par mapping e2nsn 2g nopochoc
TRANSCRIPT
ERICSSON FIELD PAR MAPPED?
BSCMC N n/a n/a n/a n/a
EMERGPRL N n/a n/a n/a n/a
PHSTATE N n/a n/a n/a n/a
STATSINT N n/a n/a n/a n/a
DCAHO N n/a n/a n/a n/a
CLSTIMEINTER N(c commentsn/a n/a n/a n/a
LSSTATE N(c commentsn/a n/a n/a n/a
MODE N(c commentsn/a n/a n/a n/a
GSYSTYPE N(c commentsn/a n/a n/a n/a
CLMRKMSG N n/a n/a n/a n/a
DCASTATE N n/a n/a n/a n/a
SPVERUSED N n/a n/a n/a n/a
MNCDIGHAND N n/a n/a n/a n/a
BADQDL N n/a n/a n/a n/a
BADQUL N n/a n/a n/a n/a
LOWSSDL N n/a n/a n/a n/a
LOWSSUL N n/a n/a n/a n/a
FASTASSIGN N n/a n/a n/a n/a
Nokia FIELD(NSN RAC DB Column name if in the right column table name provided)
Nokia TABLE(NSN RAC DB Table)
Nokia BSC GUI PAR ABBREVIATION
Nokia BSC MML TO PRINT THE PAR
NOOFPHYSINF Y MAX_NUMBER_OF_C_BTS NY1 ZEQO
TIMER3105 Y T3105_D, T3105_F n/a T3105_D, T ZEGO
THO N n/a n/a n/a n/a
NHO N n/a n/a n/a n/a
ALPHA Y ALPHA C_POWER_CONTROLALPHA ZEUO
CHCODING N(c commentsn/a n/a n/a n/a
GPRSNWMODE N n/a n/a n/a n/a
ONDEMANGPH N n/a n/a n/a n/a
MAXCHDRATE N n/a n/a n/a n/a
PILTIMER N(c commentsn/a n/a n/a n/a
TBFDLLIMIT N(c commentsn/a n/a n/a n/a
TBFULLIMIT N(c commentsn/a n/a n/a n/a
CGI Y LA_ID_MCC_NUMBEC_BTS MCC, MNC, ZEQO
CELLSTATE Y CTOP_ADMIN_STA C_COMMON_TOPOL - ZEQO,ZE
BSIC Y BSIC_NCC, BSIC_BC_BTS NCC, BCC ZEQO
BCCHNO Y INITIAL_FREQUENCC_TRX FREQ ZERO
BCCHTYPE Y CH_0_TYPE(of BCCC_TRX CH0 ZERO
AGBLK Y NO_OF_BLOCKS_FC_BTS AG ZEQO
MFRMS Y NO_OF_M_FRAMESC_BTS MFR ZEQO
FNOFFSET N(c commentsn/a n/a n/a n/a
BSPWRB Y (Actual TRX outpu C_POWER_CONTROLPMAX1 & P ZEUO
ACCMIN Y RX_LEV_ACCESS_ C_BTS RXP ZEQOCCHPWR Y MS_TX_PWR_MAX_C_BTS TXP1 & TXPZEQO
CRH Y CELL_RESELECT_ C_BTS HYS ZEQO
NCCPERM Y PLMN_PERMITTED_C_BTS PLMN ZEQO
CB Y CELL_BARRED C_BTS BAR ZEQO
SIMSG N n/a n/a n/a n/a
CBQ Y CELL_BAR_QUALIFC_BTS QUA ZEQO
ACC Y ACC_CLASSES_ST#C_BTS ACC ZEQO
MAXRET Y MAX_NUMBER_RE C_BTS RET ZEQO
TX Y NBR_OF_SLOTS_SC_BTS SLO ZEQO
ATT Y ALLOW_IMSI_ATT C_BTS ATT ZEQO
T3212 Y TIMER_PERIODIC_ C_BTS PER ZEQOCRO Y CELL_RESELECT_ C_BTS REO ZEQOTO Y TEMPORARY_OFFSC_BTS TEO ZEQOPT Y PENALTY_TIME C_BTS PET ZEQOHYSTSEP N n/a n/a n/a n/a
CHAP N n/a n/a n/a n/a
NECI Y NEW_ESTAB_CAUSC_BTS NECI ZEQO
MC N n/a n/a n/a n/a
DTXD N(c commentsn/a n/a n/a n/a
DTXU Y DTX_MODE C_BTS DTX ZEQO
AW Y DR_IN_USE C_BTS DR ZEQO
SCLD N(c commentsn/a n/a n/a n/a
LAYER N(c commentsn/a n/a n/a n/a
LAYERTHR N(c commentsn/a n/a n/a n/a
LAYERHYST N n/a n/a n/a n/a
PSSTEMP N n/a n/a n/a n/a
PTIMTEMP N n/a n/a n/a n/a
FASTMSREG N(c commentsn/a n/a n/a n/a
XRANGE N(c commentsn/a n/a n/a n/a
ICMSTATE N n/a n/a n/a n/a
INTAVE Y INF_AVG_PROC_A C_BTS AP ZEQOLIMIT1 Y THRS_BOUNDARY1C_BTS BO1 ZEQOLIMIT2 Y THRS_BOUNDARY2C_BTS BO2 ZEQOLIMIT3 Y THRS_BOUNDARY3C_BTS BO3 ZEQOLIMIT4 Y THRS_BOUNDARY4C_BTS BO4 ZEQOCLSSTATE N n/a n/a n/a n/a
CLSACC N n/a n/a n/a n/a
CLSLEVEL N n/a n/a n/a n/a
CLSRAMP N n/a n/a n/a n/a
HOCLSACC N n/a n/a n/a n/a
RHYST N n/a n/a n/a n/a
CSYSTYPE Y CTOP_FREQUENCYC_COMMON_TOPOL BAND ZEQO
MBCR Y MULTI_BAND_CEL C_BTS MBR ZEQO
ECSC Y EARLY_SENDING_IC_BTS ESI ZEQO
ACSTATE N(c commentsn/a n/a n/a n/a
SLEVEL N n/a n/a n/a n/a
STIME N n/a n/a n/a n/a
CMDR N n/a n/a n/a n/a
FPDCH N(c commentsn/a n/a n/a n/a
GAMMA Y GAMMA C_POWER_CONTROLGAMMA ZEUO
GPRSSUP Y GPRS_ENABLED C_BTS AGENA ZEAO
CHCSDL N(c commentsn/a n/a n/a n/a
LA N(c commentsn/a n/a n/a n/a
PSKONBCCH N n/a n/a n/a n/a
EXTPEN N n/a n/a n/a n/a
MSTXPWR Y MS_TX_PWR_MAX_C_BTS PMAX1 & P ZEQO
PLAYER N n/a n/a n/a n/a
PHCSTHR N n/a n/a n/a n/a
SCALLOC N n/a n/a n/a n/a
IRC N(c commentsn/a n/a n/a n/a
EXCHGR N n/a n/a n/a n/a
QLENGTH N n/a n/a n/a n/a
RESLIMIT N n/a n/a n/a n/a
DHA N(c commentsn/a n/a n/a n/a
DTHAMR N(c commentsn/a n/a n/a n/a
DTHNAMR N(c commentsn/a n/a n/a n/a
PDCHPREEMPT N n/a n/a n/a n/a
MPDCH N n/a n/a n/a n/a
PRIMPLIM N n/a n/a n/a n/a
SPDCH N n/a n/a n/a n/a
FLEXHIGHGPR N n/a n/a n/a n/a
FERLEN N n/a n/a n/a n/a
HCSIN N n/a n/a n/a n/a
HCSOUT N n/a n/a n/a n/a
SCLDLUL N n/a n/a n/a n/a
SCLDLOL N n/a n/a n/a n/a
SCLDSC N n/a n/a n/a n/a
ISHOLEV Y (100-)MIN_TRAFFI C_HANDOVER_CONTLTSC ZEHO
FBOFFSP N n/a n/a n/a n/a
FBOFFSN N n/a n/a n/a n/a
BCCHREUSE N n/a n/a n/a n/a
BCCHLOSS N n/a n/a n/a n/a
BCCHDTCBP N n/a n/a n/a n/a
BCCHDTCBN N n/a n/a n/a n/a
BCCHLOSSHY N n/a n/a n/a n/a
BCCHDTCBHY N n/a n/a n/a n/a
MAXISHO N n/a n/a n/a n/a
CSPSALLOC Y PREFER_BCCH_F_C_BTS BFG ZEQO
CSPSPRIO N n/a n/a n/a n/a
GPRSPRIO N n/a n/a n/a n/a
DHASS N n/a n/a n/a n/a
DHASSTHRASS N n/a n/a n/a n/a
DHASSTHRHO N n/a n/a n/a n/a
STREAMSUP N n/a n/a n/a n/a
BPDCHBR N n/a n/a n/a n/a
GPDCHBR N n/a n/a n/a n/a
EPDCHBR N n/a n/a n/a n/a
EITEXCLUDED N n/a n/a n/a n/a
NCSTAT Y NCCR_CONTROL_MOC_BSC NCM ZEEO
NCRPT Y NCCR_IDLE_MODE_C_BSC NIRP & NTRZEEO
CBCHD N n/a n/a n/a n/a
PRACHBLK N n/a n/a n/a n/a
MAXSBLK N n/a n/a n/a n/a
MAXSMSG N n/a n/a n/a n/a
TRAFBLK N n/a n/a n/a n/a
BTSPS N n/a n/a n/a n/a
BTSPSHYST N n/a n/a n/a n/a
QSC Y MULTI_RAT_MS_Q C_HANDOVER_CONTQSRC ZEHO
QSCI N n/a n/a n/a n/a
QSI Y NON_GPRS_MULTIC_BTS QSRI ZEQO
FDDMRR Y FDD_MULTI_RAT_ C_HANDOVER_CONTFDMR ZEHO
FDDQMIN Y FDD_MIN_QUAL C_BTS FDM ZEQO
FDDQOFF Y FDD_OFFSET C_BTS FDD ZEQO
SPRIO N n/a n/a n/a n/a
FDDQMINOFF Y Can't find the col C_BTS FDMO ZEQO
FDDRSCPMIN Y Can't find the col C_BTS FDR ZEQO
TQSI Y NON_GPRS_MULTIC_BTS QSRI ZEQO
TDDMRR N n/a n/a n/a n/a
TDDQOFF Y FDD_OFFSET C_BTS FDD ZEQO
TSPRIO N n/a n/a n/a n/a
HRTRX N n/a n/a n/a n/a
AHRTRX N n/a n/a n/a n/a
DTMSTATE Y DTM_ENABLED C_BTS DENA ZEQO
MAXLAPDM N n/a n/a n/a n/a
ALLOCPREF N n/a n/a n/a n/a
OPTMSCLAS1 N n/a n/a n/a n/a
DHPR N n/a n/a n/a n/a
DHPRLL N n/a n/a n/a n/a
DHPRLH N n/a n/a n/a n/a
SCTYPE N n/a n/a n/a n/a
CHGRSTATE Y CTOP_ADMIN_STA C_COMMON_TOPOL - ZEQO,ZE
HOP Y HOPPING_MODE C_BTS HOP ZEQO
HSN Y HSN_1 & HSN_2 C_BTS HSN1 & HS ZEQO
NUMREQBPC N n/a n/a n/a n/a
SDCCH N(c commentsn/a n/a n/a n/a
TN N n/a n/a n/a n/a
CCHPOS N n/a n/a n/a n/a
CBCH Y SMS_CB_USED C_BTS CB ZEQO
MAIO N(c commentsn/a n/a n/a n/a
NUMREQEGPR N(c commentsn/a n/a n/a n/a
NUMREQCS3CSN(c commentsn/a n/a n/a n/a
TN7BCCH N n/a n/a n/a n/a
BAND Y CTOP_FREQUENCYC_COMMON_TOPOL BAND ZEQO
BCCD N n/a n/a n/a n/a
TSC Y TSC C_TRX TSC ZERO
EACPREF N n/a n/a n/a n/a
SAS N n/a n/a n/a n/a
ODPDCHLIMIT Y MAX_GPRS_CAPACC_BTS CMAX ZEQO
CCCH N(c commentsn/a C_TRX n/a n/a
TMAXIHO N n/a n/a n/a n/a
TIHO N n/a n/a n/a n/a
MAXIHO N n/a n/a n/a n/a
QOFFSETUL N n/a n/a n/a n/a
QOFFSETDL N n/a n/a n/a n/a
SSOFFSETUL N n/a n/a n/a n/a
SSOFFSETDL N n/a n/a n/a n/a
Q_UL_AFR N n/a n/a n/a n/a
Q_DL_AFR N n/a n/a n/a n/a
SS_UL_AFR N n/a n/a n/a n/a
SS_DL_AFR N n/a n/a n/a n/a
CTYPE N n/a n/a n/a n/a
RELATION N n/a n/a n/a n/a
CS N n/a n/a n/a n/a
CAND N n/a n/a n/a n/a
MBCCHTYPE N n/a n/a n/a n/a
PROFFSET N n/a n/a n/a n/a
GPRSVALID Y GPRS_ENABLED C_ADJACENT_CELL AGENA ZEAO
Range and step
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 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
n/a n/a
Comments(with mapping of Nokia BSC GUI value with internal value(RAC DB) if needed)
In NOKIA the feature BSC-initiated traffic reason handover of AMH is similar with E Cell Load Sharing. The HOC par:handover period power budget (HPP) is used to define the interval between power budget handover threshold comparisons.(BSC-initiated traffic reason handover uses the same periods as the normal power budget handover.)
In NOKIA the feature BSC-initiated traffic reason handover is based on some par and does not have a ON/OFF par.
NOKIA PRFILE and FIFILE parameters related to this E par:002 0737 GSM800_1900_USAGE Dual Band for GSM800/GSM1900 usage 002 0738 GSM800_1800_USAGE Dual Band for GSM800/GSM1800 usage010 0026 DUAL_BAND_USAGE_P Dual Band GSM/DCS Network Operation usage
NOKIA PRFILE and FIFILE parameters related to this E par:002 0737 GSM800_1900_USAGE Dual Band for GSM800/GSM1900 usage 002 0738 GSM800_1800_USAGE Dual Band for GSM800/GSM1800 usage010 0026 DUAL_BAND_USAGE_P Dual Band GSM/DCS Network Operation usage
5…35
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
n/a
Unlocked (1), Locked (3
0-7,0-7
MAX_NUMBER_OF_REPETITION(NY1) in NOKIA is a SEG par(SEG-specific Base Transceiver Station (SEG-BTS) radio network object parameters).
T3105_d Repetition of the PHYSICAL INFORMATION (SDCCH),Def. = 280 ms (non-modifiable)T3105_f Repetition of the PHYSICAL INFORMATION (TCH), Def. = 100 ms (non-modifiable)Related BSC MML CMD:ZEGO
1: α=0.12: α=0.2...10: α=1.0
binary representation ALPHA (ALPHA), Power Control (POC) radio network object parameters, CELL level par.
The BTS level parameters DL coding scheme in acknowledged mode (DCSA), UL coding scheme in acknowledged mode (UCSA), DL coding scheme in unacknowledged mode (DCSU) and UL coding scheme in unacknowledged mode (UCSU) define whether the fixed CS value (CS-1 - CS-4) is used or if the coding scheme is changed dynamically according to the Link Adaptation algorithm.
In NOKIA BSC, the GPRS capacity can be divided into three types: dedicated GPRS capacity(Like FPDCH in E), default GPRS capacity, additional GPRS capacity.CHM checks the need for a PSW territory downgrade when a TBF is removed from the territory. A downgrade need(not caused by congestion, to the default terrority most) is detected when the average number of TBFs sharing a timeslot in the PSW territory is less than 0.5. In the calculation the direction (UL/DL) with more TBFs is considered. But the the time which must elapse between two subsequent territory updates is difined by GPRS territory update guard time (GTUGT).
In NOKIA BSC, the GPRS channel administration due to the TBF limit is different, the limit is defined by internal setting(X1: 1.5 ), not controlled by modifiable pars.
In NOKIA BSC, the GPRS channel administration due to the TBF limit is different, the limit is defined by internal setting(X1: 1.5 ), not controlled by modifiable pars.
MCC, MNC, LAC, CI of SEG-specific Base Transceiver Station (SEG-BTS) radio network object parameters
Administrative state (-) of Base Transceiver Station (BTS) radio network object parameters.
NCC, BCC of SEG-specific Base Transceiver Station (SEG-BTS) radio network object parameters
0...1023, step 1 INITIAL_FREQUENCY of the TRX which the CH_0_TYPE is 4 = MBCCH or 5 = MBCCHC or 7 = MBCCB. FREQ(Transceiver (TRX) radio network object parameters) of the BCCH TRX.
TCHF (0), TCHH (1), TCHD (2), SDCCH (3), MBCCH (4), MBCCHC (5), MBCCB (7), Not allowed in CH0 (8), Not In Use (9), ERACH (10), Not allowed in CH0 (13), EGTCH (14), Not allowed in CH0 (15)CH_0_TYPE is 4 = MBCCH or 5 = MBCCHC or 7 = MBCCB. CH0(Transceiver (TRX) radio network object parameters) of BCCH TRX.
2…9
n/a
0-30, step 2dB
-110….-47 dBm RXP of SEG. internal_value = (gui_value + 110)TXP1 & TXP2 of SEG. internal_value = (gui_value - 43) / -2
0 ... 14dB step 2dB
false (0), true (1)
Y/N
n/a n/a
Y/N
false (0), true (1)
RET of SEG. gui =internal
0…7 if MBCCH1…7 if MBCCB1..2 if MBCCHC
AG, SEG-specific Base Transceiver Station (SEG-BTS) radio network object parameters.
MFR, SEG-specific Base Transceiver Station (SEG-BTS) radio network object parameters.
Similar to FNO of Location Measurement Unit Area (LMUA) radio network object parameters.
In NOKIA the max transmit power is idendified by the actual TRX output power(DIFFERENT for different BTS equipments) minus an attenuation(defined by the BS_TX_PWR_MAX or BS_TX_PWR_MAX1X00(PMAX1 and PMAX2 of SEG). internal_value = gui_value / 2
TXP1: 5...39dBm,step 2dBTXP2:0...36dBm,step 2dB
HYS of SEG. internal_value = gui_value / 2
PLMN of SEG. Formula for getting internal value: false => 0 true => 1
BAR of SEG. Formula for getting internal value: false => 0 true => 1
QUA of SEG. Formula for getting internal value: false => 0 true => 1
ACC of SEG. Formula for getting internal value: false => 0 true => 1
1,2,4,7
PER of SEG. internal_value = gui_value * 100 ...126dB step 2dB REO of SEG. internal_value = gui_value / 20…70 step 10dB TEO of SEG. internal_value = gui_value / 1020…640s,step 20s PET of SEG. internal_value = (gui_value - 20) / 20n/a n/a
n/a n/a
Y/N
n/a n/a
n/a
3…12、14、16、20、25、32、50
SLO of SEG. gui ==> internal
3 ==> 0
4 ==> 1
5 ==> 2
6 ==> 3
7 ==> 4
8 ==> 5
9 ==> 6
10 ==> 7
11 ==> 8
12 ==> 9
14 ==> 10
16 ==> 11
20 ==> 12
25 ==> 13
32 ==> 14
50 ==> 15
0 、1ATT of SEG. Formula for getting internal value: false => 0 true => 10…25.5 hour step 0.1
0 no period LU
NECI of SEG. Formula for getting internal value: false => 0 true => 1
Downlink DTX is enabled in the BSC by modifying the value of the appropriate PAFILE parameter.ZEGP:18:1; At the same time Enable downlink DTX in the MSC (EPR).Example: ZEPR:TYPE=BTS,NO=20:DTX=OFF;
Y/N
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
1…32 averaging period (AP) of SEG.internal_value = gui_value-110...-47 dBm BO1 of SEG. internal_value = (gui_value + 110)-110...-47 dBm BO2 of SEG. internal_value = (gui_value + 110)-110...-47 dBm BO3 of SEG. internal_value = (gui_value + 110)-110...-47 dBm BO4 of SEG. internal_value = (gui_value + 110)n/a n/a
n/a n/a
n/a n/a
n/a n/a
n/a n/a
n/a n/a
MS may use DTX ==> 0
MS shall use DTX ==> 1
MS shall not use DTX ==> 2
DTX of SEG. gui ==> internal
MS may use DTX ==> 0
MS shall use DTX ==> 1
MS shall not use DTX ==> 2
Direct Retry is similar to AW. DR of SEG. Formula for getting internal value: false => 0 true => 1The similar feature in NOKIA is IUO. par: AMH traffic control IUO (ATCI). With this parameter you indicate whether the Advanced Multilayer Handling is used with Intelligent Underlay-Overlay.
In NOKIA the layer is defined in neighbor cell par adjacent cell layer (ACL), 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, in umbrella and power budget handovers in defining the target cells according to their layer.
In NOKIA FMMS feature the HO level umbrella (AUCL) is the minimum signal level of an adjacent cell, when a handover is allowed to an adjacent umbrella cell, same time with the criterion of time related to par fast moving threshold (FMT).
In NOKIA the FMMS feature is similar but the algorithm is different.
In NOKIA radius extension (EXT) is used. With this parameter you define the radius extension of an extended cell. The values range from 0 to 67 km.
Value 0 indicates that the cell is a normal cell.
The 2nd generation base stations have radius extensions from 0 to 67 km.
The Talk-family, UltraSite, and Flexi EDGE site types have radius extensions from 0 to 35 km.
The PrimeSite, MetroSite, and InSite site types do not support the Extended Cell Range.
GSM 900 (0), GSM 1800
0…3
n/a
n/a n/a
n/a n/a
n/a n/a
n/a
0…62
Y/N
n/a
n/a
n/a n/a
frequency band in use (BAND) of BTS.Not a cell(SEG) level par.gui ==> internal
900 ==> 0
1800 ==> 1
1900 ==> 2
800 ==> 5
multiband cell reporting (MBR) of SEG. internal_value = gui_value
early classmark sending is forbidden (N) (0), early classmark sending is accepted (Y) (1)
early sending indication (ESI) of SEG. gui ==> internal
early classmark sending is forbidden ==> 0
early classmark sending is accepted ==> 1
AS for the feature Adaptive Configuration of Logical Channels, in NOKIA the similar feature is Dynamic SDCCH. Activate Dynamic SDCCH (WOC).ZWOC:10,42,FF;
In NOKIA the # of dedicated PDCH is controlled by the SEG par GENA, BTS par CDED and the # of GPRS enabled TRX( TRX par GTRX) in the BTS. (In a BTS of GENA enabled SEG)# of dedicate PDCH= # of FR and DR TCH TSLs in TRXs(with GTRX=Y) * CDED% and round down to the nearst integer, but when CDED is not 0 there will be at least 1 dedicated PDCH.
binary representation TAU (GAMMA) of POC par.internal_value = gui_value / 2
GPRS enabled (GENA) of SEG. gui ==> internal
GPRS is disabled (N) ==> 0
GPRS is enabled (Y) ==> 1
The BTS level parameters DL coding scheme in acknowledged mode (DCSA), UL coding scheme in acknowledged mode (UCSA), DL coding scheme in unacknowledged mode (DCSU) and UL coding scheme in unacknowledged mode (UCSU) define whether the fixed CS value (CS-1 - CS-4) is used or if the coding scheme is changed dynamically according to the Link Adaptation algorithm.
The deploy of LA is controlled by DCSA, UCSA, DCSU, UCSU setting.
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
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
n/a n/a
n/a n/a
n/a n/a
n/a n/a
n/a n/a
PMAX1: 5...39dBm,step 2dBPMAX2:0...36dBm,step 2dB
PMAX1 & PMAX2 of BTS par. For MS_TX_PWR_MAX_GSM:internal_value = (gui_value - 43) / -2; For MS_TX_PWR_MAX_GSM1X00: internal_value = gui_value.
In NOKIA there is Space Time Interference Rejection Combining, which in BTS is a par STIRC.
Besides the license, the setting of PARS: TRX half rate support (HRS) (ERC, ERM, and ERO commands), RTSL type 0–7 (CH0–CH7) (ERC, ERM, ERO, and EEI commands), lower limit for FR TCH resources (FRL/HRL) (EEM, EEO, EQM, and EQO commands) upper limit for FR TCH resources (FRU/HRU) (EEM, EEO, EQM, and EQO commands) decide the activation of half rate.
In NOKIA therr are 2 limits for idle FR TCH in HR allocation, lower limit and upper limit. And there are SEG and BSC leve pars for these 2 limits(lower limit: of SEG: FRL, of BSC HRL, upper limit: of SEG: FRU, of BSC HRU). For each pair of pars, when the upper limit >= lower limit the pair is regarded as effective. But when both BSC & SEG level pairs are effective the system take the setting of SEG pair, if only 1 pair is effective the system take the pair, if 2 are not effective the HR of SEG is deactivated.
In NOKIA therr are 2 limits for idle FR TCH in HR allocation, lower limit and upper limit. And there are SEG and BSC leve pars for these 2 limits(lower limit: of SEG: FRL, of BSC HRL, upper limit: of SEG: FRU, of BSC HRU). For each pair of pars, when the upper limit >= lower limit the pair is regarded as effective. But when both BSC & SEG level pairs are effective the system take the setting of SEG pair, if only 1 pair is effective the system take the pair, if 2 are not effective the HR of SEG is deactivated.
0-100,%
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 n/a
n/a n/a
Y/N
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 n/a
n/a n/a
n/a n/a
min traffic load for speech call (LTSC) of HOC. 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. internal_value = gui_value
BFG of SEG. With this parameter you define whether the BCCH TRX or other TRXs are preferred in GPRS channel allocation.
NOTE: MML Range:
0 (no prioritisation is determined between TRXs),
1 (GPRS channels are allocated primarily from the BCCH TRX),
2 (GPRS channels are allocated primarily beyond the BCCH TRX)
NCCR is disabled for al
0.48 s (0), 0.96 s (1), 1
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
0...15
n/a n/a
NCCR control mode (NCM) of BSC par. 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 is disabled then the MS will make an autonomous cell reselection. MS is in NC0 mode.gui ==> internal
NCCR is disabled for all mobile stations. ==> 0
NCCR is enabled for release 97 onwards MS ==> 1
NCCR is enabled for release 99 onwards MS ==> 2
NCCR is enabled for release 4 onwards MS ==> 3
NCCR is enabled for all mobile stations. ==> 4
NIRP & NTRP of BSC par. With this 2 parameter you define the Network Control (NC) measurement reporting period for the MSs in RR Packet Idle mode & in RR Packet Transfer mode.gui ==> internal
0.48 s ==> 0
0.96 s ==> 1
1.92 s ==> 2
3.84 s ==> 3
7.68 s ==> 4
15.36 s ==> 5
30.72 s ==> 6
61.44 s ==> 7
threshold for multi-RAT MS (QSRC) of HOC par. internal_value = gui_value
-98 dBm (0), -94 dBm (1
0...3
-20 dB (0), -6 dB (1), -
threshold to search UTRAN cells (QSRI) of SEG. gui ==> internal
-98 dBm ==> 0
-94 dBm ==> 1
-90 dBm ==> 2
-86 dBm ==> 3
-82 dBm ==> 4
-78 dBm (RLA_P below) ==> 5
-74 dBm (RLA_P below) ==> 6
Infinity (always) ==> 7
-78 (RLA_P above) ==> 8
-74 (RLA_P above) ==> 9
-70 ==> 10
-66 ==> 11
-62 ==> 12
-58 ==> 13
-54 ==> 14
Infinity (never) ==> 15
number of measured FDD cells (FDMR) of HOC. internal_value = gui_value
minimum fdd threshold (FDM) of SEG. gui ==> internal
-20 dB ==> 0
-6 dB ==> 1
-18 dB ==> 2
-8 dB ==> 3
-16 dB ==> 4
-10 dB ==> 5
-14 dB ==> 6
-12 dB ==> 7
range: -28..28 dB, step
n/a n/a
0...14 step2
-114...-84, step2
-98 dBm (0), -94 dBm (1
n/a n/a
range: -28..28 dB, step
n/a n/a
n/a n/a
n/a n/a
Y/N
n/a n/a
n/a n/a
fdd and tdd cell reselect offset (FDD) of SEG. internal_value = (gui_value + 32) / 4
minimum fdd threshold offset (FDMO) of SEG.internal_value = gui_value / 2
minimum RSCP threshold (FDR) of SEG.internal_value = (gui_value + 114) / 2
threshold to search UTRAN cells (QSRI) of SEG. gui ==> internal
-98 dBm ==> 0
-94 dBm ==> 1
-90 dBm ==> 2
-86 dBm ==> 3
-82 dBm ==> 4
-78 dBm (RLA_P below) ==> 5
-74 dBm (RLA_P below) ==> 6
Infinity (always) ==> 7
-78 (RLA_P above) ==> 8
-74 (RLA_P above) ==> 9
-70 ==> 10
-66 ==> 11
-62 ==> 12
-58 ==> 13
-54 ==> 14
Infinity (never) ==> 15
fdd and tdd cell reselect offset (FDD) of SEG. internal_value = (gui_value + 32) / 4
DENA of SEG. gui ==> internal
DTM disabled (N) ==> 0
DTM enabled (Y) ==> 1
n/a n/a
n/a n/a
n/a n/a
n/a n/a
n/a n/a
Unlocked (1), Locked (3
BAND
0...63
n/a n/a
n/a
n/a n/a
n/a n/a
Y/N
n/a
n/a
n/a Similar with above.n/a n/a
GSM 900 (0), GSM 1800
n/a n/a
Administrative state (-) of Base Transceiver Station (BTS) radio network object parameters.
RF RF hoppingN no hopping
HSN1 & HSN2 of BTS. HSN1: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 slot). HSN2: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).internal_value = gui_value
In NOKIA the configuration of SDCCH is by the channel type of each time slot. Channel #{0} Type gui ==> internal:SDCCH ==> 3SDCCB ==> 8
SMS CB used (CB) of SEG. false => 0
true => 1
In NOKIA there are 2 pars: MO & MS to difine the MAIO and step.
In NOKIA the EDGE abis resource is achieved by EGPRS dynamic Abis pool(EDAP). First the GENA of SEG and EGENA of the BTS must be Y. Second the GPRS enabled(GTRX=Y) TRX must be configured to a EDAP. Then BTS par CDED and # of channels with GTRX=Y TRXs which connected to an effective EDAP dicide the default EDGE channels.
frequency band in use (BAND) of BTS.gui ==> internal
900 ==> 0
1800 ==> 1
1900 ==> 2
800 ==> 5
0…7
n/a n/a
n/a n/a
0..100(%)
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
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 n/a
n/a n/a
n/a Has bee removed in NOKIA BSS RG10.
Y/N
training sequence code (TSC) of TRX par.internal_value = gui_value
In NOKIA there are 2 limits: default and additional for not dedicated PDCH. The par for default is CDEF and the algorithm is just like the way to calculate the dedicated PDCH. The par for additional is CMAX(default is 100), CMAX is more like ODPDCHLIMIT.max GPRS capacity (CMAX)internal_value = gui_value
In NOKIA the configuration of multi CCCH is applied in the TRX TSL configuration. In BSC gui interface the print out of TRX TSL the channel type, CCCHE is the additional CCCH.
Adjacent GPRS enabled (AGENA) of ADCE par. gui ==> internal
GPRS is disabled in the adjacent cell (N) ==> 0
GPRS is enabled in the adjacent cell (Y) ==> 1