-------------------------MUESTRA EL BCCH, BSIC, CGI Y IRC-----------------------------------------------MUESTRA -------------------------------------------The purpose of Interference Rejection Combining (IRC) is to improve performance on the uplink in radio environments limited by interference. The frequency space in a cellular system like GSM is very limited. Therefore one of the concepts is to have the same carrier frequency covering different areas. The limiting factor in tight frequen cy reuse is interference from other cells operating on the same frequency. Interference causes bit and frame errors, which makes the speech quality decrease. If the errors occur on the control channels, they can lead to missed or dropped calls. IRC minimizes the disturbance from an interferer by combining the signal receive d on diverse antennas and suppressing the interfering signal. Unlike the basic RX diversity feature, IRC assumes that the noise in the received signals consists of both white Gaussian noise as well as signals from interfering transmitters. This means that in those cases a correlation exists between the received interfering signals, and IRC can improve the signal more efficiently than the basic RX diversity feature. From an operator point of view, IRC can be used to increase capacity in a radio network limited in the uplink, improve speech quality, and increase data throughput in the uplink. RLDEP:CELL=mn0049d; rldec:cell=gr0011a,irc=on; --------------------------ACTIVAR FEATURE: ADAPTATIVE CONFIGURATION OF LOGICAL C --------------------------ACTIVAR HANNELS (ACLC)---------------(ACLC)-------------------------------------------------------------------------------ACSTATE: Estado ON/OFF SLEVEL: Valor de 1, 2 o CONG STIME: Valor de 0 a 360 seg. Tiempo que tardara en desabilitar captura automatic a de un canal libre TCH y volver a su estado "listo" cuando la demanda de señalizacion baje. NOTA: Revizar la utilizacion pico para determinar cuantos TN asignaras a los can ales sdcch. RLACP:CELL=RO0034A&RO0034B&RO0034D&RO0034E; RLACI:CELL=ms0031f; RLACC:CELL=RO0034E,SLEVEL=2,STIME=360; RLACE LACE:C :CEL ELL= L=as as00 0015 15e; e;
!Activa la feature a ON! !Des !Desac acti tiva va la feat featur ure e a OFF OFF!
---------------------------SDCCH CHANGE(Stand-alone Dedicated Control Channel)----------------------------SDCCH -----------------------------------------------------------------------------------------------------------------------------------------------ACL: Alarm class Identifier: A1=CRITICAL,A2=MAYOR or A3=MINOR. PL: Supervision period length in hours Numeral: 1-24,48,72. RLVAP; !Muestra los canales TCH alarmados (BLOC) en la BSC por cong estion continua! RLVAR:chtype=tch; !Dar reset a la supervision de alarmas de TCH! RLVAR:chtype=sdcch; !Dar reset a la supervision de alarmas de SDCCH!
RLVLP; !Muestra parametros ACL,PL y ESTATUS. INCLUDED/NOT I NCLUDED! RLVLE:CHTYPE=sdcch; !Detiene la supervision! RLVLI:CHTYPE=SDCCH; !Activa la supervicion! RLVLI:CELL=ri0007c,CHTYPE=TCH; RLVLC:CHTYPE=SDCCH,PL=48,ACL=A3; RLCFP:CELL=RO0034D&RO0034E; RLSLP:cell=RO0034D&RO0034E; ma SDCCH!
!Muestra el print de supervision de alar
RLCCC:CELL=RO0034E,CHGR=0,SDCCH=2,TN=2&3; RLSLE:CELL=JI0058F,SCTYPE=UL; RLSLC:CELL=JI0058F,SCTYPE=UL,CHTYPE=SDCCH,LVA=8; RLSLC:CELL=JI0058F,SCTYPE=UL,CHTYPE=TCH,CHRATE RLSLC:CELL=JI0058F,SCT YPE=UL,CHTYPE=TCH,CHRATE=FR,SPV=1,LVA=23; =FR,SPV=1,LVA=23; RLSLC:CELL=JI0058F,SCTYPE=UL,CHTYPE=TCH,CHRATE RLSLC:CELL=JI0058F,SCT YPE=UL,CHTYPE=TCH,CHRATE=FR,SPV=2,LVA=23; =FR,SPV=2,LVA=23; RLSLC:CELL=JI0058F,SCTYPE=UL,CHTYPE=TCH,CHRATE RLSLC:CELL=JI0058F,SCT YPE=UL,CHTYPE=TCH,CHRATE=FR,SPV=3,LVA=23; =FR,SPV=3,LVA=23; RLSLC:CELL=JI0058F,SCTYPE=UL,CHTYPE=TCH,CHRATE RLSLC:CELL=JI0058F,SCT YPE=UL,CHTYPE=TCH,CHRATE=FR,SPV=5,LVA=23; =FR,SPV=5,LVA=23; RLSLC:CELL=JI0058F,SCTYPE=UL,CHTYPE=TCH,CHRATE RLSLC:CELL=JI0058F,SCT YPE=UL,CHTYPE=TCH,CHRATE=HR,SPV=1,LVA=46; =HR,SPV=1,LVA=46; RLSLC:CELL=JI0058F,SCTYPE=UL,CHTYPE=TCH,CHRATE RLSLC:CELL=JI0058F,SCT YPE=UL,CHTYPE=TCH,CHRATE=HR,SPV=3,LVA=46; =HR,SPV=3,LVA=46; RLSLI:CELL=JI0058F,SCTYPE=UL; RLSLE:CELL=JI0058F,SCTYPE=OL; RLSLC:CELL=JI0058F,SCTYPE=OL,CHTYPE=SDCCH,LVA=15; RLSLC:CELL=JI0058F,SCTYPE=OL,CHTYPE=TCH,CHRATE=FR,SPV=1,LVA=5; RLSLC:CELL=JI0058F,SCTYPE=OL,CHTYPE=TCH,CHRATE=FR,SPV=2,LVA=5; RLSLC:CELL=JI0058F,SCTYPE=OL,CHTYPE=TCH,CHRATE=FR,SPV=3,LVA=5; RLSLC:CELL=JI0058F,SCTYPE=OL,CHTYPE=TCH,CHRATE=FR,SPV=5,LVA=5; RLSLC:CELL=JI0058F,SCTYPE=OL,CHTYPE=TCH,CHRATE RLSLC:CELL=JI0058F,SCT YPE=OL,CHTYPE=TCH,CHRATE=HR,SPV=1,LVA=10; =HR,SPV=1,LVA=10; RLSLC:CELL=JI0058F,SCTYPE=OL,CHTYPE=TCH,CHRATE RLSLC:CELL=JI0058F,SCT YPE=OL,CHTYPE=TCH,CHRATE=HR,SPV=3,LVA=10; =HR,SPV=3,LVA=10; RLSLI:CELL=JI0058F,SCTYPE=OL; RLSLC:CELL=ms0031f,SCTYPE=oL,CHTYPE=cbch,LVA=1; RLSLC:CELL=as0006f,SCTYPE=ol,CHTYPE=bcch,LVA=1; -----------------------------CHEQUEO DE UNA CELDA---------------------------------------------CHEQUEO CELDA---------------------------------------------------------------------------------------------------RXMOP:MOTY=RXOTRX; ----VER EL TG(Transceiver Group) DEL SITIO: rxtcp:moty=rxotg,cell=ES0009A; ----MUESTRA LOS ID DE LAS CELDAS ASOCIADAS A ESE TG: rxtcp:mo=rxotg-83; rxasp:mo=rxotg-83; !Alarma situation! ----MUESTRA EL ESTADO DEL E1 (OPERATIVO O DESACTIVADO): RXMSP:MO=RXOTG-83; ----MUESTRA EL ESTADO DE LOS TS DE CADA RADIO (OPERATIVO O BLOQUEADO): rxmsp:mo=rxotg-83, subord; ----MUESTRA TODAS LAS ALARMAS INTERNAS DE UNA BSC: rxasp:moty=rxotg; ----MUESTRA LAS ALARMAS QUE HAYAN EN LA RBS:
rxmfp:mo=rxotg-83,SUBORD,FAULTY; RXMFP:MOTY=RXOCF,faulty;
!TODAS LAS ALARMAS DE LAS CELDAS EN LA BSC!
RXAPP:MO=RXOTG-83; RXCDP:MO=RXOTG-83; RXMOP:MO=RXOTG-83,SUBORD; para saber si el radio es EDGE-----------------------------------------------------------------------------------------------------------------------------------------rxmfp:mo=rxotrx-83-0&&-9; DEVICE STATE DETAILS STDEP:DEV=RBLT2-2625&&-2655; ---------------------SECUENCIA DE COMANDOS PARA INCREMENTAR CAPACIDAD DE CANALES DEDICADOS A GPRS------------Si el medio de Tx es por IP, entonces basta solo agregar la cantidad de numreqeg prsbpc directamente. rxtcp:moty=rxotg,cell=ES0009B; rxtcp:mo=rxotg-82; rxapp:mo=rxotg-82; rxape:mo=rxotg-82,dcp=40&&55; rxapi:mo=rxotg-82,dcp=40&&55,dev=RBLT2-2952&&-2967,res64k; rlbdc:cell=ES0009B,chgr=0,NUMREQEGPRSBPC=4; rlbdp:cell=ES0009B; rxasp:mo=rxotg-82; !Alarma situation! rlcrp:cell=ES0009B; rxcdp:mo=rxotg-82; rxmsp:mo=rxotg-82, subord; ----MUESTRA LOS dTRUs QUE TIENE EL SITIO Y A QUE SECTOR, BANDA Y POTENCIA MPWR E STA ASIGNADO A CADA RADIO: rxmop:mo=rxotx-248-0&-1&-2&-3&-4&-5; rxmop:mo=rxotx-248-4&-5&-6&-7; rxmop:mo=rxotx-82-8&-9; ----MUESTRA LAS CANTIDAD DE ANTENAS INSTALADAS PARA CADA RAMA DE FEEDERS POR SEC TOR: rxmop:mo=rxorx-82-0&-1&-2&-3; rxmop:mo=rxorx-82-4&-5&-6&-7; rxmop:mo=rxorx-82-8&-9; rxmop:mo=RXOTRX-82-0&&-3; rxmop:mo=RXOTRX-82-4&&-7; rxmop:mo=RXOTRX-82-8&&-9; ----MUESTRA A QUE SITIO PERTENECE ESE E1 Y LAS ALARMAS DEL E1: rxasp:mo=rxotg-82; RXMSP:MO=RXOTS-82-11-0&&-7; !ESTATUS DE LOS TS EN EL RADIO! ----MUESTRA LAS ALARMA DE CADA TG EN UNA BSC: RXMFP:MOTY=RXOCF,faulty; ----MUESTRA LOS TG DE LAS RBS EN LA BSC: RXTCP:MOTY=RXOTG;
----MUESTRA CELL SEIZURE SUPERVISION OF LOGICAL CHANNELS ALARMED OBJECTS DATA: This command is used to order printout of unapproved TCHs and SDCCHs belongi ng to the seizure supervision. Logical channels in internal cells which were continuously busy during the l ast concluded supervision period. RLVAP; ----VER EL DESLIZAMIENTO DEL E1: DTQUP:DIP=216RBL2; DTQSR:DIP=216RBLT,UNACC,DEGR,SF; ! ----ESTADO DEL DIP (WORKING o ABL): DTSTP:DIP=180RBL2;
!RESETEAR LOS CONTADORES DEL DIP
!ESTADO DEL DIP: WORKING o ABL!
----VER EL ESTADO DE LA CELDA (ACTIVE/HALTED): rlstp:cell=mn0020d; rlstc:cell=es0012f,chgr=all, state=active; ----MUESTRA LOS BCCH DE LAS CELDAS VECINAS EN LISTA IDLE Y EN ACTIVE: rlmfp:cell=ro0052d; rlump:cell=mn0012a;
!IMFI!
----MUESTRA LAS CELDAS VECINAS COMO ETIQUETA: rlncp:cell=ca0016a; ----MUESTRA LAS CELDAS VECINAS INTERNAS Y EXTERNAS: rlnrp:cell=ro0052e,cellr=all; rlnrp:cell=ro0052d,cellr=all,nodata; ----MUESTRA EL ICMSTATE, LIMIT1, LIMIT2, LIMIT3, LIMIT4 rlimp:cell=mn0049d; rlimi:cell=ca0023e; !Activa el parametro ICMSTATE! rlime:cell=ca0023e; !Inactiva el parametro ICMSTATE (PASSIVE)! rlimc:CELL=ri0025e,INTAVE=10,LIMIT1=5,LIMIT2=19,LIMIT3=32,LIMIT4=39; rlimc:CELL=ri0025e,INTAVE=25,LIMIT1=2,LIMIT2=6,LIMIT3=12,LIMIT4=22; ----MUESTRA LOS DEVICES CONFIGURADOS EN LA TRAMA E1 (ABIS PATH STATUS) Y LA ASIG NACION SPEECH/DATA: RXAPP:MO=RXOTG-82; ----MUESTRA LOS RECURSOS DE and) La interferencia se mide en infinito positivo, expresada en dBm, se divide ferencia del canal desocupado: Interferencia banda 1 es la Interferencia banda 5 es la Un SDCCH inactivo u ocupado del canal en reposo.
LA CELDA-ICMBAND(Current idle channel interference b un canal libre y el rango de valores, de negativo a en cinco intervalos que se denominan bandas de inter banda con la menor interferencia. banda con mayor interferencia. o TCH pertenece a una de las bandas de interferencia
rlcrp:cell=mn0049d; rlcrp:cell=mn0049a,detail; ----DISTRIBUCION DE BCCH, HOPPING, SDCCH, TCH EN LOS TS DE CADA RADIOS y TFMODE= SLAVE o MASTER: rxcdp:mo=rxotg-23;
----DATOS X-CEIVER ADMINISTRATION ALARM COORDINATION DATA: rxalp:mo=rxetg; rxalp:mo=rxotg-82,details; rxalp:mo=rxotg-143; ----VERIFICAR EL PORCENTAJE DE MENSAJES DE PAGING LOS CUALES SON DESCARTADOS EN LAS ULTIMAS 24 HRS: OL24: Peak paging overload. This parameter indicates highest rate of discarded p aging messages on LAPD link from all five minute periods during last 24 hours. It is expressed in percent. If an overload situation on the LAPD queues occurs and the discarded rate of pag ing messages exceeds 2%, the alarm "RADIO CONTROL ADMINISTRATION TRH LOAD THRESHOLD EXCEEDED" with EVENT = LAPD PAGING OVERLOAD is triggered. RXMDP:MO=RXOTRX-177-5,LAPD; RXMDP:MO=RXOTRX-16-8,LAPD; RXALC:MO=RXOTG-1,TGCOORD=ON,ALMASK=SIGOL; RXALC:MO=RXETG-2&&-4,TGCOORD=OFF,ALMASK=SYNC,ALCOTIM=120; RXALC:MO=RXOTG-1,MOC=TRXC,ALSIT=INT1,ALCLASS=A3; RXALC:MOTY=RXOTG,ALSIT=ALL,MOC=ALL,ALCLASS=DEFAULT; RXALC:MO=RXOTG-2&&-4,MOC=CF&TRXC,ALSIT=CONQ&SIGOL,ALCLASS=A3; ----MUESTRA EL PARAMETRO SIGDEL: SIGDEL=LONG, MFRMS=2 (Cuando la RBS tiene medio de Tx VSAT) SIGDEL=NORMAL,MFRMS=3 (Cuando la RBS tiene medio de TX MW/F.O) rxtcp:moty=rxotg,cell=ri0025e; rxmop:mo=rxotg-82; ----MUESTRA EL VALOR DEL PARAMENTRO CHANNEL ALLOCATION PROFILE (CHAP): This command connects a CHAP to one or several cells. At cell definition the def ault CHAP is connected to the cell. Another CHAP may be chosen using this command. The command is not valid for exte rnal cells. This parameter identifies the Channel Allocation Profile (CHAP) for one or sever al cells. The command is not valid for external cells. Numeral 0 - 13, Defualt value: 0 rlhpp:chap=1&4; !This command orders the printout of all internal cells connected to CHAP 1 and CHAP 4! rlhpp:chap=8; !This command orders the printout of all internal cells and the CHAP connected to each cell! RLHPP:cell=ES0009B; !This command orders the printout of all internal cells and the CHAP connected to each cell! RLHPC:CELL=mn0013d,CHAP=8; !This command connects the cells C1A and C1B to C HAP 0! ----MUESTRA LOS DATOS DE HSN,MAIO,ARFCN,TXAD,TN,HGIND POR RADIO RXHDP:MO=RXOTS-146-0-2; TS!
!el 1er# es el TG, el 2do# es el TRX y el 3er# es el
----------------------------MUESTRA PARAMETRO TSC----------------------------------------------SE DEBE HALTEAR EL CHGR DE INTERES PARA EJECUTAR EL CAMBION DEL TSC Y LUEGO ACTI VARLO NUEVAMENTE. RLDEP:CELL=mn0068a; RLDTP:CELL=mn0068a; RLSTC:CELL=ca0003a,CHGR=0,STATE=HALTED; RLDTC:CELL=ca0003a,CHGR=2,TSC=7; RLSTC:CELL=ca0003a,CHGR=0,STATE=ACTIVE; RLSTP:CELL=ca0003a;
!MUESTRA PARAMETRO TSC!
----------------------------CAMBIO DHASS=ON/OFF----------------------------------------------------------------------------DHASS is used to turn the signal strength check for DHA and the DHA part of Abis Triggered HR Allocation ON or OFF. The parameter is set per cell. RLCSP:CELL=mn0009d; RLCSC:CELL=as0022f,DHASSTHRASS=96,DHASSTHRHO=98,DHASS=ON; rlcsc:cell=as0009d,dhass=on; ----------------------------CAMBIO DE AMR------------------------------------------------RLDHP:CELL=mn0007d; RLDHC:CELL=mn0111b, RLDHC:CELL=ca0010f, RLDHC:CELL=mn0303c,
dha=on; dthamr=70; dthnamr=15;
RLDHC:CELL=SJ0002F, DTHAMR=95,DHPRL=1&&15; 2E)!
!PARA LA NUEVA BSC EVOLUTION(BSCJU
----------------------------AMR POWER CONTROL CELL DATA (AMRPCSTATE)---------------------------------------RLAPP:CELL=mn0007d; RLAPI:CELL=as0022f; RLAPE:CELL=mn0013d; RLAPC:CELL=mt0049a,sctype=all,ssdesdlafr=90,ssdesulafr=85,qdesdlafr=40,qdesulafr =5,ssdesdlahr=90,ssdesulahr=80,qdesdlahr=30,qdesulahr=25; RLAPC:CELL=ba0012d,ssdesulafr=92,qdesulafr=40; ----------------------------ACTIVAR DMPSTATE (Dynamic MS Power Control Cell Data : (SSDESUL,QDESUL,LCOMPUL,QCOMPUL))------------rlpci:cell=mn0007d; !This command activates dynamic Mobile Station (MS) power control in a cell! rlpce:cell=mn0002d; !This command deactivates dynamic Mobile Station (MS) pow er control in a cell! rlpcp:cell=mn0007a; RLPCC:CELL=ri0024a,SCTYPE=UL,SSDESUL=92,QDESUL=30,LCOMPUL=5,QCOMPUL=60; RLPCC:CELL=ri0024a,SCTYPE=OL,SSDESUL=90,QDESUL=30,LCOMPUL=5,QCOMPUL=55; rllfp:cell=mt0049a; ----------------------------ACTIVAR DE DMSUPP--------------------------------------------------------------------
Dynamic FR/HR Adaptation (DYMA): Si DYMA se activa (DMSUPP = ON) la feature se a ctiva de acuerdo con los parametros DMTHAMR y DMTHNAMR. Si el numero de los canales libres FR_TCH dividido por el numero total de canales d esbloqueados FR_TCH en la celda, esta por debajo de los valores umbrales maximos de DMTHAMR y DMTHNAMR entonces el empaquetado de canales por HR puede ser iniciado. RLDMP:CELL=mn0007a; RLDMI:CELL=es0012e; !Cambia al estado ON! RLDME:CELL=mn0296a; !Cambia al estado OFF! RLDMC:CELL=mt0049a,dmqb=on,dmqg=on,dmthamr=30,dmthnamr=15,dmtfamr=100,dmtfnamr=1 00; rldmc:cell=as0085f,dmpr=off; ---------------------------PARA CAMBIAR PARAMETRO SCALLOC (BOTH(UL/OL))----------------------------------------------If the cell is active, GPRS support is activated for the cell and a value higher than the current value is specified for the parameter FPDCH, the corresponding number of Traffic Channels (TCHs) are allocated and activated as GPRS dedicated channels. If there are not enough idle TCHs when the command is entered, TCHs will be allocated and activated as GPRS dedicated channels as they become availa ble. UL: GPRS is restricted to the underlaid subcell. OL: GPRS is restricted to the overlaid subcell. BOTHUL: GPRS is allowed in both subcells and the underlaid subcell will be searc hed first. BOTHOL: GPRS is allowed in both subcells and the overlaid subcell will be search ed first. RLGSP:cell=mn0015a; RLBDP:CELL=mn0314a; RLCFP:CELL=mn0314a; RLGSC:cell=mn0001a,scalloc=bothol,la=on; ---------------------------CONFIGURACION DE LOS DCP (DIGITAL CONEXTION POINT)---------------------------dcp1: DCP used for the signalling path to the Transceiver Controller (TRXC) dcp2: DCP used for the speech and data connections to the TRXC Assignment of TRXC to SC: Value of Parameters DCP1 and DCP2 for TRXC 178-204 0 205-231 1 232-258 2 259-285 3
Super Channel Number
RXMOP:MOTY=RXOTRX; !PRINT LOS DCP DE TODA LA BSC! RXTCP:MOTY=RXOTG,CELL=gr0001d; rxmop:mo=RXOTRX-82-0&&-4; RXMOC:MO=RXOTRX-212-0,DCP1=178,DCP2=179&&186,TEI=0; !PARA ASIGNAR LOS DCP!
---------------------------CELL CHANNEL ALLOCATION DATA--------------------------------------------------RLCLP:CELL=ES0009B; RLPPP:PP=ALL; !Inaccesibilidad de Datos! ---------------------------DEFINICION DE FPDCH PARA TRAFICO DE DATOS (GPRSSUP, S TREAMSUP,EITEXCLUDED,FLEXHIGHGPRS)----------------------El parametro GPRSSUP=YES. FLEXHIGHGPRS: This cell parameter indicates whether to allocate 64 kbps Abis pat hs or 16 kbps Abis resources for GPRS mobiles. 0 = The system shachll not allocate 64 kbps Abis paths for GPRS mobiles (RECOMEN DABLE). 1 = The system shall allocate 64 kbps Abis paths when available also for GPRS mo biles. PDCHPREEMPT:This parameter controls on-demand PDCHs that are possible to preempt to be used for circuit switched calls. 0: All on-demand PDCHs are possible to preempt. 1: On-demand PDCHs not used for Dual Transfer Mode (DTM) are possible to preempt . 2: On-demand PDCHs not used for Streaming are possible to preempt. 3: On-demand PDCHs not used for DTM nor for Streaming are possible to preempt. 4: On-demand PDCHs that are not essential are possible to preempt. 5: On-demand PDCHs that are not essential nor DTM PDCHs are possible to preempt. 6: On-demand PDCHs that are not essential nor Streaming PDCHs are possible to pr eempt. 7: On-demand PDCHs that are not essential nor DTM nor Streaming PDCHs are possib le to preempt. 8: Idle on-demand PDCHs are possible to preempt. RLGSI:CELL=mn0100c; RLGSE:CELL=ri0012f;
!Pone en estado YES al GPRSSUP! !Pone en estado OFF al GPRSSUP!
RLBDP:CELL=ca0017f; RLGSP:CELL=mt0005b; RLGRP:CEll=mt0015c; !MUESTRA EL TRAFICO DE DATOS Y CANT DE CANALES (FIJOS/E NDEMANDA)OCUPADOS! RLGSC:CELL=ca0017d,FPDCH=5; RLCRP:CELL=mt0003a; rxtcp:moty=rxotg,cell=ca0017d; !MUESTRA EL TG! rxapp:mo=rxotg-155; !MUESTRA RECURSOS DE LA CELDA Y SI TIENE RECURSO S LIBRE PARA AMPLIAR NUMREQEGPRSBPC! rlcrp:cell=ri0037d; RLDGP:CELL=ri0037f; !MUESTRA LA ASIGNACION DE LOS CHGR POR CAPA Y BANDA! RLGSP:CELL=mn0004a; RLGSC:CELL=mn0004a,pdchpreempt=8,primplim=8,flexhighgprs=0,chcsdl=cs2; RLBDC:CELL=NS0001B,CHGR=0,TN7BCCH=EGPRS,EACPREF=YES; RLDGC:CELL=ro0003a,chgr=0,sctype=ol; RLGQC:CELL=mn0287b,STREAMSUP=YES,EITEXCLUDED=2; RLGQC:CELL=ca0017e,STREAMSUP=YES,BPDCHBR=8,GPDCHBR=16,EPDCHBR=32;
!PDCHPREEMPT (Packet Data Channels (PDCHs) preemptability)! This parameter indicates which on-demand PDCHs are possible to preempt to be use d for circuit switched calls. The availability of this parameter depends on commercial agreements relating to optional feature Fle xible Priority Handling of PDCH. 0: All on-demand PDCHs are possible to preempt. 1: On-demand PDCHs not used for Dual Transfer Mode (DTM) are possible to preempt . 2: On-demand PDCHs not used for Streaming are possible to preempt. 3: On-demand PDCHs not used for DTM nor for Streaming are possible to preempt. 4: On-demand PDCHs that are not essential are possible to preempt. 5: On-demand PDCHs that are not essential nor DTM PDCHs are possible to preempt. 6: On-demand PDCHs that are not essential nor Streaming PDCHs are possible to pr eempt. 7: On-demand PDCHs that are not essential nor DTM nor Streaming PDCHs are possib le to preempt. 8: Idle on-demand PDCHs are possible to preempt. !FLEXHIGHGPRS (Abis resource allocation handling for EGPRS capable channels)! This parameter indicates how to handle Abis resource allocation on Enhanced GPRS (EGPRS) capable channels with flexibly allocated Abis path for non-EGPRS capable Mobile Stations (MSs). 0: 64k resources is not allocated. 1: 64k resources is allocated when available. !PRIMPLIM (Primary PDCH Set (PSET) limit)! This parameter ind icates the maximum number of GPRS dedicated and semi-dedicated channels allowed in the pri mary PSET. Numeral 1 - 8 ---------------------SECUENCIA DE COMANDOS PARA INCREMENTAR CAPACIDAD DE CANALES DEDICADOS A GPRS------------Si el medio de Tx es por IP, entonces basta solo agregar la cantidad de numreqeg prsbpc directamente. rxtcp:moty=rxotg,cell=ES0009B; rxtcp:mo=rxotg-82; rxapp:mo=rxotg-82; rxape:mo=rxotg-82,dcp=1&&3; rxapi:mo=rxotg-82,dcp=1&&3,dev=RBLT2-2625&RBLT2-2626&RBLT2-2627,res64k; rxapi:mo=rxotg-82,dcp=46&&48,dev=RBLT2-7758&RBLT2-7759&RBLT2-7760; rlbdc:cell=ca0017d,chgr=1,NUMREQEGPRSBPC=2; rlbdp:cell=mt0007f; rxasp:mo=rxotg-82; !Alarma situation! rlcrp:cell=ca0003d; rxcdp:mo=rxotg-155; rxmsp:mo=rxotg-27, subord; -------------PROCEDIMIENTO PARA REASIGNAR LOS CANALES EN 64K a ONDEMAND (TCH_VOZ )------------RXAPP: MO=RXOTG-48; !Imprimo Configuración de la trama de Recursos de vos y Dat os! RXAPE: MO=RXOTG-48,DCP=36; !Retiro de la trama los dispositivos del E1 desde el 14 hasta el 18! RXAPI: MO=RXOTG-48,DCP=36,DEV= RBLT-1572; !Los asigno nuevamente, esta vez solo para el servicio de voz! RXAPP: MO=RXOTG-48; !Imprimo Configuración de la trama de Recursos de vos y Dat
os! ------------------------RESET A LOS RP---------------------------------------------RP: Regional Processor BLRPI:RP=422,FORCED; !BLOQUEA EL RP! BLRPE:RP=422; !DESBLOQUEA EL RP! DIRRP:RP=422; !Printout of the RF event log ! DIRRP:RP=422,COM; !Printout of the event log of RP and the system global event log! DIRRP:RP=ALL; !Printout of the event log of all existing RPs and the s ystem global event log! --------------------------HALTED-ACTIVE CELL------------------------------------------------------------------------------------rlstp:cell=mn0283a&mn0283b; rlstc:cell=mn0283a, chgr=all,state=halted; rlstc:cell=mn0283b, chgr=all,state=active; --------------------------MAXTA-TALIM--------------------------------------------------------------------------------------------(Condicion para el DropCall una vez que el movil supero su umbral=63TA) RLLDP:CELL=mn0068a; RLLDC:CELL=ca0003f, MAXTA=63; RLLDC:CELL=gr0018a, RLINKUP=32; (Condicion de urgencia para que la BSC busque y force el HO de la llamada con un a vecina antes del DropCall. Su umbral=62) RLLUP:CELL=mn0068a; RLLUC:CELL=ca0003f, TALIM=62; -------------------------CAMBIO DE ACCMIN Y CRH PARA MINIZAR LOCATION AREA UPDAT E EN BORDE DE LA CELDA---------------------------------------------------RLSSP:cell=ro0052d; RLSSC:CELL=ro0052d, ACCMIN=102; RLSSC:cell=ro0052d, CRH=; RLSSC:CELL=mn0191b,NCCPERM=0&1&2&3&4&5&6&7; RLSSC:CELL=MT0065E,CCHPWR=23,CRH=10,DTXU=2; RLSSC:CELL=gr0018a, NCCPERM=0&1&2&3&4&5&6&7,RLINKT=20,RLINKTAFR=22,RLINKTAHR=22; rlssc:cell=ri0025e,dtxu=1; -------------------------CAMBIAR POTENCIAS BSPWR/BSTPWR_BSPWRT/BSPWRB-----------------------------------------------------------------------BSPWR: Base Station ERP(Effective Radiated Power) power for BCCH frequency. BSTXPWR: Base Station ERP power for non-BCCH frequency. BSPWRB: Base Station (BS) output power in dBm, for Broadcast Control Channel (B CCH) Radio Frequency (RF) channel number. BSPWRT: BS output power in dBm, for non-BCCH RF channel numbers. rllop:CELL=AN0004B;
rlloc:cell=AN0004E,SCTYPE=ALL,bspwr=39,bstxpwr=39; rlloc:cell=AN0004E,bspwr=39,bstxpwr=39; !CELDA EXTERNA! rlcpp:cell=AN0004B; rlcpc:cell=AN0004E,bspwrb=39; rlcpc:cell=AN0004E,bspwrt=39, sctype=all; rlcpc:cell=ES0048D,MSTXPWR=33, sctype=all; rlcpc:cell=ES0048E,MSTXPWR=33, sctype=all; rlcpc:cell=ES0048F,MSTXPWR=33, sctype=all; -------------------------CAMBIO DE CRO y T3212-----------------------------------------------------------------------------------------CRO: 0 (0dB) 1 (2dB) 2 (4dB) . . 63(126dB) RLSBP:CELL=AN0004D&AN0004E&AN0004F; RLSBC:CELL=AN0058F,CRO=0; RLSBC:CELL=mt0049d,MAXRET=4,TX=32,PT=0,TO=0; RLSBC:CELL=MT0065E,T3212=6; ***T3212 time-out value*** This parameter indicates the time-out value, Es el intervalo de tiempo que usa l a BSC para monitorear la ubicacion del MS, y asi actualizar su tabla de Location Area Update para el HLR. Asi cuando la BSC busque al MS par a establecer un llamada lo pueda encontrar y no se genere un Drop de sdcch. A este proceso se le llama PAGING. Alta utilizacion de PAGING afecta l a accesibilidad de una BSC. La congestion de PAGIN depende de la cantidad de LACs que haya en la red. 0: Infinite time-out 1: 0.1 hours 2: 0.2 hours 3: 0.3 hours . . 255: 25.5 hours --------------------------CAMBIO DE LAYERTHR--------------------------------------------------------------------------------RLLHC:CELL=MN0017A,LAYER=1,LAYERTHR=20,LAYERHYST=30,PSSTEMP=17,PTIMTEMP=40; RLLHP:CELL=AN0004B&AN0004E; RLLHC:CELL=AN0058F, layerthr=85; rllhc:cell=ro0046b,layer=2; -------------------------RADIO CONTROL CELL, LOCATIONG HIERARCHICAL DATA, CHANGE -----------------------------------HCS threshold is the minimum required SS for the cell to be in HCS ranking list.
(thus if SS < HCS threshold => cell not prioritized) HCS in : if available TCH % < HCS IN => the cell (900 or 1800) is congested and then will be retrieved from HCS ranking list (not prioritized) HCS OUT : if available TCH % > HCS OUT : this cell has not a traffic then if it is the serving cell; no HCS HO will be allowed from this cell and if it is a neighboring cell; HCS HO is allowed to this cell HCS HCS HCS HCS HCS
handover in threshold 0 handover out threshold 100 threshold: control coverage in: control congestion/traffic out: control handover
% %
as conclusion : we consider TCH availabilty % = TAV ////////for the serving cell point of view : 1. case 1: TAV > HCS OUT => no HCS HO allowed from the cell 2. case 2 : HCS IN < TAV < HCS OUT : HCS HO alloued from the cell and this servi ng cell is still prioritized according to its layer 3. case 3 : TAV < HCS IN : serving cell not prioritized and retrived from HCS ra nking list ///// for the neighboring cell point of view : 1. case 1: TAV > HCS OUT : or 2. case 2 : HCS IN < TAV < HCS OUT : => HCS IN < TAV => HCS HO alloued to this cell (because is not congested) 3. case 3 : TAV < HCS IN : neighboring cell not prioritized and retrived from HC S ranking list RLLHP:CELL=mn0020d; RLLHC:CELL=mt0007e,HCSIN=0,HCSOUT=100; RLHBP; !BSC LOCATING HIERARCHICAL CELL STRUCTURE BAND DATA! -------------------------CELL LOAD SHARING (ESTA FEATURE NO SE DECALARA PARA LAS CELDAS EXTERNAS: FALUT CODE 38) ------------------------------------------NOTA: PARA QUE LA FEATURE CLSSTATE=ON TENGA EFECTO SE DEBE HABILITAR TAMBIEN LA FEATURE LSSTATE=ON HOCLSACC: Handover due to Cell Load Sharing accepted to this cell. Value Range O N/OFF ON Cell accepts Cell Load Sharing handover. OFF
Cell does not accept Cell Load
Sharing handover.
CLSLEVEL: Determina el umbral de utilizacion libre. Ej. CLSLEVEL=30, significa que cuando le quede 30% de utilizacion libre (La celda estal 70% de utilizacion de TCH en ese momento) entonces se activa la feature CLS y empieza a ceder trafico tch a sus vecinas co n esta feature tambien activa. Valor entre 0 a 100%.
CLSACC: Determina el umbral de utilizacion libre en el que ella puede empezar a recibir trafico de sus vecinas. Valor entre 0 a 99%. CLSACC > CLSLEVEL EJEMPLO para CLSLEVEL. Se utiliza la Regla de 3. Se estipula que deben haber alm enos 4ts libres en el total de los sdcch. Para una celda con 8 TRX el calculo sera: 8trx * 8ts = 64 bpc o ts. 64bpc --- 100% 4ts --- X ; x=6%, entonces CLSLEVEL=6 EJEMPLO para CLSACC. Se utiliza la Regla de 3. Se estipula que deben haber almen os 7ts libres en el total de los sdcch. Para una celda con 8 TRX el calculo sera: 8trx * 8ts = 64 bpc o ts. 64bpc --- 100% 7ts --- X ; X=10%, entonces CLSACC=10 RLLSP; RLLSI; RLLSE;
!MUESTRA EL ESTADO DE LSSTATE (LOAD SHARING STATUS) EN LA BSC! !HABILITA LA FEATURE LSSTATE! !DESHABILITA LA FEATURE LSSTATE!
RLLCP:CELL=mt0007c&mt0007f; RLLCI:CELL=mt0007c; RLLCE:CELL=CH0033C;
!LA FEATURE ES ACTIVADA! !LA FEATURE ES DESACTIVADA!
RLLCC:CELL=ca0019b,CLSLEVEL=25,CLSACC=44,HOCLSACC=ON; RLLCC:CELL=mt0007d,CLSLEVEL=13,CLSACC=22,HOCLSACC=ON;
!PARA BTS 1900! !PARA BTS 850!
RLLCC:CELL=ca0003c,CLSLEVEL=20,CLSACC=40,HOCLSACC=ON; RLLCC:CELL=ca0003f,CLSLEVEL=20,CLSACC=40,HOCLSACC=ON;
!VALORES CDD! !VALORES CDD!
----------------------MODIFICAR VALORES DE CELL LOCATING INTRACELL HANDOBER DATA (IHO,TIHO,SSOFFSETULP,QOFFSETULAFRP)-------------------RLIHP:CELL= ca0016b; RLIHC:CELL= mn0048a, SCTYPE=ALL, IHO = ON ; RLIHC:CELL= mn0048a, SCTYPE=ALL, MAXIHO = 2 ; RLIHC:CELL= mn0048a, SCTYPE=ALL, TMAXIHO = 7 ; RLIHC:CELL= mn0048a, SCTYPE=ALL, TIHO = 10 ; RLIHC:CELL= mn0048a, SCTYPE=ALL, SSOFFSETULP = 10 ; RLIHC:CELL= mn0048a, SCTYPE=ALL, SSOFFSETULP = 0 ; RLIHC:CELL= mn0048a, SCTYPE=ALL, SSOFFSETDLP = 10 ; RLIHC:CELL= mn0048a, SCTYPE=ALL, SSOFFSETDLP = 0 ; RLIHC:CELL= mn0048a, SCTYPE=ALL, QOFFSETULP = 0 ; RLIHC:CELL= mn0048a, SCTYPE=ALL, QOFFSETDLP = 10 ; RLIHC:CELL= mn0048a, SCTYPE=ALL, SSOFFSETULAFRP = 10 ; RLIHC:CELL= mn0048a, SCTYPE=ALL, SSOFFSETULAFRP = 0 ; RLIHC:CELL= mn0048a, SCTYPE=ALL, SSOFFSETDLAFRP = 10 ;
RLIHC:CELL= ; RLIHC:CELL= ; RLIHC:CELL= ; RLIHC:CELL= ; RLIHC:CELL= ; RLIHC:CELL= ; RLIHC:CELL= ;
mn0048a,
SCTYPE=ALL,
SSOFFSETDLAFRP
=
0
mn0048a,
SCTYPE=ALL,
QOFFSETULAFRP
=
10
mn0048a,
SCTYPE=ALL,
QOFFSETULAFRN
=
0
mn0048a,
SCTYPE=ALL,
QOFFSETDLAFRP
=
10
mn0048a,
SCTYPE=ALL,
QOFFSETDLAFRP
=
0
mn0048a,
SCTYPE=ALL,
QOFFSETULN
=
10
mn0048a,
SCTYPE=ALL,
QOFFSETDLN
=
0
-------------------------DYNAMIC MS POWER CONTROL CELL DATA (DMPSTATE)-------------------------------------------------RLPCP:CELL=mt0049a&mt0049d; RLPCI:CELL=ba0012d; RLPCE:CELL=mt0065e; RLPCC:CELL=ca0003f,sctype=all,ssdesul=90,qdesul=30,lcompul=5,qcompul=55; -------------------------DYNAMIC BTS POWER CONTROL CELL DATA (DBPSTATE)---------------------------------------------RLBCP:CELL=ca0016a&ca0016b&ca0016c; RLBCI:CELL=ba0012d; RLBCE:CELL=ba0012d; RLBCC:CELL=ba0012d,sctype=all,ssdesdl=98,qdesdl=30,lcompdl=5,qcompdl=55; --------------------------VER SI LA RBS ESTA SINCRONIZADA TFMODE=S(SLAVE), TFMOD E=M(MASTER)-------------------------------------RXCDP:MO=RXOTG-82; -------------------------CAMBIO DE TSC: SE EVALUA EL BSIC, Y EL TSC TOMA EL VALO R DE EL ULTIMO DIGITO DEL BSIC--------------------!TSC=bcc para todos los chgr! RLSTP:CELL=ca0016a; RLDEP:CELL=mn0266b; RLDTP:CELL=mn0266b; !MUESTRA EL VALOR DEL PARAMETRO TSC! RLSTC:CELL=mn0266b,CHGR=1,STATE=HALTED; RLDTC:CELL=mn0266b,CHGR=1,TSC=5; RLSTC:CELL=mn0266b,CHGR=1,STATE=ACTIVE; ------------------------CHANGE BSIC-----------------------------------------------------------------------------------------!Se debe haltear la celda. BSIC=ncc+bcc! RLSTP:CELL=mn0085d; RLDEP:CELL=mn0085d; RLDTP:CELL=mn0085d; RLSTC:CELL=mn0085d,CHGR=all,STATE=HALTED; RLDEC:CELL=mn0085d,BSIC=15; RLSTC:CELL=mn0085d,CHGR=all,STATE=ACTIVE; ------------------------CAMBIAR UN TCH------------------------------------------
--RLCFP:CELL=mn0085d; RLCFI:CELL=mn0085d,CHGR=1,DCHNO=222; RLCFE:CELL=mn0085d,CHGR=1,DCHNO=228;
!Agregar el tch deseado! !Eliminar el tch no deseado!
-----------------------CHANGE MAIO y HSN---------------------------------------------------------------------------------------MAIO: Mobile Allocation Index Offset RLCHP:CELL=mn0013c; RLBDP:CELL=mt0042e; RLCHC:CELL=mn0135e,CHGR=1,maio=0&1&2; RLCHC:CELL=mn0135e,CHGR=2,HSN=40; ------------------------CAMBIAR BCCH EN UNA CELDA-----------------------------------------------------------------!Se recomienda hacerlo via CNA! RLSTC:CELL=MN0085d,CHGR=0&1,STATE=HALTED; !Se Haltean los CHGRs! RLDEC:cell=MN0085d,BSIC=55,BCCHNO=577; !Sustituyendo el bcch viejo por el nuevo bcch! RLSTC:CELL=MN0085d,CHGR=0,STATE=ACTIVE; !Se Activa el CHGR=0! RLSTC:CELL=MN0085d,CHGR=1,STATE=ACTIVE; !Se Activa el CHGR=1! RLMFE:CELL=MN0302B,MBCCHNO=245,LISTTYPE=IDLE; !Se elimina el bcch viejo de Idl e List! RLMFC:CELL=MN0302B,MBCCHNO=577,LISTTYPE=IDLE; !Se declara el nuevo bcch en Idl e List! !Se eliminan de sus vecinas el bcch viejo (IDLE/ACTIVE)! RLMFE:CELL=MN0315a,LISTTYPE=ACTIVE,MBCCHNO=568; RLMFE:CELL=MN0315a,LISTTYPE=IDLE,MBCCHNO=568; RLMFE:CELL=MN0150E,LISTTYPE=ACTIVE,MBCCHNO=568; RLMFE:CELL=MN0315a,LISTTYPE=IDLE,MBCCHNO=568; !Se agrega a sus vecinas el bcch nuevo (IDLE/ACTIVE)! RLMFC:CELL=MN0315a,LISTTYPE=ACTIVE,MBCCHNO=568; RLMFC:CELL=MN0315a,LISTTYPE=IDLE,MBCCHNO=568; RLMFC:CELL=MN0150E,LISTTYPE=ACTIVE,MBCCHNO=568; RLMFC:CELL=MN0315a,LISTTYPE=IDLE,MBCCHNO=568; !Renombrar etiqueta de una celda en un TG! RXTCI:MO=RXOTG-598,CELL=MN0222B,CHGR=0; al TG-598 del sitio en CHGR 0! RXTCI:MO=RXOTG-598,CELL=MN0222B,CHGR=1; al TG-598 del sitio en CHGR 1!
!Declarando la etiqueta de la celda !Declarando la etiqueta de la celda
------------------------BORRAR VECINDAD AMBOS SENTIDOS------------------------------------------------------------------!PARA LA CELDA DE INTERES! RLNRE:CELL=gr0011a,CELLR=ri0035d; !Borrando la relacion: CELL= celda interes, CELLR=Celda no deseada! RLMFE:CELL=mn0297c,MBCCHNO=581,LISTTYPE=ACTIVE,MRNIC; !Borrando en la lista Active de la celda de interes el bcch de la vecina no deseada! RLMFE:CELL=ms0031f,MBCCHNO=243,LISTTYPE=IDLE,MRNIC; !Borrando en la lista Idle de la celda de interes el bcch de la vecina no deseada! !PARA LA VECINA BORRADA! RLMFE:CELL=mn0037c,MBCCHNO=244,LISTTYPE=ACTIVE,MRNIC; !Borrando en la lista
Active de la celda vecina borrada, el bcch de la celda de interes! RLMFE:CELL=mn0037c,MBCCHNO=244,LISTTYPE=IDLE,MRNIC; !Borrando en la lista Idle de la celda vecina borrada, el bcch de la celda de interes! ----------------------DECLARACION DE NUEVA VECINDAD INTERNA------------------------------------------------------!Define internal relation (MUTUAL)! RLNRI:CELL=MN0073D,CELLR=MN0160D; !CELL=celda de interes. CELLR=celda nueva vecina! RLMFC:CELL=MN0046E,MBCCHNO=244,LISTTYPE=ACTIVE,MRNIC; !CELL=celda de interes. MBCCHNO=bcch de la nueva vecina! RLMFC:CELL=MS0031f,MBCCHNO=243,LISTTYPE=IDLE,MRNIC; !CELL=celda de interes. MBCCHNO=bcch de la nueva vecina! rlnrp:cell=gr0011a,cellr=all,nodata; ----------------------DECLARACION DE NUEVA VECINDAD EXTERNA------------------------------------------------------!Crear la celda de interes en la BSC EXT! RLDEE:CELL=mn0089e; !Se borra la celda si ya estaba mal integrada! RLDEI:CELL=mn0289a,CSYSTYPE=GSM1900,EXT; RLDEC:CELL=mn0289a,CGI=710-21-18-10767,BSIC=42,BCCHNO=584; RLCPC:CELL=mn0289a,MSTXPWR=30; RLLOC:CELL=mn0289a,BSPWR=41,BSTXPWR=41,BSRXMIN=150,BSRXSUFF=150,MSRXMIN=100,MSRX SUFF=0,SCHO=OFF,MISSNM=3,AW=ON,EXTPEN=ON; RLLHC:CELL=mn0289a,LAYER=2,LAYERTHR=85; RLMFC:CELL=mn0067a,MBCCHNO=245,MRNIC; RLNRI:CELL=mn0067a,CELLR=ro0052d,SINGLE; !Crear la celda EXT en la BSC de la celda de interes! RLDEE:CELL=mn0157c; RLDEI:CELL=mn0157c,CSYSTYPE=GSM1900,EXT; RLDEC:CELL=mn0157c,CGI=710-21-431-30329,BSIC=24,BCCHNO=568; RLCPC:CELL=mn0157c,MSTXPWR=30; RLLOC:CELL=mn0157c,BSPWR=43,BSTXPWR=43,BSRXMIN=150,BSRXSUFF=150,MSRXMIN=100,MSRX SUFF=0,SCHO=OFF,MISSNM=3,AW=ON,EXTPEN=ON; RLLHC:CELL=mn0157c,LAYER=2,LAYERTHR=85; RLMFC:CELL=mn0289a,MBCCHNO=568,MRNIC; RLNRI:CELL=mn0289a,CELLR=mn0157c,SINGLE; !Define external relation! rlnrp:cell=ro0052d,cellr=all,nodata; -----------------------REVISAR UN CDD--------------------------------------------------------rldep:cell=mn0162e; rldtp:cell=mn0162e; rlcpp:cell=mn0162e; rlcfp:cell=mn0162e; rlbdp:cell=mn0162e; rlchp:cell=mn0162e; rlssp:cell=mn0162e; rlsbp:cell=mn0162e; rllop:cell=mn0162e; rlldp:cell=mn0162e; rlhpp:cell=mn0162e; rlgsp:cell=mn0162e; rlmfp:cell=mn0162e;
rlncp:cell=mn0162e; RLACP:CELL=ns0005a&ns0005b&ns0005c; ----------------------CHEQUEO DE INCONSISTENCIAS:----------------------------------------------------------------------------rlstp:cell=ri0025e; rldep:cell=ri0025e; rlmfp:cell=ri0025e; rlncp:cell=ri0025e; rlhpp:cell=ri0025e; rlcfp:cell=ri0025e; rlbdp:cell=ri0025e; rlchp:cell=ri0025e; rlcrp:cell=ri0025e; rllop:cell=ri0025e; rlcpp:cell=ri0025e; rlgsp:cell=ri0025e; rlgrp:cell=ri0025e; rldtp:cell=ri0025e; rlihp:cell=ri0025e; rlssp:cell=ri0025e; rlsbp:cell=ri0025e; rlimp:cell=ri0025e; rlnrp:cell=ri0025e,cellr=all;
---------------------PARA BLOQUEAR TODA LA RBS---------------------------------------------------------------------------rxbli:mo=rxotg-tg, subord,force; ---------------------LE DESCARGAS EL SOFTWARE A LA RBS----------------------------------------------------------------------------rxese:mo=rxotg-tg,subord; rlstc:cell=celda, state=halted; ---------------------BLOQUE DE UN SOLO RADIO--------------------------------------------------------------------------------------RXBLI:MO=RXOTRX-TG-TRX,SUBORD,FORCE; RXESE:MO=RXOTRX-TG-TRX,SUBORD; ---------------------DESBLOQUEO PARA SUBIR UN RADIO------------------------------------------------------------------------------RXESI:MO=RXOTRX-TG-TRX,SUBORD; RXBLE:MO=RXOTRX-TG-TRX,SUBORD; ---------------------BLOQUEO DE UN TIMESLOT-------------------------------------------------------------------------------------RXBLI:MO=RXOTS-TG-TRX-TS,FORCE; RXESE:MO=RXOTS-TG-TRX-TS;
---------------------DESBLOQUEO--------------------------------------------------------------------------------RXESI:MO=RXOTS-TG-TRX-TS; RXBLE:MO=RXOTS-TG-TRX-TS; ---------------------CONFIGURACION DE TRANSCODERS--------------------------------------------------------------------------RRTPP:TRAPOOL=ALL; rrmap:trapool=all,detailed;
!Muestra alarmas en los transcoders device!
---------------------PARA SABER No.TRXs en un BSC--------------------------------------------------------------------------saaep:sae=1153; ---------------------PARA VER LOS APNs HABILITADOS EN UN NUMERO CELULAR-----------------------------------------------(COMMAND HANDLING) HGSDP:MSISDN=50588528627,ALL; HGAPP:APNID=ALL; ---------------------PARA SABER LA VELOCIDAD DE CONEXION DEL APN----------------------------------------------------NGEQP:EQOSID=4095; ---------------------COMANDOS DE MSC-------------------------------------rcortez@mas1o> eaw MSSSE01 mgcep:cell=all; !MUESTRA LOS DATOS CGI! mgocp:cell=all; !MUESTRA LAS CELDAS EXTERNAS EN LA MSC! MGOCI:CELL=ba0020d,CGI=710-21-43-10707,MSC=MSSES01; MGOCI:CELL=ba0020e,CGI=710-21-43-20707,MSC=MSSES01; MGOCI:CELL=ba0034D,CGI=710-21-471-10535,MSC=MSSVF01; MGOCI:CELL=ba0034E,CGI=710-21-471-20535,MSC=MSSES01; mglap; !MT LOCATION AREA DATA! mgbsp:bsc=all; !MT BASE STATION CONTROLLER DATA! mgcap; !MT OWN CALLING ADDRESS DATA! quit --------------------CREAR UNA CELDA O CAMBIAR EL VALOR DEL CGI EN LA CENTRAL MSC ---------------------Se elimina la celda con el cgi actual malo y luego se crea la misma celda con en nuevo cgi. MGCEP:CELL=ba0020d; MGCEE:CELL=ca0004e; MGCEI:CELL=ba0020d,CGI=710-21-43-10707,BSC=BSCVF01; --------------------OBTENER TIPO DE GABINETE DE LAS RBS DE TODA LA RED--------------------------bsm_hw_export -a rulogicalid TODA LA RED!
BSM export
!SE OBTIENE EL LOG DE GABINETES PARA
--------------------VER DONDE SE HA REGISTRADO UN NUMERO---------------------------CHKRES(Check result): WHITE: White-listed GREY: Grey-listed BLACK: Black-listed UNKNOWN: Unknown equipment in the Equipment Identity Register (EIR) UNSPEC: Unspecified check result CNT(IMEI access counter value) This parameter indicates the number of consecutive IMEI fetches from the MS w ith the same white-listed IMEI since the latest EIR check. IMEISV(International Mobile station Equipment Identity Software Version number) RESTR(Roaming restriction information) STATE(State of MS): IDLE: Idle and attached BUSY: Busy and attached DET: Detached IDET: Implicit detached LIMITED: Idle and Limited Services due to partial roaming restriction. The availability of this parameter value depends on commercial agreemen ts TIME(This parameter indicates the time which the satellite information was store d in MSC/VLR) Expressed as hhmm where: hh: Hour mm: Minute sec: seconds eaw HLRVF01 hgsdp:msisdn=50585240623,loc; !muestra el IMSI del numero en el hlry el numero de la MSS (MSC NUMBER)! hgsdp:msisdn=50585240623,all; !opcional! quit eaw MSSSE01 !Entramos a la central una vez identificada! mgcap; !para ver el GT de la central (NAT) y compararlo con el MSC Number. Si co ncuerdan esa es la MSS donde esta registrado el numero! mgssp:imsi=710210109887940; !muestra CGI, IMEI del movil y el estado! !NOTA: Si el celular es 3G se debe buscar en la RNC correspondiente usando el va lor del CI (CGI)! rcortez@ossuas01> amos RNCSE01 RNCSE01> lt all RNCSE01> lhget utrancell= Cid 4596 !Te muestra la celda en la que esta registr ado el numero (UtranCell=MN0015R, CID=4596)! !Muestra los sectores que tiene el nodo (opcional)! RNCSE01> lhget utrancell=mn0235 Cid
RAMDC:RID=MRRID07,CELL=VINGA; !The cell VINGA is added to the RID MRRID07! RAMDC:RID=MRRID03,CELL=ALL,CSYSTYPE=GSM900; !All internal cells with the system type GSM 900 is added to the RID MRRID03!
RAMDC:RID=MRRID04,CELL=ALL,REM; Command Descriptions RABDC: Radio Control RABDE: Radio Control RABDP: Radio Control RABII: Radio Control
!All cells are removed from the RID MRRID04!
Administration, Active BA-list Recording Definition, Change Administration Active BA-list Recording Definition, End Administration Active BA-list Recording Definition, Print Administration Active BA-list Recording ID, Initiate
rrsgi rrsgp rxmop print data TG RXMOP:MOTY=RXOTRX; para saber si el radio es EDGE-----------------------------------------------------------------------------------------------------------------------------------------rxmfp:mo=rxotrx-83-0&&-9; RXTCP:CELL=mn0016d,MOTY=RXOTG; rxmfp:mo=rxocf-243,SUBORD,FAULTY; rlcrp:cell=ES0002A; RXTCP:CELL=mn0020d,MOTY=RXOTG; rxmop:mo=rxotg-82,SUBORD; rxmop:mo=rxotf-220;