** OB OBJE JECT CTTY TYPE PE IS CA CANC NCEL ELLE LED D ** ** ECDET EQACCTOT ONIQUEUE ONITRUNK EMGSTAT SPSP SPHD SPDL SSPSTAT2 TCAPBAS BCROUTE SUSSAE SERVICES2 SS7GWON SS7GWONTT SS7GWLS SS7GWLSON SS7GWLSDN SS7TT CELLTCH CELLCCH NCELL TG TRXC LAPD LIBAL1ST L2STATBA L3STATBA C7SI C7MESS EXCHFAULT BASTRAFFTY HLRMAP ROAMING AUTHEN VLR CHASSIGNT HNDOVER UPDLOCAT PAGING MAPSIGIWRK SECHAND SUPPLSERV BSCSTAT SESSCF SESSSF C7SCPERF C7SCQOS C7SCSUBSYS C7SCCPUSE C7SCSIGP TCMSG
3.105 3.106 3.107 3.108 3.109 3.110 3.111 3.112 3.113 3.114 3.115 3.116 3.117 3.118 3.119 3.120 3.121 3.122 3.123 3.124 3.125 3.126 3.127 3.128 3.129 3.130 3.131 3.132 3.133 3.134 3.135 3.136 3.137 3.138 3.139 3.140 3.141 3.142 3.143 3.144 3.145 3.146 3.147 3.148 3.149 3.150 3.151 3.152 3.153 3.154 3.155 3.156 3.157
TCCMP TCUSE TCABO TCREJ C7SL1 C7SL2 C7SLSET C7RTSET C7ADJSLP C7OPC C7DPC C7SIO C7OPCSIO C7DPCSIO C7ODS C7RTTOTAL DIP CBA ASDLILINK ASDLIEXCH SERVICES3 SBSQUE1 SBSQUE2 SBSQUE3 CELLSTAT EQIDCON LOCAREAST HLRSTAT NBRCELLST NBRMSCLST SHMSGSERV NCELLREL SESIWU EXMACTSUB EXMPAGRES FHC FHCHANNEL FHL GLPAGERES IS41GMSC IS41GMSCT IS41HLR IS41HLRT IS41HOFF1 IS41HOF1T IS41HOFF2 IS41HOF2T IS41VMSC IS41VMSCT LAPAGE LAPAGERES MTUPGLOBL MTUPGMSC
3.158 3.159 3.160 3.161 3.162 3.163 3.164 3.165 3.166 3.167 3.168 3.169 3.170 3.171 3.172 3.173 3.174 3.175 3.176 3.177 3.178 3.179 3.180 3.181 3.182 3.183 3.184 3.185 3.186 3.187 3.188 3.189 3.190 3.191 3.192 3.193 3.194 3.195 3.196 3.197 3.198 3.199 3.200 3.201 3.202 3.203 3.204 3.205 3.206 3.207 3.208 3.209 3.210
MTUPHLR1 MTUPHLR2 MTUPHOFF1 MTUPHOFF2 MTUPHOFF3 MTUPLOC MTUPVMSC1 MTUPVMSC2 PAPAGE PAPAGERES SPAPAGE SPAPAGRES SYSTSUB TRAFFTYPE1 BASTRAFTY1 NECELLREL CELLCCHDR CELLEVENT CELLTCHDR MOTG MOTS NCELLRXT NECELLRXT BSC TCDIA GIWUSTAT SMSGMSC HLRSUBS SMSIWMSC MTSFB ODB ODBINV PLMNSUB SSACT SSSPROC HMAPERR HMAPPRI MAUTH MLOR MMAPERR MMAPPRI MRSCELCCH MRSCELCHS MRSCELTCH MRSCELVCH MRSMSC MRSNCELL SAE C7OD C7LSSI C7OPCDS AUTH MTUPHLR3
3.211 3.212 3.213 3.214 3.215 3.216 3.217 3.218 3.219 3.220 3.221 3.222 3.223 3.224 3.225 3.226 3.227 3.228 3.229 3.230 3.231 3.232 3.233 3.234 3.235 3.236 3.237 3.238 3.239 3.240 3.241 3.242 3.243 3.244 3.245 3.246 3.247 3.248 3.249 3.250 3.251 3.252 3.253 3.254 3.255 3.256 3.257 3.258 3.259 3.260 3.261 3.262 3.263
MTUPVMSC3 MRVTOT MRVFAIL C7ODS24 PTNTCFC SUBLINES ISDNTSI AJROUTE BJROUTE DASAD L2STATPRA L3STATPRA ALLSERV CALLFSERV CAWSERV CKWSERV HOLDSERV RDTPSTN RDTISDN COPRVLRST CUGBSG ALTSERVICE TRAFFDEST1 REGSERVICE TRUNKROUT2 DIPSEC CLIPSERV CLIRSERV COLPSERV COLRSERV CUGSERV UUSSERV ISDNEBS ISDNESG CELLSDCCH RANDOMACC LATASTAT LATAMISTAT SS7SCQOS SS7SCSUBSY SS7SCCPUSE EQLACC HINTERMAP MINTERMAP MRSLA C7OPCDS24 TPLAT ASSSERV RTN CB CI NETWRK RLM
3.264 3.265 3.266 3.267 3.268 3.269 3.270 3.271 3.272 3.273 3.274 3.275 3.276 3.277 3.278 3.279 3.280 3.281 3.282 3.283 3.284 3.285 3.286 3.287 3.288 3.289 3.290 3.291 3.292 3.293 3.294 3.295 3.296 3.297 3.298 3.299 3.300 3.301 3.302 3.303 3.304 3.305 3.306 3.307 3.308 3.309 3.310 3.311 3.312 3.313 3.314 3.315 3.316
NRCSTATS WIDEBAND DISCCALL DIPPRM IRNEG CODERASGN IDLECH RNDACCEXT COMPSERV QUESERV RCSSSERV TPYSERV SCRNSERV FHLPRA SYSSUB SLOCSUB EXMSUB ELOCSUB MEXMSUB MELOCSUB VGMAPPRI VGMAPERR VVMAPPRI VVMAPERR TRANSFLNO TCAP01 SCP800 TRAFFSAE ECPOOL DTISTAT MRSCELAL TTRMSN FHLV5 SSFICCT SSFOHDCT SSFSCFT SSFMCSOHT SSFSRFT SSFMCST SSFSFT SSFCGT SSFECT SSFCHMT SSFICCI SSFICCRII SSFOHDCI SSFDPCI SSFGLTI CLSMS CLSDCCH CLSDCCHO CLTCH CLTCHF
3.317 3.318 3.319 3.320 3.321 3.322 3.323 3.324 3.325 3.326 3.327 3.328 3.329 3.330 3.331 3.332 3.333 3.334 3.335 3.336 3.337 3.338 3.339 3.340 3.341 3.342 3.343 3.344 3.345 3.346 3.347 3.348 3.349 3.350 3.351 3.352 3.353 3.354 3.355 3.356 3.357 3.358 3.359 3.360 3.361 3.362 3.363 3.364 3.365 3.366 3.367 3.368 3.369
CLTCHH CLTCHFV1 CLTCHFV2 CLTCHHV1 CLTCHDRF CLTCHDRH IDLEOTCHF IDLEOTCHH IDLEUTCHF IDLEUTCHH NECELASS NECELHO NICELASS NICELHO TRAPCOM TRAPEVENT TRASEVENT SHAM SHIST SHSCF CVTR01 CVTR02 SDFINAP HLRPERF AUCMAP AUCSUBS TRAFFMEAS CTMMAP VDBACT CTMDECT ACCESSROUT USRACCESS VCISERV MSCREG EXMSTAT IS41HLR2 IS41HLR2T IS41HOFF3 IS41HOF3T IS41VMSC2 IS41VMSCT2 WIDEBAND1 WIDEBAND2 LNPGTT1 ATERTRANS BSCMSLOT CELLCCHHO CELLCONF CLTCHFV3 CLTCHHV2 CLTCHHV3 DOWNTIME NECELHOEX
3.370 3.371 3.372 3.373 3.374 3.375 3.376 3.377 3.378 3.379 3.380 3.381 3.382 3.383 3.384 3.385 3.386 3.387 3.388 3.389 3.390 3.391 3.392 3.393 3.394 3.395 3.396 3.397 3.398 3.399 3.400 3.401 3.402 3.403 3.404 3.405 3.406 3.407 3.408 3.409 3.410 3.411 3.412 3.413 3.414 3.415 3.416 3.417 3.418 3.419 3.420 3.421 3.422
NICELHOEX PREEMP CELEVENTD CELEVENTH CELEVENTS CELEVENTI CELTCHF CELTCHH HINTSUPV HINTARIC AUTHCC MBASTRAFTY MTRAFTYPE SERVFEAT GSCF ISP LNPMAINT SDIPMS SDIPHP SDIPLP DATA EMGINTCAL AUSINTCAL L2V5CPATH L2V5PRA L3V5PRA AUS NMROUTE CELTCHFP KRQUALITY CNIPSERV VPNSERV GPRSGS REGSATPAG SGSNSTAT SGSN PDPDEF NAMSUBS MOBPOS MRSCELTLM MRSCDT HS7SL1 DYNTRUNKV DYNTRUNKH BSCGPRS CELLDUALT CELLGPRS CELLHCS CELLHSCSD CELLSQI EMGPRS LOADREG LCSSTAT
3.423 3.424 3.425 3.426 3.427 3.428 3.429 3.430 3.431 3.432 3.433 3.434 3.435 3.436 3.437 3.438 3.439 3.440 3.441 3.442 3.443 3.444 3.445 3.446 3.447 3.448 3.449 3.450 3.451 3.452 3.453 3.454 3.455 3.456 3.457 3.458 3.459 3.460 3.461 3.462 3.463 3.464 3.465 3.466 3.467 3.468 3.469 3.470 3.471 3.472 3.473 3.474 3.475
DIGS LOASMISC LOASINCO TRAFFSRF MESSFLNO MRSCELPKT MRSCLUPCH LSCC GSINTMSC AAL2PATH AUTHSUBS RNCSTAT RELOC PDCUMTSFLN ECNP NBRMSCUGHO UGHNDOVER SH2AM SH2IST SH2SCF UMTSSEC BSCPOS CELLPOS OPTFEAT DTAPLCS BSCSTAT2 GUHNDOVER PCKTDATA APPLATFORM APDISKS MTSFB3 NBRMSCGUH ISDNEBA ISDNEPRA MNPMAINT CAMEL3 CAPAGE ANSIGSMNM NRM EMWIDELIV UMTSPOS MRSCELPAG NUCELLREL TRASUBPOOL Object Type removed CELLQOSG CELLQOSEG RLINKBIT BSCQOS CCCHLOAD NBRMSCLST2 L3CCMSG SS7HSLTRAF
3.476 3.477 3.478 3.479 3.480 3.481 3.482 3.483 3.484 3.485 3.486 3.487 3.488 3.489 3.490 3.491 3.492 3.493 3.494 3.495 3.496 3.497 3.498 3.499 3.500 3.501 3.502 3.503 3.504 3.505 3.506 3.507 3.508 3.509 3.510 3.511 3.512 3.513 3.514 3.515 3.516 3.517 3.518 3.519 3.520 3.521 3.522 3.523 3.524 3.525 3.526 3.527 3.528
SS7HSLMT1 SS7HSLMT2 SS7HSLMT3 SS7HSLS SS7HSLPG1 SS7HSLPG2 Object Type removed ECNPASLR ECNPASLS ECNPERL ECNPPD M3DATA M3SSNM M3ASPSM M3ASPTM M3MGMT M3ASSOC Object Type removed M3DEST1 M3DEST2 M3PERF SCTPLM SCTPAM RSASUBS CELEVENTSC CELLPAG CLRATECHG IS41GMSCT2 SILENTRET SUCORCL BSCGPRS2 CELLGPRS2 CLTCHFV3C CLTCHHV3C CELLMSQ TRAFGPRS2 CELLFERF CELLFERH CLTCHDRAF CLTCHDRAH CELLGPRSO CELLQOSS CLQOSSCON CLQOSSCON2 DELSTRTBF GPRSGEN TRAFDLGPRS TRAFULGPRS WINVPN WINFPH WINMAC WINPPC LBSPOSREQ
3.529 3.530 3.531 3.532 3.533 3.534 3.535 3.536 3.537 3.538 3.539 3.540 3.541 3.542 3.543 3.544 3.545 3.546 3.547 3.548
OTAPACOUN Object Type removed OOBTCSTAT SHAM1 MSC CELLFLXAB CLDTMEST CLDTMPER CLDTMQOS CELLEIT CELLEIT2 CELLGPRS3 TRAFGPRS3 CHGRP0F CHGRP0H CLRXQUAL NSEPCALL TQROUTE SCTPTM PRBTCALL
CELLCCHThis Object Type is included in the following FS's approved by PC-STS - 16/155 17-ANT 240 04 Uen Rev PA11 REPLACED by another Object Type 17/155 17-ANT 240 02 Uen Rev E 17/155 17-ANT 240 03 Uen Rev A 17/155 17-ANT 240 03 Uen Rev B 17/155 17-ANT 240 03 Uen Rev C application lines:NONE Number 73 Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
Name CELLCCH Name CCALLS CCONGS CTRALCNT CNDROP CNROCNT CNUCHCNT CAVAACC CAVASCAN CMSESTAB CNSCAN CSMSDWN CSMSUP CTCONGS RAANPAG RAEMCAL RACALRE RAOSREQ RAACCFA CTRALACC
Included Changeable Nobjects No Yes 100 Type DID and DID-pos PC CELLCCHCNT.2 PC CELLCCHCNT.3 ST CELLCCHCNT.4 PC CELLCCHCNT.5 PC CELLCCHCNT.6 ST CELLCCHCNT.7 PC CELLCCHCNT.8 PC CELLCCHCNT.9 PC CELLCCHCNT.10 PC CELLCCHCNT.11 PC CELLCCHCNT.12 PC CELLCCHCNT.13 PC CELLCCHCNT.14 PC CELLCCHCNT.15 PC CELLCCHCNT.16 PC CELLCCHCNT.17 PC CELLCCHCNT.18 PC CELLCCHCNT.19 PC CELLCCHCNT.20
Traffic and event measurments
Object type = ATERTRANS (Ater Interface Transmission Devices per BSC in a TRC) Ater interface transmission devices per BSC in a TRC. The counters are defined per BSC in a TRC (see chapter 2.1.1). Type Counter name Description ID ID1 BSC pointer PC AVATERTRCDEV Available Ater interface transmission device accumulation counter PC SZATERTRCDEV Number of partly or wholly seized Ater interface transmission device accumulation counter PC SZSATERTRCDEV Number of seized Ater interface transmission subdevice accumulation counter PC ALLOCATERATP Number of allocation attempts for Ater interface transmission devices PC SALLOCATERATP Total number of allocation attempts for Ater interface transmission subdevices PC ATERCONG Number of failed allocation attempts due to Ater interface transmission congestion PC BLATERTRCDEV Number of blocked Ater interface transmission devices PC TRCNSCAN Number of accumulations
Object type = BSC (Paging and MS sessions per BSC) The counters are defined per BSC (see chapter 2.2.1). Type Counter name Description PC BSCCUMMS Cumulative number of MS sessions in the BSC ST BSCMAXMS Number of ongoing MS sessions in the BSC PC GSM1800CUMMS Cumulative number of MS sessions in the BSC in GSM 1800 system
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E ST GSM1800MAXMS Number of ongoing MS sessions in the BSC in GSM 1800 system PC GSM900CUMMS Cumulative number of MS sessions in the BSC in GSM 900 system ST GSM900MAXMS Number of ongoing MS sessions in the BSC in GSM 900 system PC TOTPAG Number of paging messages received from the MSC PC TOTCONGPAG Number of Paging messages
discarded due to congestion PC GSM400CUMMS Not valid ST GSM400MAXMS Not valid PC GSM800CUMMS Cumulative number of MS sessions in the BSC in GSM 800 system ST GSM800MAXMS Number of ongoing MS sessions in the BSC in GSM 800 system
Object type = CELEVENTH (Cell Load Sharing and Handovers due to Operation and Maintenance Intervention per Cell) Measurements for Cell Load Sharing and Handovers due to Operation and Maintenance Intervention per Cell (see chapter 2.7.1). INTERNAL INFORMATION USER GUIDE 34 (182) 3/198 17-APT 210 09 Uen 2001-12-20 C1 Nr — No. Datum —Date Rev File
E The cells are identified with the cell names. Type Counter name Description ID ID1 Global cell pointer to the serving cell PC CLSTIME Total time in seconds cell load sharing evaluations is performed in the cell PC TOTCLSTIME Total time in seconds the cell is active for cell load sharing PC HOATTLS Handover attempts due to Cell load sharing. PC HOSUCLS Successful handovers due to Cell load sharing. PC HOATTBL Handover attempts due to operation and maintenance intervention. PC HOSUCBL Successful handovers due to operation and maintenance intervention.
Object type = CELEVENTI (Intra Cell Channel Change per Cell) Intra cell handover measurements per cell (see chapter 2.8.1). The cells are identified with the cell names and one set of counters is defined for each cell. Type Counter name Description ID ID1 Global cell pointer to the serving cell PC HOINUQA Number of intra cell handover attempts at bad uplink quality. PC HOINDQA Number of intra cell handover attempts at bad downlink quality. PC HOINBQA Number of intra cell handover attempts at bad quality in both links. PC HOINSUC Number of successful intra cell
handovers. PC HOINBOCH Number of unsuccessful intra cell handover attempts, MS back on old channel.
Object type = CELEVENTS (Handover between Overlaid and Underlaid Subcells per Cell) Handover Channel Change registrations between overlaid and underlaid subcells of the same cell (see Chapter 2.9.1). The cell is identified with the cell name. Type Counter name Description ID ID1 Global cell pointer to the serving cell PC HOAATUL Handover attempts to underlaid subcell. PC HOSUCUL Number of Successful handover attempts to underlaid subcell. PC HOAATOL Handover attempts to overlaid subcell. PC HOSUCOL Number of Successful handover attempts to overlaid subcell. PC HOATTULBQ Not valid PC HOSUCULBQ Not valid PC HOATTULMAXIHO Number of handover attempts from OL to UL subcell due to MAXIHO in OL subcell. PC HOSUCULMAXIHO Number of successful handovers from OL to UL subcell due to MAXIHO in OL subcell PC HOATTOLMAXIHO Number of handover attempts from UL to OL subcell due to MAXIHO in UL subcell PC HOSUCOLMAXIHO Number of successful handovers from UL to OL subcell due to MAXIHO in UL subcell
Object type = CELLCCHDR (Dropped Connections for Control Channels per Cell) Traffic measurements for dropped connections per cell for SDCCH (see chapter 2.10.1). The counters are defined per cell for SDCCHs and the cell is identified with the cell name. Type Counter name Description PC CDISQA Dropped connections at bad quality down or up link per cell PC CDISSS1 Dropped connections for power class 1 MSs, at low signal strength down or up link. PC CDISSS2 Dropped connections for power class 2 MSs, at low signal strength down or up link. PC CDISSS3 Dropped connections for power class 3 MSs, at low signal strength down or up link. PC CDISSS4 Dropped connections for power class 4 MSs, at low signal strength down
or up link. PC CDISSS5 Dropped connections for power class 5 MSs, at low signal strength down or up link. PC CDISTA Dropped connections at excessive TA. PC CDISQASUB Dropped connections at bad quality down or up link per overlaid subcell PC CDISSS Dropped connections at low signal strength down or up link per cell. PC CDISSSSUB Dropped connections at low signal strength down or up link per overlaid subcell.
Object type = CELLCCHHO (Handovers on SDCCH per Cell) Handovers on SDCCH. The counters are defined per cell. (see chapter 2.11.1) Type Counter name Description ID ID1 Global cell pointer to the serving cell PC CCHHOCNT SDCCH handover attempts PC CCHHOSUC Successful SDCCH handover attempts. PC CCHHOTOCH SDCCH handover attempts return to old channel.
Object type = CELLCONF (Adaptive Configuration of Logical Channels per Cell) Registration of reconfiguration attempts from TCH to SDCCH, and from SDCCH to TCH per cell, (see chapter 2.12.1). The counters are defined per cell and a cell is identified with a cell name. Type Counter name Description ID ID1 Global cell pointer to the serving cell PC CONFATTC Number of all reconfiguration attempts from TCH to SDCCH PC CONFATTT Number of all reconfiguration attempts from SDCCH to TCH
Object Type = CELLGPRS (GPRS counters per cell) Registration of GPRS Measurements per Cell, (see chapter 2.14.1). Type Counter name Description
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E PC ALLPDCHACC Number of allocated PDCHs accumulator PC ALLPDCHACTACC Average number of PDCHs carrying packet traffic, per cell in the measurement period. PC ALLPDCHPEAK Maximum number of PDCHs allocated and carrying packet traffic, per cell
during the last 15 minutes PC ALLPDCHSCAN Number of accumulations of allocated PDCHs PC PAGCSBVCI Number of 08.18 PAGING CS messages to be transmitted on PCH PC PCHALLATT Number of packet channel allocation attempts PC PCHALLFAIL Number of packet channel allocation failures PC PDRAC Number of packet data random accesses PC PDPRAC Number of packet data packet random accesses PC PPAGCSBVCI Number of 08.18 PAGING CS messages to be transmitted on PPCH PC PREEMPTPDCH Total number of pre-empted PDCHs carrying packet traffic, per cell in the measurement period PC RBCDL Number of radio block messages, downlink PC RBCUL Number of radio block messages, uplink PC RETRANSDL Number of retransmitted radio messages, downlink PC RETRANSUL Number of retransmitted radio messages, uplink
Object type = CELLHCS (Locating Measurements for HCS per Cell) Registration of Locating Measurements for HCS per Cell, (see chapter 2.15.1). The counters are defined per cell and a cell is identified with a cell name. Type Counter name Description PC LOCEVAL Accumulated number of locating evaluations. PC BRHILAYER Accumulated number of locating evaluations where HCS ranking differs from basic ranking
Object type = CELLSQI (Measurements for Speech Quality Supervision for TCH/F per Cell) Registration of Speech Quality Supervision per cell, (see chapter 2.18.1). The counters are defined per cell and a cell is identified with a cell name. Type Counter name Description PC TSQIGOOD Number of measurements with good speech quality. PC TSQIGOODSUB Number of measurements with good speech quality in overlaid subcell. PC TSQIACCPT Number of measurements with acceptable speech quality. PC TSQIACCPTSUB Number of measurements with acceptable speech quality in overlaid subcell. PC TSQIBAD Number of measurements with unsatisfactory speech quality. PC TSQIBADSUB Number of measurements with
unsatisfactory speech quality in overlaid subcell.
Object type = CELTCHF (Traffic Channel/Full Rate Connections per Cell) Traffic measurements for TCH/F on cell (see chapter 2.19.1). The counters are defined per cell for TCH/Fs (Traffic Channels/Full Rate) connections per cell. The cell is identified with the cell name. Type Counter name Description PC DJ TFNDROP Dropped connections due to failure. PC DJ TFCASSALL Assignment complete for all MS power classes PC DP TFMSESTB Successful MS channel establishment on TCHs PC DP TFMSESTBSUB Successful MS channel establishment on TCHs for overlaid subcell PC DP TFCALLS Call attempt counter PC DP TFCALLSSUB Call attempt counter for overlaid subcell PC DJ TFTCONGS TCH congestion time PC DJ TFTCONSUB TCH congestion time for overlaid subcell PC DP TFTRALACC Traffic level accumulator PC TFNSCAN Number of accumulations of traffic level counter PC DP TFTRALSUB TCH traffic level accumulated in overlaid subcell. PC DJ TFNDROPSUB Dropped connections in overlaid subcell due to failure. PC DJ TFCASSALLSUB Assignment complete in overlaid subcell for all MS power classes. PC DJ TFCONGSAS Number of congestion at assignment PC DJ TFCONGSASSUB Number of congestion at assignment in overlaid subcell PC DJ TFCONGSHO Number of congestion at handover PC DJ TFCONGSHOSUB Number of congestion at handover in overlaid subcell PC DJ TFNRELCONG Number of released TCH due to radio resource congestion.
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E PC DJ TFNRELCONGSUB Number of released TCH due to radio resource congestion in overlaid subcell. PC DJ TFTHARDCONGS Counts the time when all radio resources are occupied (hard congestion) PC DJ TFTHARDCONGSSUB Counts the time when all radio resources are occupied (hard congestion) in the overlaid
subcell
2.19.3 Object type = CELTCHH (Traffic Channel/Half Rate Connections per Cell) Traffic measurements for TCH/H on cell (see chapter 2.19.1). The counters are defined per cell for TCH/Hs (Traffic Channels/Half Rate) connections per cell. The cell is identified with the cell name. Type Counter name Description PC DJ THNDROP Dropped connections due to failure. PC DJ THCASSALL Assignment complete for all MS power classes PC DP THMSESTB Successful MS channel establishment on TCHs PC DP THMSESTBSUB Successful MS channel establishment on TCHs for overlaid subcell PC DP THCALLS Call attempt counter PC DP THCALLSSUB Call attempt counter for overlaid subcell PC DJ THTCONGS TCH congestion time PC DJ THTCONSUB TCH congestion time for overlaid subcell PC DP THTRALACC Traffic level accumulator PC THNSCAN Number of accumulations of traffic level counter PC DP THTRALSUB TCH traffic level accumulated in overlaid subcell. PC DJ THNDROPSUB Dropped connections in overlaid subcell due to failure. PC DJ THCASSALLSUB Assignment complete in overlaid
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E subcell for all MS power classes. PC DJ THCONGSAS Number of congestion at assignment PC DJ THCONGSASSUB Number of congestion at assignment in overlaid subcell PC DJ THCONGSHO Number of congestion at handover PC DJ THCONGSHOSUB Number of congestion at handover in overlaid subcell PC DJ THNRELCONG Number of released TCH due to radio resource congestion PC DJ THNRELCONGSUB Number of released TCH due to radio resource congestion in overlaid subcell
Object type = CLSDCCH (SDCCH per Cell) Traffic measurements for SDCCH on cell (see chapter 2.21.1). The counters are defined per cell for SDCCHs. The cell is identified with the cell name. Type Counter name Description PC DP CCALLS Call attempt counter
PC DJ CCONGS Congestion counter PC DJ CTCONGS SDCCH congestion time PC DP CTRALACC Traffic level accumulator PC CNSCAN Number of accumulations of SDCCH traffic level counter. PC CNDROP Dropped connections due to failure. ST DP CNUCHCNT Number of defined channels PC DP CAVAACC Available channels accumulator
Object type = CLSDCCHO (Overlaid subcell for SDCCHs per Cell) Traffic measurements for overlaid subcell counters for SDCCHs on cell (see chapter 2.21.1). The overlaid subcell counters are defined per cell for SDCCHs. The cell is identified with the cell name. Type Counter name Description PC DP CCALLSSUB Call attempt counter for overlaid subcell PC DJ CCONGSSUB Congestion counter for overlaid subcell PC DJ CTCONSUB SDCCH congestion time for overlaid subcell PC DP CTRALSUB Traffic level counter accumulator for overlaid subcell PC CNSCANSUB Number of accumulations of SDCCH traffic level counter for overlaid subcell. ST DP CNUCHSUB Number of defined channels in overlaid subcell PC DP CAVASUB Available channels accumulator for overlaid subcell PC CAVASCANSUB Number of accumulations of available channels counter for overlaid subcell. PC DP CMSESTABSUB Successful MS channel establishment on SDCCHs for overlaid subcell PC DP CNRELCONGSUB Number of SDCCH released due to radio resource congestion for overlaid subcell.
Object type = CLSMS (Short Message Service per Cell) Traffic measurements for Short Message Service on both SDCCH and TCH per cell (see chapter 2.22.1). The counters are defined per cell for both SDCCHs and TCHs. The cell is identified with the cell name. Type Counter-name Description PC CSMSDWN SMS messages downlink SDCCH PC CSMSUP SMS messages uplink SDCCH PC TSMSDWN SMS messages downlink TCH PC TSMSUP SMS messages uplink TCH
Object type = CLTCH (Traffic Channel Connections per Cell) Traffic measurements for TCH on cell (see chapter 2.23.1). The counters are defined per cell for TCHs. The cell is identified with the cell name. Function: TCH connections per cell. Description: The counters are defined
per cell for TCHs. Type Counter name Description ST DP TNUCHCNT Number of defined channels ST DP TNUCHSUB Number of defined channels in overlaid subcell PC DP TAVAACC Available BPCs for traffic channels accumulator PC TAVASCAN Number of accumulations of available BPCs for traffic channels counter PC DP TAVASUB Available BPCs for traffic channels accumulator for overlaid subcell PC TAVASCANSUB Number of accumulations of available BPCs for traffic channels counter for overlaid subcell PC TASSALL Assignment attempts for all MS power classes. Successful attempts are counted in the target cell and failed attempts are counted in the serving cell. PC NONAVFCH Number of attempts to allocate channels of TCH/F type when no channels of that type are defined. PC NONAVHCH Number of attempts to allocate channels of TCH/H type when no channels of that type are defined.
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E that type are defined PC TASSATT Number of assignment attempts on TCH Incremented always in the target cell. PC TCHSIG Number of TCH connections for Signaling
Object type = CLTCHDRF (Dropped Connections for Traffic Channels/Full Rate per Cell) Traffic measurements for dropped connections per cell for TCH/F (see chapter 2.24.1). The counters are defined per cell for TCH/Fs (Traffic Channels/Full Rate). The cell is identified with the cell name. Type Counter name Description PC TFDISTA Dropped connections at excessive TA PC TFDISSS1 Dropped connections for classmark 1 MSs, at low signal strength downlink or uplink PC TFDISSS2 Dropped connections for classmark 2 MSs, at low signal strength downlink or uplink PC TFDISSS3 Dropped connections for classmark
3 MSs, at low signal strength downlink or uplink PC TFDISSS4 Dropped connections for classmark 4 MSs, at low signal strength downlink or uplink PC TFDISSS5 Dropped connections for classmark 5 MSs, at low signal strength downlink or uplink PC DJ TFSUDLOS Suddenly lost connections PC DJ TFSUDLOSSUB Suddenly lost connections in overlaid subcell PC DJ TFDISSDL Dropped connections at low signal strength downlink PC DJ TFDISSDLSUB Dropped connections at low signal strength downlink in overlaid subcell
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E PC DJ TFDISSUL Dropped connections at low signal strength uplink PC DJ TFDISSULSUB Dropped connections at low signal strength uplink in overlaid subcell PC DJ TFDISSBL Dropped connections at low signal strength bothlink PC DJ TFDISSBLSUB Dropped connections at low signal strength bothlink in overlaid subcell PC DJ TFDISQADL Dropped connections at bad quality downlink PC DJ TFDISQADLSUB Dropped connections at bad quality downlink in overlaid subcell PC DJ TFDISQAUL Dropped connections at bad quality uplink PC DJ TFDISQAULSUB Dropped connections at bad quality uplink in overlaid subcell PC DJ TFDISQABL Dropped connections at bad quality bothlink PC DJ TFDISQABLSUB Dropped connections at bad quality bothlink in overlaid subcell
2.24.3 Object type = CLTCHDRH (Dropped Connections for Traffic Channels/Half Rate per Cell) Traffic measurements for dropped connections per cell for TCH/F (see chapter 2.24.1). The counters are defined per cell for TCH/Fs (Traffic Channels/Full Rate). The cell is identified with the cell name. Type Counter name Description PC THDISTA Dropped connections at excessive TA PC THDISSS1 Dropped connections for classmark 1 MSs, at low signal strength downlink or uplink. PC THDISSS2 Dropped connections for classmark 2 MSs, at low signal strength downlink or uplink. PC THDISSS3 Dropped connections for classmark
3 MSs, at low signal strength downlink or uplink. PC THDISSS4 Dropped connections for classmark 4 MSs, at low signal strength
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E downlink or uplink. PC THDISSS5 Dropped connections for classmark 5 MSs, at low signal strength downlink or uplink. PC DJ THSUDLOS Suddenly lost connections PC DJ THSUDLOSSUB Suddenly lost connections in overlaid subcell PC DJ THDISSDL Dropped connections at low signal strength downlink PC DJ THDISSDLSUB Dropped connections at low signal strength downlink in overlaid subcell PC DJ THDISSUL Dropped connections at low signal strength uplink PC DJ THDISSULSUB Dropped connections at low signal strength uplink in overlaid subcell PC DJ THDISSBL Dropped connections at low signal strength bothlink PC DJ THDISSBLSUB Dropped connections at low signal strength bothlink in overlaid subcell PC DJ THDISQADL Dropped connections at bad quality downlink PC DJ THDISQADLSUB Dropped connections at bad quality downlink in overlaid subcell PC DJ THDISQAUL Dropped connections at bad quality uplink PC DJ THDISQAULSUB Dropped connections at bad quality uplink in overlaid subcell PC DJ THDISQABL Dropped connections at bad quality bothlink PC DJ THDISQABLSUB Dropped connections at bad quality bothlink in overlaid subcell
Object type = DIGPATH (per Digital Path Supervision Function Block) Digital path measurements per digital path supervision function block (see chapter 2.26.1). Type Counter name Description ID ID1 Block number ST NDIPST Number of connected digital paths PC NBLOC Number of blockings made by the digital path supervision ST NCONSDIP Number of connected synchronous digital paths ST NCONMS Number of connected multiplex sections ST NCONHP Number of connected higher order path
objects (VC-4) ST NCONLP Number of connected lower order path objects (VC-12) PC NBLOSDIP Number of blockings made by the synchronous digital path supervision PC NBLOMS Number of blockings made by the multiplex section supervision PC BLOHP Number of blockings made by higher order path supervision PC BLOLP Number of blockings made by lower order path supervision PC NPC Number of performed network protection switching events
Object type = DOWNTIME (Downtime Statistics per Cell) Traffic Measurements for cell downtime per cell (see chapter 2 .27.1). The counters are defined per cell for TCHs. The cell is identified with the cell name. Type Counter name Description PC TDWNACC Cell downtime accumulator PC TDWNSCAN Number of accumulations of Cell downtime accumulator
Object type = IDLEOTCHF (Idle Traffic Channels/Full Rate in Overlaid Subcell per Cell) Measurements of the number of idle TCH/Fs in overlaid subcell per interference band (see chapter 2.29.1). The counters are defined per cell for TCH/Fs (Traffic Channels/Full Rate). The cell is identified with the cell name. Type Counter name Description PC NOACCOF Number of accumulations PC DJ ITFOSIB1 Accumulated number of TCH/Fs in Overlaid Subcell in Interference Band 1 PC DJ ITFOSIB2 Accumulated number of TCH/Fs in Overlaid Subcell in Interference Band 2 PC DJ ITFOSIB3 Accumulated number of TCH/Fs in Overlaid Subcell in Interference Band 3 PC DJ ITFOSIB4 Accumulated number of TCH/Fs in Overlaid Subcell in Interference Band 4 PC DJ ITFOSIB5 Accumulated number of TCH/Fs in Overlaid Subcell in Interference Band 5
idle
idle
idle
idle
idle
2.29.3 Object type = IDLEOTCHH (Idle Traffic Channels/Half Rate in Overlaid Subcell per Cell) Measurements of the number of idle TCH/Hs in overlaid subcell per interference band (see chapter 2.29.1). The counters are defined per cell for TCH/Hs (Traffic Channels/Half Rate). The cell is identified with the cell name. INTERNAL INFORMATION USER GUIDE 85 (182)
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E Type Counter name Description PC NOACCOH Number of accumulations PC DJ ITHOSIB1 Accumulated number of TCH/Hs in Overlaid Subcell in Interference Band 1 PC DJ ITHOSIB2 Accumulated number of TCH/Hs in Overlaid Subcell in Interference Band 2 PC DJ ITHOSIB3 Accumulated number of TCH/Hs in Overlaid Subcell in Interference Band 3 PC DJ ITHOSIB4 Accumulated number of TCH/Hs in Overlaid Subcell in Interference Band 4 PC DJ ITHOSIB5 Accumulated number of TCH/Hs in Overlaid Subcell in Interference Band 5
idle
idle
idle
idle
idle
2.29.4 Object type = IDLEUTCHF (Idle Traffic Channels/Full Rate in Underlaid Subcell per Cell) Measurements of the number of idle TCH/Fs in underlaid subcell per interference band (see chapter 2.29.1). The counters are defined per cell for TCH/Fs (Traffic Channels/Full Rate). The cell is identified with the cell name. Type Counter name Description PC NOACCUF Number of accumulations PC DJ ITFUSIB1 Accumulated number of TCH/Fs in Underlaid Subcell in Interference Band 1 PC DJ ITFUSIB2 Accumulated number of TCH/Fs in Underlaid Subcell in Interference Band 2 PC DJ ITFUSIB3 Accumulated number of TCH/Fs in Underlaid Subcell in Interference Band 3 PC DJ ITFUSIB4 Accumulated number of TCH/Fs in Underlaid Subcell in Interference Band 4 PC DJ ITFUSIB5 Accumulated number of TCH/Fs in Underlaid Subcell in Interference Band 5
idle
idle
idle
idle
idle
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E 2.29.5 Object type = IDLEUTCHH (Idle Traffic Channels/Half Rate in Underlaid Subcell per Cell) Measurements of the number of idle TCH/Hs in underlaid subcell per
interference band (see chapter 2.29.1). The counters are defined per cell for TCH/Hs (Traffic Channels/Half Rate). The cell is identified with the cell name. Type Counter name Description PC NOACCUH Number of accumulations PC DJ ITHUSIB1 Accumulated number of TCH/Hs in Underlaid Subcell in Interference Band 1 PC DJ ITHUSIB2 Accumulated number of TCH/Hs in Underlaid Subcell in Interference Band 2 PC DJ ITHUSIB3 Accumulated number of TCH/Hs in Underlaid Subcell in Interference Band 3 PC DJ ITHUSIB4 Accumulated number of TCH/Hs in Underlaid Subcell in Interference Band 4 PC DJ ITHUSIB5 Accumulated number of TCH/Hs in Underlaid Subcell in Interference Band 5
idle
idle
idle
idle
idle
Object type = LAPD (Link Access Procedure for the D-channel per TRH device) LAPD link measurements per TRH device (see chapter 2.30.1). The LAPD is continuously recording the behaviour of the connections between the BSC and BTS. The TRH device is identified with the TRH device identity. Type Counter name Description PC CBADFRAME Number of received bad frames PC CTRIFRAME Number of transmitted LAPD information frames PC CRECIFRAME Number of received LAPD information frames PC CRETRANSM Number of retransmissions PC COVERLOAD Number of link overloads PC CLINKFAIL Number of link failures PC CPROCOLERR Number of link protocol Errors
Object type = LOADREG (Load Regulation Counters) Load regulation counters per BSC (see chapter 2.31.1). Type Counter name Description PC NREJPCH Number of packet channel allocation attempts rejected by the Processor Load Control in BSC/TRC function.See Function Specification ’Counters in the Measurement Data Base for GPRS Statistics. PC NFTDEMC Not Valid. PC NREJORG Not Valid. PC NREJEMC Number of originating emergency calls rejected by the Processor Load Control in BSC/TRC function.
PC NREJPRIO Number of normal originating connections rejected by the Processor Load Control in BSC/TRC function. PC NREJNPRIO Number of location updates rejected by the Processor Load Control in BSC/TRC function.
Object type = NCELLREL (Handover to Neighbouring Internal Cell) Handover measurements per cell relation (see chapter 2.33.1). The cells (both originating and neighbour cells) are identified by the cell names. The neighbouring cell is of type internal. Type Counter name Description PC HOVERCNT Number of handover commands sent to the neighbouring cell PC HOVERSUC Number of successful handovers to the neighbouring cell PC HORTTOCH Number of handover attempts where MS returns to the old channel.
2.33.3 Object type = NECELLREL (Handover to Neighbouring External Cell) Handover measurements per cell relation (see chapter 2.33.1). The cells (both originating and neighbour cells) are identified by the cell names. The neighbouring cell is of type external. Type Counter name Description PC HOVERCNT Number of handover commands sent to the neighbouring cell PC HOVERSUC Number of successful handovers to the neighbouring cell PC HORTTOCH Number of handover attempts where MS returns to the old channel
Object type = NECELASS (Assignment Handovers to Neighbouring External Cell) Assignment handover registrations between the serving cell and an external neighbour (see chapter 2.34.1). The cells (both originating and neighbour cells) are identified by the cell names. The neighbouring cell is of type external. Type Counter name Description PC HOASBCL Number of assignment handovers to better cell PC HOASWCL Number of assignment handovers to worse cell PC HOSUCBCL Number of successful assignment handovers to better cell PC HOSUCWCL Number of successful assignment handovers to worse cell
2.34.3 Object type = NICELASS (Assignment Handovers to Internal Neighbouring Cell) Assignment handover registrations between the serving cell and an internal neighbour (see chapter 2.34.1). The cells (both originating and neighbour cells) are identified by the cell names. The neighbouring cell is of type internal. Type Counter name Description
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E PC HOASBCL Number of assignment handovers to better cell PC HOASWCL Number of assignment handovers to worse cell PC HOSUCBCL Number of successful assignment handovers to better cell PC HOSUCWCL Number of successful assignment handovers to worse cell
Object type = NECELHO (Handover to an External Neighbouring Cell) Handover registrations between the serving cell and an external neighbour (see chapter 2.35.1). The cells (both originating and neighbour cells) are identified by the cell names. The neighbouring cell is of type external. Type Counter-name Description
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E PC HOTOLCL Number of handovers to better L-cell PC HOTOKCL Number of handovers to better K-cell PC HOUPLQA Number of handovers at bad uplink quality with or without bad downlink quality PC HODWNQA Number of handovers at bad downlink quality PC HOEXCTA Number of handovers due to exceeded time alignment PC HODUPFT Number of successful handover back to old channel within a predefined time PC HOTOHCS Number of handover attempts to a HCS prioritised neighbour.
2.35.3 Object type = NICELHO (Handover to Internal Neighbouring Cell) Handover registrations between the serving cell and an internal neighbour (see chapter 2.35.1). The cells (both originating and neighbour cells) are identified by the cell names. The neighbouring cell is of type internal. Type Counter name Description PC HOTOLCL Number of handovers to better L-cell PC HOTOKCL Number of handovers to better
K-cell PC HOUPLQA Number of handovers at bad uplink quality with or without bad downlink quality PC HODWNQA Number of handovers at bad downlink quality PC HOEXCTA Number of handovers due to exceeded time alignment PC HODUPFT Number of successful handover back to old channel within a predefined time. PC HOTOHCS Number of handover attempts to a HCS prioritised neighbour.
Object type = NECELHOEX (Handover Attempts to External Neighbouring Cells at High Handover Rate and Classifying Serving Cells) Handover registrations at high handover rate between the serving cell and an external neighbour and classifying the serving cells (see chapter 2.36.1). The cells (both originating and neighbour cells) are identified by the cell names. The neighbouring cell is of type external. Type Counter name Description PC HOATTLSS Number of handover attempts when the serving cell is a low signal strength cell. PC HOATTHSS Number of handover attempts when the serving cell is a high signal strength cell.
Object type = RANDOMACC (Random Access per Cell) Measurements for random access channels per cell (see chapter 2.38.1). The cell is identified with the cell name. Type Counter name Description PC CNROCNT Number of accepted random accesses PC RAACCFA Failed random access PC RAEMCAL Number of random accesses, Emergency call PC RACALRE Number of random accesses, Call reestablishment PC RAANPAG Number of random accesses, Answer to paging. PC RAOSREQ Number of random accesses, Other service request. PC RAOTHER Number of random accesses, All other cases. PC RATRHFAEMCAL Number of rejected CHANNEL REQUIRED in TRH with establishment cause ’Emergency call’. PC RATRHFAOTHER Number of rejected CHANNEL REQUIRED in TRH which are not included in RATRHFAEMCAL and RATRHFAREG.
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E PC RATRHFAREG Number of rejected CHANNEL REQUIRED in TRH with establishment cause ’Location Update’.
Object type = TRAPCOM (Transcoder Pool Resource Registrations per BSC) Transcoder pool resource registrations per TRC or per TRC/BSC. This object type is used to give the operator the possibility to obtain statistics about the unsuccessful transcoder resource allocation attempts since there was no transcoder pool defined for the required resource in the TRC or TRC/BSC (see chapter 2.42.1). Type Counter-name Description
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E PC FRV1UNATT Unsuccessful Transcoder Resource Allocation Attempts due to missing transcoder pool for Full Rate speech Version 1 PC FRV2UNATT Unsuccessful Transcoder Resource Allocation Attempts due to missing transcoder pool for Full Rate speech Version 2 PC FRV3UNATT Unsuccessful Transcoder Resource Allocation Attempts due to missing transcoder pool for Full Rate speech Version 3 PC HRV1UNATT Unsuccessful Transcoder Resource Allocation Attempts due to missing transcoder pool for Half Rate speech Version 1 PC HRV2UNATT Unsuccessful Transcoder Resource Allocation Attempts due to missing transcoder pool for Half Rate speech Version 2 PC HRV3UNATT Unsuccessful Transcoder Resource Allocation Attempts due to missing transcoder pool for Half Rate speech Version 3
2.42.3 Object type = TRAPEVENT (Transcoder Resource Registrations per Transcoder Pool) Transcoder resource statistics per transcoder pool. The object type exists only in TRC or BSC/TRC. This object type is used to give the operator the possibility to obtain statistics about the transcoder resources in the transcoder pools in the system (see
chapter 2.42.1). Type Counter name Description ID ID1 Global transcoder pool pointer PC TPACC Number of accumulations PC TPACTTR Active Transcoder Resources PC TPAVTR Available Transcoder Resources PC TPIDLTR Idle Transcoder Resources PC TPALLOC Transcoder Resource Allocation
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E Attempts PC TPCONG Transcoder Resource Congestion PC TPCTIME Transcoder Resource Congestion Time PC TPSYNCF V.110 Synchronization Failure for pooled transcoder devices (supported only for TRA R4 and R5)
BTS Statistics
Transceiver Group Object type = MOTG (Managed Object Transceiver Group) Measurements are done per transceiver group record. Type Counter name Description ID ID1 State identifier ID ID2 Block number PC INTERCNT Intermittent faults. Incremented when an intermittent fault is reported on one of the managed objects within the TG. PC TRASYNCCNT TRA synchronisation faults. Incremented when a TRA synchronisation fault is reported, by the BTS, on one of the Timeslots within the TG.
Object type = MOTS (Managed Object Time Slot Handler) Measurements are done per Time Slot Handler, TS. Type Counter name Description ID ID1 State identifier ID ID2 Block number PC CONERRCNT Abnormally terminated connections Incremented for TCH and SDCCH when a connection is dropped due to