) : ( METHO OD D = < a ct ct i va va t io io n m e th th o d> d> | C O NN NN T YP YP E = < c on on n ec ec t io io n t y pe pe > ) : ( O K F EB EB = < o ok k ca as ses to fe ee ed db ba ac ck k> > | P R OG OG I NF NF O = < p ro ro g re re s s i n fo fo > | C O MP MP T RH RH = < c om om p re re s s t h re re s ho ho l d> d> | R E MO MO T ED ED I R = < r e mo mo t e d i re re c to to r y p a t h> h> | S T IM IM E R = < s ho ho r t t i me me r i n te te r va va l > | L T IM IM E R = < l on on g t i me me r i n te te r va va l > | S T IM IM E RC RC O UN UN T = < s ho ho r t t i me me r c o un un t > | L T IM IM E RC RC O UN UN T = < l on on g t i me me r c o un un t > | IP = | PO OR RT = > | F T AM AM A EN EN = < f ta ta m a p pl pl i ca ca t io io n e n ti ti t y n a m e > | US SE E R NA NA M ME E = | US SE E R ID ID = < u us se er r id d> > | PA AS S S WO WO R RD D =
) ... ;
Parameter explanations
configuration identification ID = decimal number With this parameter you define the right plan for operation. The ID is saved into BSC database and it is used to check if the ID in the command coincides with the ID in the BSC database. The parameter is obligatory. The values range from 1 to 2147483647.
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operation type With this parameter you define whether the commands activate RNW plan, interrupt RNW plan activation, or activate the fallback. The parameter is obligatory.
Parameter
Value
Explanation
OPE =
ACT
Activate RNW plan with fallback.
ACTWF INT
Activate RNW plan without fallback. Interrupt RNW plan.
ACTFALL
Activate fallback.
Activation method METHOD = decimal number With this parameter you define how many objects are activated simultaneously. This is a percentage value of BCF amount in the plan. The value that indicates how many simultaneous objects are handled is received from NetAct. If the value is 0, the fastest possible is used (150 objects) without handovers. If the value is other than 0, the handovers are used. It is possible to give this parameter if the value of parameter operation type is ACT or ACTWF. The values range from 0 to 20 % with 1 % step. connection type With this parameter you define which type of connection is used between BSC and NetAct for file transfer. The parameter is obligatory.
Parameter
Value
Explanation
CONNTYPE =
FTP
FTP connection between BSC and NetAct for file transfer.
FTAM
FTAM connection between BSC and NetAct for file transfer.
NOCONN
No Connection between BSC and NetAct for file transfer.
OK cases to feedback
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EEE CONTROL ACTIVATION OF RNW PLAN
With this parameter you define if a feedback message of the objects with successful handling in download, validation or activation phase is written to feedback feedback file.
Parameter
Value
Explanation
OKFEB =
Y
Successful cases are written to the feedback file.
N
Error cases are written to the feedback file.
progress info PROGINFO = decimal number With this parameter you define how many feedback messages are included in one feedback file. The amount is in steps of 100. The default value is 1 (= 100 feedback messages to one field). The values range from 0 to 65534 with 1 step. compress threshold COMPTRH = decimal number With this parameter you define the feedback file size in kilobytes above which compression is used when the file is sent. The values range from 0 to 4294967295 with 1 step. remote directory directory REMOTEDIR = text string With this parameter you define the directory path in NetAct for plan and feedback files. The remote directory's last character must be ' / '. The values range from 1 to 27 characters. short timer interval STIMER = decimal number With this parameter you define short timer interval for file transfer connection check in ftp/ftam connection.
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The values range from 1 to 5 s with 1 s step. long timer interval LTIMER = decimal number With this parameter you define long timer interval for file transfer connection check in ftp/ftam connection. The values range from 2 to 10 min with 1 min step. short timer count STIMERCOUNT = decimal number With this parameter you define short timer count for file transfer connection check in ftp/ftam connection. The values range from 1 to 3 with 1 step. long timer count LTIMERCOUNT = decimal number With this parameter you define long timer count for file transfer connection check in ftp/ftam connection. The values range from 1 to 20 with 1 step. IP address IP = decimal number With this parameter you give the IP address of the FTP server where to read plan file and where to sent the feedback feedback files. IP address can be given if the connection connection type is FTP. The values are given A.B.C.D where A, B, C and D values range from 0 to 255. This parameter is obligatory. port number PORT = decimal number
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EEE CONTROL ACTIVATION OF RNW PLAN
With this parameter you give the port number of the FTP server where to read plan file and where to sent the feedback files. Port number is possible to give if connection type is FTP. The values range from 0 to 65535 with 1 step. ftam application entity name FTAMAEN = text string With this parameter you define the FTAM application entity name. Ftam application entity name is possible to give if connection type is FTAM. The values range from 1 to 16 characters. This parameter is obligatory. user name USERNAME = text string With this parameter you give the username of the FTP connection. The values range from 1 to 15 characters. user ID USERID = text string With this parameter you give the user ID of the FTAM connection. The values range from 1 to 6 characters. password PASSWORD = text string With this parameter you give password of the FTP or FTAM server where to read plan file and where to sent the feedback files. The values range from 1 to 15 characters.
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Examples
1.
Set the the config configura uratio tion n identif identificat ication ion to to 1, operat operation ion type type to to ACT, ACT, activat activation ion method to 20, connection type to FTP, ok cases to feedback to N, remote directory to MAIN/, short timer interval to 3, long timer interval to 10, short timer count to 2, long timer count to 10, ip address to 193.200.12.1, port number to 6763, user name to ROOT and password to 12345.
EEE:ID=1,OPE=ACT:METHOD=20,CONNTYPE=FTP:OKFEB=N, REMOTEDIR=MAIN/,STIMER=3,LTIMER=10,STIMERCOUNT=2, LTIMERCOUNT=10,IP=193.200.12.1,PORT=6763, USERNAME=ROOT,PASSWORD=12345; 2.
Set the the config configura uratio tion n identif identificat ication ion to to 1, operat operation ion type type to to ACT, ACT, activat activation ion method to 20 and connection type to NOCONN.
EEE:ID=1,OPE=ACT:METHOD=20,CONNTYPE=NOCONN; 3.
Set the the confi configur guratio ation n ident identific ificatio ation n to 1, 1, opera operatio tion n type type to ACTF ACTFALL ALL and and connection type to NOCONN.
EEE:ID=1,OPE=ACTFALL:CONNTYPE=NOCONN; 4.
Set the the conf configu igurati ration on iden identifi tificati cation on to to 1 and and operat operation ion type type to INT INT..
EEE:ID=1,OPE=INT; Additional information
When the command is executed and if the operation type is ACTFALL, a confirmation to proceed is asked from the user:
S Y ST ST E M R E ST ST A RT RT I S E X EC EC U TE TE D A F TE TE R F A LL LL B AC AC K F I LE LE S C O PY PY . F I LE LE C O PY PY M A Y T A KE KE S O ME ME M I NU NU T ES ES . C O NF NF I RM RM C O MM MM A ND ND E X EC EC U TI TI O N: N: Y / N ?
Answering Y executes the command normally, and answering N aborts the command. Execution printouts The abbreviations used in the execution printout:
CLEAR
RNW plan does not exist
DOWNLOAD_INIT Initialisation of RNW Plan database is ongoing. DOWNLO DOW NLOADI ADING NG
Downlo Download ad is ongoin ongoing g
DOWNLO DOW NLOADE ADED D
RNW plan plan is downlo downloade aded; d; datab database ase is init initiali ialized zed and the changes in the plan are made into the database
VAL ALID IDA ATING TING
Valida alidatio tion n of the the plan plan datab databas asee is ongo ongoin ing g
VALIDATING_NO_INT Validation of the plan database is ongoing, BSC Radio Network configuration changes are denied
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EEE CONTROL ACTIVATION OF RNW PLAN
VAL ALID IDA ATE TED D
Valida alidatio tion n is done done;; RN RNW W plan plan datab databas asee is read ready y to be activated
ACT_I T_INIT
Fallba lback cop copy is dumped to disk isk
ACTI AC TIV VATING TING
Activ Activat atio ion n of the the plan plan data databa base se is ongo ongoin ing g
ACTI AC TIV VATE TED D
RNW plan lan is acti activa vate ted d
FALL ALLBAC BACK_ K_ACT ACT
Fallba Fallback ck activ activatio ation n is ongoin ongoing g
FALL ALLBAC BACK_ K_INI INIT T
Fallba Fallback ck copy copy is is loaded loaded to memor memory y
INTE INTERR RRUP UPTE TED D
Acti Activa vatio tion n is inter interru rupt pted ed
INTERRUPTED_BY_SYSTEM Activation is interrupted by the system; only fallback activation is allowed in this state The execution printout of command example 1 is: BSC
DX220-LAB
2006-10-08
15:17:09
R A DI DI O N E TW TW O R K P L A N D A T AB AB A SE SE A C TI TI V AT AT I ON ON S T AR AR T ED ED R N W P L A N D A T A B AS AS E S T A T E . . . . . .. .. . . . . .. .. . . . . .. .. . . A C T I V AT AT I N G C O M M A ND ND E X E C U TE TE D
The execution printout of command example 2 is: BSC
DX220-LAB
2006-10-08
15:17:10
R A DI DI O N E TW TW O R K P L A N D A T AB AB A SE SE A C TI TI V AT AT I ON ON S T AR AR T ED ED R N W P L A N D A T A B AS AS E S T A T E . . . . . .. .. . . . . .. .. . . . . .. .. . . A C T I V AT AT I N G C O M M A ND ND E X E C U TE TE D
The execution printout of command example 3 is: BSC
DX220-LAB
2006-10-08
15:17:10
R A D I O N E T W O R K F A L L B A CK CK A C T I V AT AT I O N S T A R T ED ED R N W P L A N D A T A B AS AS E S T A T E . . . . . . . . . .. .. . . . . . .. .. . . . A C T _ I NI NI T C O M M A ND ND E X E C U TE TE D
The execution printout of command example 4 is: BSC
DX220-LAB
2006-10-08
15:17:12
R A D I O N E T W O R K P L A N D A T A B A SE SE A C T I V AT AT I O N I N T E R R U P T I ON ON S T A R T ED ED R N W P L A N D A T A B AS AS E S T A T E . . . . . .. .. . . . . .. .. . . . . .. .. . I N T E R RU RU P T E D
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C O M M A ND ND E X E C U TE TE D
Semantic error messages
If an error occurs, the general semantic error messages of the MML commands are output. For more information, see General Notice Messages of MML Session.
Execution error messages
If an error occurs, the general execution error messages of the MML commands are output. For more information, see General Error Messages of System.
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EEK OUTPUT RNW PLAN DATA ACTIVATION STATES
EEK OUTPUT RNW PLAN DATA ACTIVATION STATES Function
With the EEK command you output output the activation activation state of RNW object and RNW plan state.
Parameters
BCF identification, BTS identification, SEG identification, YES TRXs to output;
Syntax
EE EK K : ( B C F = < B CF CF i d de en nt ti if fi ic ca at ti io on n> > | BT TS S = | SE EG G = | ) : ( T R XI XI N NF FO = | de ef f = Y | ) .. .. . ;
Parameter explanations
BCF identification BCF = desimal number With this parameter you identify the base control function. The value range depends on the BSC hardware configuration and the corresponding options. You can enter multiple BCFs by using characters & and &&. You can enter only one of the parameters BCF, BTS and SEG in the same command. BTS identification identification BTS = desimal number With this parameter you identify the BTS. The value range depends on the BSC hardware configuration and the corresponding options. You can enter multiple BTSs by using characters & and &&. You can enter only one of the parameters BCF, BTS and SEG in the same command. SEG identification identification SEG = desimal number
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With this parameter you identify the segment. You can enter several values at the same time by using characters & or &&. You can enter only one of the parameters BCF, BTS and SEG in the same command. TRXs to output TRXINFO = text string With this parameter you define if TRX information is printed out or not. The default value is Y.
Parameter
Value
Explanation
TRXINFO =
Y
TRXs are printed out.
N
TRXs are not printed out.
Examples
1.
Outp Output ut the the RNW RNW plan plan data data act activ ivati ation on stat states es und under er BCF BCF 1 to to 5.
EEK:BCF=1&&5; 2.
Outp Output ut the the RNW RNW plan plan data data act activ ivati ation on stat states es und under er BCF BCF 1 to to 5 and and TRXINFO=N.
EEK:BCF=1&&5:TRXINFO=N; 3.
Outp Output ut the the RNW RNW plan plan data data activ activati ation on stat states es und under er BTS BTS 1 to to 5.
EEK:BTS=1&&5; 4.
Outp Output ut the the RNW RNW plan plan data data act activ ivati ation on stat states es und under er SEG SEG 1 and and 2.
EEK:SEG=1&2; 5.
Outp Output ut the the RNW RNW plan plan data data act activ ivati ation on stat states es und under er SEG SEG 1 to 2 and and TRXINFO=N.
EEK:SEG=1&2:TRXINFO=N; 6.
Outp Output ut the the RNW RNW plan plan data data activ activati ation on state states. s.
EEK:; Execution printouts The abbreviations used in the execution printouts:
BCF
Base Control Function
S EG
Segment
BTS
Base Transceiver Station
TRXINFO
Transceiver info
NO PLAN
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There is no plan for the object
DN9813184 Issue 19-1 en
EEK OUTPUT RNW PLAN DATA ACTIVATION STATES
PLANNED
Object has changes in plan
ACTI AC TIV VATE TED D
Plan Planne ned d chan change ge is acti activa vate ted d for for the the obje object ct
CLEAR
RNW plan does not exist
DOWNLOAD_INIT Initialisation of RNW Plan database is ongoing DOWNLO DOW NLOADI ADING NG
Downlo Download ad is ongoin ongoing g
DOWNLO DOW NLOADE ADED D
The RNW plan plan is downlo downloade aded; d; the databa database se is is initia initialise lised d and changes in the plan are made into the database
VAL ALID IDA ATING TING
Valid alidati ation on of the the plan plan datab database ase is ongo ongoin ing g
VALIDATING_NO_INT Validation of the plan database is ongoing, BSC Radio Network configuration changes are denied VAL ALID IDA ATE TED D
Valida alidatio tion n is done done;; RN RNW W plan plan datab databas asee is read ready y to be activated
ACT_I T_INIT
Fallba lback cop copy is dumped to disk isk
ACTI AC TIV VATING TING
Activ Activat atio ion n of the the plan plan data databa base se is ongo ongoin ing g
ACTI AC TIV VATE TED D
RNW plan lan is acti activa vate ted d
FALL ALLBAC BACK_ K_ACT ACT
Fallba Fallback ck activ activatio ation n is ongoin ongoing g
FALL ALLBAC BACK_ K_INI INIT T
Fallba Fallback ck copy copy is is loaded loaded to memor memory y
INTE INTERR RRUP UPTE TED D
Acti Activa vatio tion n is inter interru rupt pted ed
INTERRUPTED_BY_SYSTEM Activation is interrupted by the system; only fallback activation is allowed in this state WO
The object is in the normal function state
BL_USR
The operat erato or has block lockeed the object ect out of use
The execution printout of command example 1 is: BSC
DX220-LAB
2006-10-08
15:17:09
R A DI DI O N E TW TW O R K P L A N D A T AB AB A SE SE S T AT AT E S I N B S C: C: RNW RNW RNW RNW
P L A N D A T A B AS AS E S T A T E . . . . . .. .. . . . . .. .. . . . . .. .. . . A C T I V AT AT I N G C CO O N FI FI G UR UR A TI TI O N I ID D . . .. .. . .. .. . .. .. . .. .. . . .. .. . .. .. . .. .. . . 0 PL PL A N CO CO N FI FI G UR UR A TI TI O N ID ID . . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. 1 FA FA L LB LB A CK CK C O NF NF I GU GU R A TI TI O N ID ID . .. .. . .. .. . .. .. . . .. .. . .. .. 0
BCF = = == == = == == =
BTS TRX ACTIVATI ON ST ATE = = == == = == == = = = = == == = == == = = = == == = == == = == == = == == = == == =
BCF-0001 B TS-00 01 TRX-001 TRX-002
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ACTIVATED ACTIVATED ACTIVATED ACTIVATED
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OP STATE = = == == = = WO WO B L_ USR WO
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BCF-0004 BTS-0 004 TRX-001 TRX-002 BCF-0005
PLANNED PLANNED PLANNED PLANNED
WO BL_USR BL_USR BL_USR
PLANNED
BL_USR
C O M M A ND ND E X E C U TE TE D
The execution printout of command example 2 is: BSC
D X220- LAB
2006-10-08
15:17:09
R A DI DI O N E TW TW O RK RK P L AN AN D A TA TA B AS AS E S T AT AT E S I N B S C: C: RNW RNW RNW RNW
P L A N D A T A B AS AS E S T A T E . . . . . . . . . . .. .. . . . . .. .. . . . A C T I VA VA T I N G DA DA T AB AB A SE SE C O NF NF I GU GU R AT AT I ON ON I D .. .. . .. .. . .. .. . .. .. . .. .. . . 0 P L AN AN D AT AT A BA BA S E C O NF NF I GU GU R AT AT I ON ON I D. D. . .. .. . .. .. . .. .. . 1 FA FA L LB LB A CK CK C O NF NF I GU GU R AT AT I ON ON I D .. .. . .. .. . .. .. . .. .. . .. .. . . 0
BCF = = == == = == == =
B TS TR X ACTIVATION STATE = = == == = == == = = = = == == = == == = = = == == = == == = == == = == == = == == =
BCF-0001 BTS-0 001 BCF-0004 BTS-0 004 BCF-0005
OP STATE = = == == = =
ACTIVATED ACTIVATED PLANNED PLANNED
WO WO WO BL_USR
PLANNED
BL_USR
C O M M A ND ND E X E C U TE TE D
The execution printout of command example 3 is: BSC
D X220- LAB
2006-10-08
15:17:09
R A DI DI O N E TW TW O RK RK P L AN AN D A TA TA B AS AS E S T AT AT E S I N B S C: C: RNW RNW RNW RNW
P L A N D A T A B AS AS E S T A T E . . . . . . . . . . .. .. . . . . .. .. . . . A C T I VA VA T I N G C CO O N FI FI G UR UR A TI TI O N I ID D . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . 1 P L AN AN C ON ON F IG IG U RA RA T IO IO N ID ID . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . 1 FA FA L LB LB A CK CK C O NF NF I GU GU R AT AT I ON ON I D .. .. . .. .. . .. .. . .. .. . .. .. . . 1
BTS T RX ACT IVA TI ON ST ATE = = == == = == == = = = = == == = == == = == == = == == = == == = == == = == == = == ==
OP STATE = = == == = =
BTS-0001
WO WO BL_USR WO
TRX-0 01 TRX-0 02 TRX-0 03
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EEK OUTPUT RNW PLAN DATA ACTIVATION STATES
BTS-0004 T RX-00 1 T RX-00 2 T RX-00 3 BTS-0005
PLANNED PLAN NED PLAN NED PLAN NED
WO BL_USR BL_USR BL_USR
PLANNED
BL_USR
C O M M A ND ND E X E C U TE TE D
The execution printout of command example 4 is: BSC
DX220-LAB
2006-10-08
15:17:09
R A DI DI O N E TW TW O R K P L A N D A T AB AB A SE SE S T AT AT E S I N B S C: C: RNW RNW RNW RNW
P L A N D A T A B AS AS E S T A T E . . . . . .. .. . . . . .. .. . . . . .. .. . . A C T I V AT AT I N G C CO O N FI FI G UR UR A TI TI O N I ID D . . .. .. . .. .. . .. .. . .. .. . . .. .. . .. .. . .. .. . . 1 PL PL A N CO CO N FI FI G UR UR A TI TI O N ID ID . . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. 1 FA FA L LB LB A CK CK C O NF NF I GU GU R A TI TI O N ID ID . .. .. . .. .. . .. .. . . .. .. . .. .. 1
SEG == == == == == == ==
BTS == == == == == == ==
TRX == == == == == == =
ACTIVATI ON ST ATE == == == == == == == == == == == == = = == == =
OP STATE == == == == ==
TRX-001 TRX-002 TRX-003
ACTIVATED ACTIVATED ACTIVATED ACTIVATED ACTIVATED ACTIVATED
WO WO WO WO WO WO
ACTIVATED ACTIVATED PLANNED
WO WO WO
SEG-0001 B TS-00 01 B TS-00 04 B TS-00 05
SEG-0002 B TS-00 02 B TS-00 06 B TS-00 07
C O M M A ND ND E X E C U TE TE D
The execution printout of command example 5 is: BSC
DX220-LAB
2006-10-08
15:17:09
R A DI DI O N E TW TW O R K P L A N D A T AB AB A SE SE S T AT AT E S I N B S C: C: RNW RNW RNW RNW
P L A N D A T A B AS AS E S T A T E . . . . . .. .. . . . . .. .. . . . . .. .. . . A C T I V AT AT I N G DA DA T AB AB A SE SE C O NF NF I GU GU R A TI TI O N ID ID . .. .. . .. .. . .. .. . . .. .. . .. .. 1 P L AN AN D AT AT A BA BA S E C O NF NF I G UR UR A TI TI O N I D .. .. . .. .. . .. .. . .. .. 1 FA FA L LB LB A CK CK C O NF NF I GU GU R A TI TI O N ID ID . .. .. . .. .. . .. .. . . .. .. . .. .. 1
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SEG == == == == == == ==
B TS == == == == == == ==
TR X == == == == == == =
ACTIVATION STATE == == == == == == == == == == == == == == == == =
OP STATE == == == == ==
BTS-0 001 BTS-0 004 BTS-0 005
ACTIVATED ACTIVATED ACTIVATED
WO WO WO
BTS-0 002 BTS-0 006 BTS-0 007
ACTIVATED ACTIVATED PLANNED
WO WO WO
SEG-0001
SEG-0002
C O M M A ND ND E X E C U TE TE D
The execution printout of command example 6 is: BSC
D X220- LAB
2006-10-08
15:17:09
R A DI DI O N E TW TW O RK RK P L AN AN D A TA TA B AS AS E S T AT AT E S I N B S C: C: RNW RNW RNW RNW
P L A N D A T A B AS AS E S T A T E . . . . . . . . . . .. .. . . . . .. .. . . . D O W N LO LO A D E D C CO O N FI FI G UR UR A TI TI O N I ID D . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . 1 PL PL A N CO CO N FI FI G UR UR A TI TI O N ID ID . .. .. . .. .. . .. .. . .. .. . . .. .. . .. .. . 1 FA FA L LB LB A CK CK C O NF NF I GU GU R AT AT I ON ON I D .. .. . .. .. . .. .. . .. .. . .. .. . . 1
C O M M A ND ND E X E C U TE TE D
Semantic error messages
If an error occurs, the general semantic error messages of the MML commands are output. For more information, see General Notice Messages of MML Session.
Execution error messages
If an error occurs, the general execution error messages of the MML commands are output. For more information, see General Error Messages of System.
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EEO OUTPUT BASE STATION CONTROLLER PARAMETERS
EEO OUTPUT BASE STATION CONTROLLER PARAMETERS Function
With the EEO command you output the parameters of a BSC object in the BSS Radio Network Configuration Database (BSDATA).
Parameters
parameter group;
Syntax Parameter explanations
EE EO O : [ < p a ra ra m me et te er gr ro ou up p> | > de ef f ] ;
parameter group With this parameter you define the name of the base station controller parameter group that is output: GEN
general base station controller parameters
SUP
radio network supervision parameters
MIS
miscellaneous parameters
QOS
quality of service parameters
DFCA
dynami amic frequenc ency and and channel allo llocatio tion parameter ters
PRI
priority level to subscriber types
GPRS
GPRS parameters
ALL
all parameters
The default is the GEN parameter group. Examples
1.
Output Output the general general base base stati station on contro controller ller paramet parameters ers group. group.
ZEEO; 2.
Output Output radio radio network network superv supervisio ision n para paramete meters rs of the BSC. BSC.
ZEEO:SUP; 3.
DN9813184 Issue 19-1 en
Outp Output ut all all BSC BSC para parame mete ters rs..
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ZEEO:ALL; Execution printouts 1.
BSC
The The exec execut utio ion n prin printo tout ut of comm comman and d exa examp mple le 3 is: is:
BSC-LAB
200 6-10- 11
09:51: 32
B A SE SE S T AT AT I ON ON C O NT NT R OL OL L ER ER D A TA TA B A C K G RO RO U N D D A T A S T A T E . . . . . . .. . . . . . .. .. . . . .. .. . . . . . .. .. . . . . . C L E A R N U M B E R O F P R E FE FE R R E D C E L LS LS . . . . . . . .. .. . . . . .. .. . . . . .. .. . . . ( N PC PC ) . . . . G S M M A C R O CE CE L L T H R E S HO HO L D . . . . . .. .. . . . . .. .. . . . .. .. . . . . . .. .. . ( G M AC AC ) . . . G S M M I C R O CE CE L L T H R E S HO HO L D . . . . . .. .. . . . . .. .. . . . .. .. . . . . . .. .. . ( G M IC IC ) . . . D C S M A C R O CE CE L L T H R E S HO HO L D . . . . . .. .. . . . . .. .. . . . .. .. . . . . . .. .. . ( D M AC AC ) . . . D C S M I C R O CE CE L L T H R E S HO HO L D . . . . . .. .. . . . . .. .. . . . .. .. . . . . . .. .. . ( D M IC IC ) . . . M S DI DI S TA TA N CE CE B EH EH A VI VI O UR UR . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . (D (D I SB SB ) .. .. . (R E LE LE A SE SE A F TE TE R T I ME ME I F H A ND ND O VE VE R I S U N SU SU C CE CE S FU FU L ) BT TS S SI IT T E B A TT TT E ER R Y B A CK CK U UP P FO OR RC CE ED HO TI IM ME ER R .. .. .. .. .. .. .. .. . . (T (T I IM M) ). .. .. .. E M E R G EN EN C Y C A L L O N F A C C H . . . .. .. . . . . .. .. . . . . .. .. . . . . .. .. . . . ( E EF EF ) . . . . A N SW SW E R T O P AG AG I NG NG C A L L O N F AC AC C H . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . (E (E P F) F) . .. .. . O R DI DI N AR AR Y C A L LS LS O N F A CC CC H . . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . . . (E (E O F) F) . . .. .. R E -E -E S TA TA B LI LI S HM HM E NT NT O N F A CC CC H . . . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. ( E RF RF ) .. .. . . T C H I N H A N D O V E R . . . . .. .. . . . . .. .. . . . . .. .. . . . . .. .. . . . .. .. . . . . . (H (H R I ) .. .. . . (C H AN AN N EL EL R A TE TE A N D S P EE EE C H C O DE DE C C H AN AN G ES ES A R E D E NI NI E D T O TA TA L LY LY ) L O WE WE R L I MI MI T F O R F R T C H R E SO SO U RC RC E S . . .. .. . . .. .. . .. .. . .. .. . .. .. ( HR HR L ) .. .. . . U P PE PE R L I MI MI T F O R F R T C H R E SO SO U RC RC E S . . .. .. . . .. .. . .. .. . .. .. . .. .. ( HR HR U ) .. .. . . B S C C A L L N U M B E R . . . . . .. .. . . . . . .. . . . . . .. .. . . . . .. .. . . . . .. .. . . . ( BC BC N ) . . . . A M H U P PE PE R L O AD AD T H RE RE S HO HO L D . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . . . (A (A U T) T) . . .. .. A M H L O WE WE R L O AD AD T H RE RE S HO HO L D . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . . . (A (A L T) T) . . .. .. A M H M A X L O AD AD O F T A R G E T C E L L . . . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . (A (A M L) L) . .. .. . A M R C O NF NF I GU GU R AT AT I ON ON I N H A ND ND O VE VE R S . . .. .. . .. .. . .. .. . .. .. . .. .. . . . (A (A C H) H) . . .. .. I N IT IT I AL AL A M R C H A N NE NE L R A T E . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . . . (I (I A C) C) . . .. .. S L OW OW A M R L A E N AB AB L ED ED . . . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . . . (S (S A L) L) . . .. .. A M R S E T G R AD AD E S E N AB AB L ED ED . . . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. ( A SG SG ) .. .. . . F R EE EE T S L F O R C S D O WN WN G RA RA D E . . . . . . .. . . .. .. . .. .. . .. .. . .. .. . .. .. . . (C (C S D) D) . . .. .. F R EE EE T S L F O R C S U PG PG R AD AD E . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . (C (C S U) U) . . .. .. T R H O G U A R D T I M E . . . . .. .. . . . .. .. . . . . . .. .. . . . . .. .. . . . . . .. .. . . . ( TG TG T ) . . . . P R I O R IT IT Y H O I N T E R FE FE R E N C E D L . . . . . .. .. . . . . .. .. . . . . .. .. . . . ( H DL DL ) . . . . P R I O R IT IT Y H O I N T E R FE FE R E N C E U L . . . . . .. .. . . . . .. .. . . . . .. .. . . . ( H UL UL ) . . . . L O A D R A T E F O R C H A N N EL EL S E A R C H . . . . . . . . .. .. . . . . .. .. . . . . . (C (C L R ) .. .. . . T R I G G ER ER I N G T H R E S HO HO L D F O R S E R V I CE CE A R E A P E N A L TY TY . . . . . (T (T T S A P) P) . . P E N A L TY TY T R I G G ER ER M E A S U RE RE M E N T P E R I O D . . . . . .. .. . . . . . .. .. . ( P T MP MP ) . . . S E R V I CE CE A R E A P E N A L TY TY T I M E . . . . . .. .. . . . . .. .. . . . . .. .. . . . . . (S (S A P T ). ). . . C S T C H A L L OC OC A TE TE R T S L 0 . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. ( C TR TR ) .. .. . . C S T C H A L L OC OC A TI TI O N C A LC LC U LA LA T IO IO N . . . .. .. . .. .. . .. .. . .. .. . .. .. . . . (C (C T C) C) . . .. .. N A C C E N A B L ED ED . . . . . .. .. . . . . .. .. . . . . .. .. . . . .. .. . . . . . .. .. . . . . .. .. ( N A C C ). ). . . N C CR CR C O NT NT R OL OL M O DE DE . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . (N (N C M) M) . .. .. . (N C CR CR I S D I SA SA B LE LE D F O R A L L M O BI BI L E S T AT AT I ON ON S ) N C CR CR I D LE LE M O DE DE R E PO PO R TI TI N G P E R I O D . . . . .. .. . .. .. . .. .. . .. .. . .. .. ( NI NI R P) P) . .. .. N C CR CR T R AN AN S FE FE R M O DE DE R E PO PO R TI TI N G P E R I O D . . . . .. .. . .. .. . .. .. . . (N (N T RP RP ) .. .. . N C CR CR R E TU TU R N T O O L D C E L L T I M E . . . . . .. .. . .. .. . .. .. . .. .. . .. .. . . (N (N O CT CT ) .. .. . N C CR CR T A RG RG E T C E L L P E NA NA L TY TY T I ME ME . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . (N (N T PT PT ) .. .. . N C CR CR N E I G HB HB O R C E LL LL P E N A LT LT Y . . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . . . (N (N N CP CP ) . .. .. W C DM DM A F D D N C C R E N AB AB L ED ED . . . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. ( WF WF N E ). ). . .
104 (138)
# Nokia Corporation
1 35 33 26 24
dBm dBm dBm dBm 3 s 30 s
Y Y Y Y 3
*) *) *)
18 % 68 % 0000 80 % 20 % 70 % 1 1 N N 95 % 4 s 30 s INTER INTER 100 % 127 128 s 127 s N 0 N 0 3 . 84 84 s 0 . 48 48 s 10 s 10 s 6 s N
DN9813184 Issue 19-1 en
EEO OUTPUT BASE STATION CONTROLLER PARAMETERS
W C DM DM A F D D N C C R P R EF EF E RR RR E D . . . . .. . . . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. ( WF WF N P) P) . .. ..
Y
M I NI NI M UM UM M E AN AN H O LD LD I NG NG T I M E F O R T C HS HS . . .. .. . .. .. . .. .. . . .. .. . (M (M I NH NH T T) T) . 6 5 53 53 5 s M A XI XI M UM UM M E AN AN H O LD LD I NG NG T I M E F O R T C HS HS . . .. .. . .. .. . .. .. . . .. .. . (M (M A XH XH T T) T) . 1 4 40 40 m i n MA AX XI IM MU UM M M E A N H OL OL D DI IN NG G T I M E F OR O R S D C CH CH S . . .. .. . .. .. .. .. .. . . .. .. ( MA MA X XH HT TS S). 30 min AL LA AR RM M T H RE RE S HO HO L LD D F O R T CH C H F A I LU LU R RE E R A TE T E . . .. .. . .. .. .. .. .. . . .. .. ( (T T C HF HF R R) ). .. . 20 % AL LA AR RM M T H RE RE S HO HO L LD D F O R S DC DC C CH H F A IL IL U UR R E R AT A T E . .. . . . .. .. . .. . . .. .. ( (S S C HF HF R R) ). .. . 80 % AL LA AR RM M T H RE R E S HO HO L LD D F O R T C H C ON O N G ES ES T TI I O N . .. .. . .. .. .. . . .. .. . .. . . .. .. ( (C CN NG GT T) ). .. .. 20 % AL LA AR RM M T H RE R E S HO HO L LD D F O R S D CC C C H C O NG NG E ES S T IO IO N . . .. .. . .. .. .. .. .. . . .. .. ( (C CN NG GS S) ). .. .. 20 % AL LA AR RM M T H RE RE S HO HO L LD D F O R N UM UM B BE E R O F C HA HA N NN NE EL L S E IZ IZ U RE RE S . .. .. ( (C C S ). ). . .. .. .. . 10 AL LA AR RM M TH HR RE ES SH HO OL LD D FO OR R NU UM MB BE E R O F C H S E IZ IZ U RE RE R E QU QU E ES S T S (C S SR R) ). .. .. .. 10 00 0 ME EA A S P R D F O R T C H M E AN AN H O OL LD DI IN NG G TI IM M E S U PE PE R RV VI IS SI IO O N . . . (P (P R RD DM MH HT T) ). 24 40 0 mi in n ME EA A S PR P R D FO F O R SD SD C CC C H ME ME A AN N H OL OL D DI IN NG G T IM I M E SU SU P PE ER RV VI IS SI IO O N . (P (P R RD DM MH HS S) ). 0 m in in DEACTIVATED ME EA A S P R D F O R S U PE PE R RV VI IS SI IO ON OF CH HA AN NN NE EL L F A IL IL U UR R E R A T E . ( PR PR D DC CF FR R). 24 40 0 min ME EA A S P R D F O R S U PE PE R RV VI IS SI IO ON OF CO ON NG GE ES ST TI IO ON IN BT TS S . . .. .. ( PR PR D DC CN NG G). 12 20 0 min TH HR RE ES SH HO OL LD D FO FO R H I IG GH TC CH H I NT NT E ER RF FE ER RE E N CE CE L EV EV E EL L .. .. . .. .. .. .. .. .( (H H I FL FL V VL L). 4 AL LA AR RM M T H RE RE S HO HO L LD D F O R S HA HA R RE E O F H I GH GH T C H IN IN T TE E R FE FE R RE E N CE CE ( (H H I FS FS H HR R) ). . 50 % ME EA AS PRD FOR HI IG G H T C H I N T ER ER F FE ER RE EN NC C E S U P ER ER V VI I S IO IO N . . . (P (P R RD DH HI IF F) ). 12 20 0 mi in n ME EA A S P R D F O R S UP UP E ER RV VI IS SI I O N O F B T S W I TH TH N O T R RA AN NS SA AC C T . ( PR PR D DB BN NT T). 12 20 0 min S T A R T IN IN G M O M E NT NT F O R S U P E R VI VI S I O N O F B T S . . . . . . . . . . . (S (S M B N T ). ). . 0 8 - 0 0 E N D I N G M O M E N T F O R S U P E R VI VI S I O N O F B T S . . . . . .. .. . . . . .. .. ( E M B NT NT ) . . 1 8 - 0 0 G P RS RS T E RR RR I TO TO R Y U P D A T E G U A R D T I M E . . .. .. . .. .. . .. .. . .. .. . . .. .. ( GT GT U GT GT ) .. .. . 5 s B C S U L O A D T H R E S HO HO L D . . . . . .. .. . . . . . .. .. . . . . .. .. . . . . .. .. . . . . (B (B C S U L ). ). . 4 8 . 0 0 % L A P D L O A D T H R E S HO HO L D . . . . . .. .. . . . . . .. .. . . . . .. .. . . . . .. .. . . . . (L (L A P D L ). ). . 8 . 4 0 % U P PE PE R L I M I T O F M S S P E E D C L A SS SS 1 . . .. .. . .. .. . .. .. . .. .. . . .. .. . (M (M S SC SC F ). ). . 1 0 ( 2 0 k m / h ) U P PE PE R L I MI MI T O F M S S P EE EE D C L AS AS S 2 . . .. .. . .. .. . .. .. . .. .. . . .. .. . (M (M S SC SC S ). ). . 1 0 5 (2 1 0 k m /h /h ) AL LA AR RM M L I MI MI T F OR OR F U LL LL R A TE TE T C H A VA VA I IL LA AB B I LI LI T TY Y . . .. .. . .. .. ( (A A L FR FR T T) ). .. . 30 % AL LA AR RM M L I MI MI T F OR OR H A LF LF R A TE TE T C H A VA VA I IL LA AB B I LI LI T TY Y . . .. .. . .. .. ( (A A L HR HR T T) ). .. . 30 % AL LA AR RM M L I MI M I T F O R S DC DC C CH H A V A IL IL A BI BI L LI I T Y . .. .. . .. .. .. . . .. .. . .. . . .. .. ( (A AL LS SD DC C) ). .. 30 % D I SA SA B LE LE I N TE TE R NA NA L H O . . .. .. . .. .. . .. .. . . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. ( DI DI N HO HO ) .. .. N D I SA SA B LE LE E X TE TE R NA NA L D R . . .. .. . .. .. . .. .. . . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. ( DE DE X DR DR ) .. .. N R X L E VE VE L B A LA LA N CE CE . . .. .. . .. .. . .. .. . .. .. . . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. ( RX RX B AL AL ) .. .. 5 dB R X A N T E N NA NA S U P E R VI VI S I O N P E R I O D . . . . . . . . . .. .. . . . . .. .. . . . ( RX RX A N T ) .. .. 6 5 5 3 5 m i n (R X A N TE TE N NA NA S U PE PE R VI VI S IO IO N I S N O T P E RF RF O RM RM E D) D) NU UM MB BE ER OF IG GN NO OR RE ED D TR TR A AN N S CO CO D DE E R FA FA I IL LU UR RE ES S .. .. . .. . . .. .. . .. . . .. .. ( (I I T CF CF ) ). .. .. . 0 VA AR RI IA AB BL LE D DL L S TE TE P S SI IZ ZE E . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. ( (V V D LS LS ) ). .. .. . N MA AX XI IM MU UM M NU NU M MB BE ER R OF O F DL D L TB TB F . . .. .. .. .. .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. ( (M M N DL DL ) ). ... 9 MA AX XI IM MU UM M NU NU M MB BE ER R OF O F UL U L TB TB F . . .. .. .. .. .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. ( (M M N UL UL ) ). ... 7 FE EP P IN I N PC P C HO H O US US E . . .. .. .. .. .. .. .. .. .. .. .. .. .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. ( (F F P HO HO ) ). ... N I N TR TR A S E GM GM E N T S DC DC C H H O G U AR AR D . . . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. ( IS IS S ). ). . .. .. 255 s PR RE E-E EM MP PT TI IO ON N U SA SA G E I N H A ND ND O OV VER .. .. .. .. .. .. . . .. .. . .. . . .. .. . .. . . .. .. ( (P P R E) E) . .. .. .. . Y W P S P R IO IO R IT IT Y CA CA P AC AC I TY TY . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. ( WP WP I C) C) . .. .. 25 % W P S P R EF EF E RE RE N CE CE C AP AP A CI CI T Y . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. ( WP WP E C) C) . .. .. 50 % P U BL BL I C S E RV RV E D C O UN UN T . . .. .. . .. .. . .. .. . . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. ( PS PS C ). ). . .. .. 2 T I ME ME L IM IM I T W P S . . .. .. . .. .. . .. .. . . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. . .. .. . . (T (T L W) W) . .. .. . 28 s TI IM ME L LI IM MI IT W WP PS H HA AN ND DO OV VE ER R . .. .. . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. ( (T TL LW WH H) ). .. .. 5 s IM MS S I B A S ED ED H A AN ND DO OV VE ER GSM CE EL L L S A N ON ON Y YM MO OU US MS .. .. .. .. .. .. .( (I I B GA GA ) ). ... AL LL L IM MS S I B A S ED ED H A AN ND DO OV VE E R W C D MA MA C E LL LL S A N NO ON NY Y M OU OU S M S . . . .. .. ( IB IB W WA A) ). ... AL LL L S O FT FT B LO LO C KI KI N G C / N F R . . . .. .. . .. .. . .. .. . .. .. . . .. .. . .. .. . .. .. . .. .. . . (S (S B CN CN F ). ). . 1 2 dB dB SO OF FT B BL LO OC CK KI IN NG G C /N /N H R . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. ( (S S B CN CN H H) ). .. . 0 dB S O FT FT B LO LO C KI KI N G C / N 1 4 .4 .4 . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. . .. .. . .. .. . . (S (S B CN CN ) .. .. . 1 4 dB dB SO OF FT B BL LO OC CK KI IN NG G C /N /N A MR MR F R . . .. .. .. .. .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. ( (S S B CN CN A AF F). 7 dB SO OF F T B L OC OC K KI IN NG G C / N A M R H R . . .. .. . .. .. .. .. .. .. .. . . .. .. . .. . . .. .. . .. . . .. .. ( (S S B CN CN A AH H). 12 dB RX LE EV VE EL L BA BA S SE ED TC CH H AC AC C CE ES SS S .. .. . .. .. .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. ( (R R X TA TA ) ). ... 0
DN9813184 Issue 19-1 en
# Nokia Corporation
105 (138)
EE - Base Station Controller Parameter Handling in BSC
(R X L E EV VE EL L BA AS SE ED D TC CH H AC CC CE ES SS IS NO OT T US SE ED D) ) DE EL LA AY Y O F HO H O A ND N D P C FO F O R EM EM E ER RG GE EN NC C Y CA CA L LL L S .. .. . .. .. .. .. .. .. .. . . (D (D E EC C) ). .. .. .. IN NT TE ER RN NA AL H HA AN ND DO OV VE ER R TO EX XT TE ER RN NA AL . .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .( (I IH HT TA A) ). .. .. T C H T R AN AN S AC AC T IO IO N C O UN UN T . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. ( TT TT R C ). ). . . M A XI XI M UM UM TC TC H T R AN AN S AC AC T IO IO N R A TE TE .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . (M (M T TR TR ) . .. ..
5 s 0 10 50
DL H HI IG GH H P RI RI O OR RI IT TY S SS SS . .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. . . .. .. ( (D DH HP P) ). .. .. .. 6 DL N NO OR RM MA AL L P RI RI O OR RI IT TY S SS SS . .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. . . .. .. ( DN DN P P) ). .. ... 6 D L L O W P R IO IO R IT IT Y S S S . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. . .. .. . (D (D L P) P) . .. .. . 12 UL PR RI IO OR RI IT TY 1 SS SS S .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. . . .. .. ( (U UP P1 1) ). .. .. . 3 UL PR RI IO OR RI IT TY 2 SS SS S .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. . . .. .. ( (U UP P2 2) ). .. .. . 6 UL PR RI IO OR RI IT TY 3 SS SS S .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. . . .. .. ( (U UP P3 3) ). .. .. . 9 UL P PR RI IO OR RI IT TY Y 4 SS SS S . .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .( (U UP P4 4) ). .. .. . 12 BA AC CK KG GR RO OU UN N D T C S CH CH E ED DU UL LI IN N G W EI EI G GH H T F OR OR A R P 1 . .. .. . .. .. .. . . (B (B G GS SW W1 1) ). .. 20 BA AC CK KG GR RO OU UN N D T C S CH CH E ED DU UL LI IN N G W EI EI G GH H T F OR OR A R P 2 . .. .. . .. .. .. . . (B (B G GS SW W2 2) ). .. 10 BA AC CK KG GR RO OU UN ND TC SC CH HE ED DU UL LI IN NG WE EI IG GH HT FO OR R AR AR P 3 .. .. . .. .. .. .. .. .( (B BG GS SW W3 3) ). .. 5 Q C R EA EA L LO LO C AT AT I ON ON A C T TI ION T TR R I GG GG E R T TH H R ES ES H OL OL D . .. .. . .. .. . .. .. ( Q CA CA T R) R) . . 2 5 B LO LO C K P PE E R I OD OD S Q C N C C R A C T IO IO N T R I G GE GE R T H R E SH SH O LD LD . . . . . .. .. . .. .. . .. .. . .. .. . (Q (Q C AT AT N ). ). . 1 0 0 B L O CK CK P E R I O DS DS Q C Q O S R E N EG EG O TI TI A TI TI O N A C TI TI O N T R IG IG G ER ER T H R E SH SH O LD LD . . . . (Q (Q C AT AT Q ). ). . 2 0 0 B L OC OC K P E R IO IO D S Q C D R O P A C T IO IO N T R I G GE GE R T H R E SH SH O LD LD . . . . . .. .. . .. .. . .. .. . .. .. . (Q (Q C AT AT D ). ). . 4 0 0 B L O CK CK P E R I O DS DS PF FC C UNA AC C K B LE L E R L IM IM I IT T F O R S DU DU E R R RO O R R AT AT I IO O 1 .. .. .. .. .. .. .( (U UB BL L1 1) ). .. .. 10 PF FC C A C K BL BL E ER R L I MI MI T F OR OR T R AN AN S SF FE ER R D E LA LA Y 1 . .. .. . .. .. .. .. .. . . (A (A B BL L1 1) ). .. .. 70 % ME EA A N B EP EP L I IM MI IT T M S M UL UL T TI IS SL LO OT T PW WR R PR RO OF 0 WI IT T H 2 U L T SL S L . . (B (B L L0 02 2) ). .. . 6 dB ME EA A N B EP EP L I IM MI IT T M S M UL UL T TI IS SL LO OT T PW WR R PR RO OF 0 WI IT T H 3 U L T SL S L . . (B (B L L0 03 3) ). .. . 7 dB ME EA A N B EP EP L I IM MI IT T M S M UL UL T TI IS SL LO OT T PW WR R PR RO OF 0 WI IT T H 4 U L T SL S L . . (B (B L L0 04 4) ). .. . 7 dB ME EA A N B EP EP L I IM MI IT T M S M UL UL T TI IS SL LO OT T PW WR R PR RO OF 1 WI IT T H 2 U L T SL S L . . (B (B L L1 12 2) ). .. . 4 dB ME EA A N B EP EP L I IM MI IT T M S M UL UL T TI IS SL LO OT T PW WR R PR RO OF 1 WI IT T H 3 U L T SL S L . . (B (B L L1 13 3) ). .. . 5 dB ME EA A N B EP EP L I IM MI IT T M S M UL UL T TI IS SL LO OT T PW WR R PR RO OF 1 WI IT T H 4 U L T SL S L . . (B (B L L1 14 4) ). .. . 6 dB ME EA A N B EP EP L I IM MI IT T M S M UL UL T TI IS SL LO OT T PW WR R PR RO OF 2 WI IT T H 3 U L T SL S L . . (B (B L L2 23 3) ). .. . 6 dB ME EA A N B EP EP L I IM MI IT T M S M UL UL T TI IS SL LO OT T PW WR R PR RO OF 2 WI IT T H 4 U L T SL S L . . (B (B L L2 24 4) ). .. . 7 dB R X Q UA U A L L IM IM I IT T M S M UL UL T TI IS SL LO OT T PW WR R PR RO OF 0 WI IT T H 2 U L T SL SL . . .. .( (R RL L0 02 2) ). .. . 7 dB R X Q UA U A L L IM IM I IT T M S M UL UL T TI IS SL LO OT T PW WR R PR RO OF 0 WI IT T H 3 U L T SL SL . . .. .( (R RL L0 03 3) ). .. . 5 dB R X Q UA U A L L IM IM I IT T M S M UL UL T TI IS SL LO OT T PW WR R PR RO OF 0 WI IT T H 4 U L T SL SL . . .. .( (R RL L0 04 4) ). .. . 6 dB R X Q UA U A L L IM IM I IT T M S M UL UL T TI IS SL LO OT T PW WR R PR RO OF 1 WI IT T H 2 U L T SL SL . . .. .( (R RL L1 12 2) ). .. . 7 dB R X Q UA U A L L IM IM I IT T M S M UL UL T TI IS SL LO OT T PW WR R PR RO OF 1 WI IT T H 3 U L T SL SL . . .. .( (R RL L1 13 3) ). .. . 7 dB R X Q UA U A L L IM IM I IT T M S M UL UL T TI IS SL LO OT T PW WR R PR RO OF 1 WI IT T H 4 U L T SL SL . . .. .( (R RL L1 14 4) ). .. . 7 dB R X Q UA U A L L IM IM I IT T M S M UL UL T TI IS SL LO OT T PW WR R PR RO OF 2 WI IT T H 3 U L T SL SL . . .. .( (R RL L2 23 3) ). .. . 7 dB R X Q UA U A L L IM IM I IT T M S M UL UL T TI IS SL LO OT T PW WR R PR RO OF 2 WI IT T H 4 U L T SL SL . . .. .( (R RL L2 24 4) ). .. . 6 dB E G PR PR S IN IN A CT CT I VI VI T Y C R IT IT E RI RI A .. .. . .. .. . .. .. . .. .. . . .. .. . .. .. . .. .. . .. .. . .. .. . . (E (E G IC IC ) .. .. 0 E V EN EN T S P E ER R H O U R F OR OR E G P RS RS I N A CT CT I VI VI T Y A LA LA R M . .. .. . .. .. . .. .. . .. .. ( I EP EP H ). ). . 10 S U PE PE R VI VI S IO IO N P E R IO IO D L E N GT GT H F O R E G PR PR S I N A CT CT I VI VI T Y A L AR AR M . . . (S (S P L) L) . . 60 min D T M P F C P A CK CK E T F L OW OW T IM IM E R . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. ( DP DP P F T) T) . . 4 s D T M F R A G M E N T AT AT I O N P E N A L T Y . . . . . . .. .. . . . . .. .. . . . . .. .. . . . . .. .. . . . . ( DF DF P ) . . 0 . 3 I S HO HO P RE RE F ER ER R ED ED F OR OR N ON ON - DT DT M MS MS . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. . .. .. . (I (I P ND ND ) .. .. N C / I T A RG RG E T F R . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. . (C (C I F) F) . .. .. . SO OF FT B BL LO OC CK KI IN NG G C /I /I F R .. .. . .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. . . .. .. ( (S SB BF F) ). .. .. .. C/ /I I T AR AR G GE ET U UL L O FF FF S SE ET . .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. . . .. .. ( CI CI U UL L) ). ... C / I T A RG RG E T H R .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. . .. .. . .. .. . .. .. ( CI CI H ) .. .. . . SO OF FT B BL LO OC CK KI IN NG G C /I /I H R .. .. . .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. . . .. .. ( (S SB BH H) ). .. .. .. C / I T A RG RG E T 1 4 .4 .4 . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. . .. .. . .. .. ( CI CI T ). ). . . . SO OF FT B BL LO OC CK KI IN NG G C /I /I 1 4. 4. 4 . .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. . . .. .. ( SB SB C CI I) ). ... C/ /I I T AR AR G GE ET A AM MR F FR R . .. .. . .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. . . .. .. ( CI CI A AF F) ). ... SO OF FT B BL LO OC CK KI IN NG G C /I /I A MR MR F R . . .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .( (S SB BA AF F) ). .. .. C / I T A RG RG E T A M R H R .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. ( C IA IA H ). ). . . SO OF FT B BL LO OC CK KI IN NG G C /I /I A MR MR H R . . .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .( (S SB BA AH H) ). .. ..
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9 0 0 14 0 16 0 8 0 12 0
dB dB dB dB dB dB dB dB dB dB dB dB dB dB
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EEO OUTPUT BASE STATION CONTROLLER PARAMETERS
B I M C O NF NF I DE DE N CE CE P RO RO B AB AB I LI LI T Y . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. ( BC BC P ). ). . .. .. B I M I N TE TE R FE FE R EN EN C E T H RE RE S HO HO L D . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. ( BI BI T ). ). . .. .. B I M U P DA DA T E P E RI RI O D .. .. . . .. .. . .. .. . .. .. . .. .. . . .. .. . .. .. . .. .. . .. .. . .. .. . (B (B U P) P) . .. .. . B I M U P D AT AT E S C A L IN IN G F A C T OR OR . . . . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . . (B (B U SF SF ) .. .. . B I M U P DA DA T E G U AR AR D TI TI M E . . .. .. . .. .. . .. .. . .. .. . .. .. . . .. .. . .. .. . .. .. . . (B (B U GT GT ) .. .. . DF FC CA C CH HA AN NN NE EL A AL LL LO OC CA AT TI IO ON N M ET ET H OD OD . .. .. . .. .. .. .. .. .. .. . . .. .. . .. . . .. .. ( (D D C AM AM ) ). .. .. . E X PE PE C TE TE D BS BS C -B -B S C I N TE TE R FA FA C E D E LA LA Y .. .. . .. .. . . .. .. . .. .. . .. .. . . (E (E B ID ID ) .. .. . SA AI IC D DL L C /I /I O FF FF S SE ET . .. .. .. .. .. .. .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. ( (S S C IO IO ) ). .. .. .
P RI RI O RI RI TY TY L EV EV EL EL 1 2 3 4 5 6 7 8 9 10 11 12 13 14
90 30 60 0.5 10 0 50 3
% dB dB mi n mi
ms ms dB
S U BS BS CR CR I BE BE R T YP YP E 0 0 0 0 1 1 1 1 1 2 0 2 0 0
(G S M S U B S C R I B E R ) (G S M S U B S C R I B E R ) (G S M S U B S C R I B E R ) (G S M S U B S C R I B E R ) (M C N S U B S C R I B E R ) (M C N S U B S C R I B E R ) (M C N S U B S C R I B E R ) (M C N S U B S C R I B E R ) (M C N S U B S C R I B E R ) (P R I O R I T Y S U B S C R I B E R ) (P (G S M S U B S C R I B E R ) (P R I O R I T Y S U B S C R I B E R ) (P (G S M S U B S C R I B E R ) (G S M S U B S C R I B E R )
*) NO OT T AC CT TI IV VE IN PR RF FI IL LE C O M M A ND ND E X E C U TE TE D
Semantic error messages
If an error occurs, the general semantic error messages of the MML commands are output. For more information, see General Notice Messages of MML Session.
Execution error messages
If an error occurs, the general execution error messages of the MML commands are output. For more information, see General Error Messages of System.
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EE - Base Station Controller Parameter Handling in BSC
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EEI OUTPUT RADIO NETWORK CONFIGURATION
EEI OUTPUT RADIO NETWORK CONFIGURATION Function
With the EEI command you interrogate the radio network in the BSDATA. The program outputs the whole radio network configuration or the configuration under given BCFs, SEGs or BTSs.
Parameters
BCF identification, SEG identification , SEG name , BTS identification, BTS name: output type;
Syntax EE EI I: [ [ BCF = > .. .. . | S E G = < S EG EG i d en en t if if i c at at i on on > . . . < o pt pt i on on > | SE EG GN NA AM ME E = .. .. . > | BT TS S = n> . . . | NA AM ME = . . . ] | < a al ll l> > de ef f ] : [ < o ut ut p pu ut ty yp pe e> > | de ef f ] ;
Parameter explanations
BCF identification BCF = decimal number With this parameter you identify the base control function. The value range depends on the BSC hardware configuration and the corresponding options. You can enter multiple BCFs by using characters & and &&. You can enter only one of the parameters BCF, SEG, SEGNAME, BTS or NAME in the same command. SEG identification identification SEG = decimal number or ALL With this parameter you identify the segment. The value range is the same as the BTS identification value range. With ALL you can output all segments under a BSC.
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You can enter several values at the same time by using characters & or &&. You can enter only one of the parameters BCF, SEG, SEGNAME, BTS or NAME in the same command. SEG name SEGNAME = text string With this parameter you identify the segment by its name. The name can contain 1 to 15 characters. You can enter several names at the same time by using character &. You can enter only one of the parameters BCF, SEG, SEGNAME, BTS or NAME in the same command. BTS identification BTS = decimal number With this parameter you identify the BTS with a decimal number. The value range depends on the BSC hardware configuration and the corresponding options. You can enter multiple BTSs by using characters & and &&. You can enter only one of the parameters BCF, SEG, SEGNAME, BTS or NAME in the same command. BTS name NAME = text string With this parameter you identify the BTS by name. The name can contain 1...15 characters. You can enter multiple BTS names by using the character &. You can enter only one of the parameters BCF, SEG, SEGNAME, BTS or NAME in the same command. output type With this parameter you define the output type. The output type can be: NORM BCSU
110 (138)
for the normal radio netw etwork configuratio tion outpu tput for the following information:
.
the number of created TRXs and D-channel links under BCSUs
.
the number of real TCHs in the BCSUs
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DN9813184 Issue 19-1 en
EEI OUTPUT RADIO NETWORK CONFIGURATION
.
.
the maximum TRX capacity in the BSC supported by hardware the maximum TRX capacity in the BSC supported by hardware and software.
When calculating these numbers, all BCSUs in the WO (working) state are included. The number of real TCHs is defined so that one full rate supporting resource corresponds to one TCH resource and one half rate or dual rate supporting resource corresponds to two TCH resources. If you enter the command with this parameter only (ZEEI::BCSU;), the normal radio network configuration output is not shown. The default value is NORM. You may find it useful to output the number of TRXs under BCSUs when you are creating a new BTS site.
Note The number of TRXs under all BCSUs is shown even if you only output the radio network under certain BCFs or BTSs ( ZEEI:BCF=1:BCSU;).
Examples
1.
Outp Output ut the the netw networ ork. k.
ZEEI; 2.
Outp Output ut the the netw networ ork k und under er BCFs BCFs 1, 10, 10, 11 11 and and 12. 12.
ZEEI:BCF=1&10&&12; 3.
Outp Output ut the the net netwo work rk unde underr BT BTS S 4.
ZEEI:BTS=4; 4.
Outp Output ut the the netw networ ork k unde underr BT BTS S CITY CITY1. 1.
ZEEI:NAME=CITY1; 5.
Outp Output ut the the num numbe berr of TR TRXs Xs and and links links und under er BCS BCSUs Us..
ZEEI::BCSU; 6.
Outp Output ut the the net netwo work rk unde underr all segm segmen ents ts..
ZEEI:SEG=ALL;
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Additional information
The TRX's EDGE information is not valid if the TRX hardware has been changed and the TRX has not been unlocked after that.
Execution printouts The abbreviations used in the execution printout:
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BCF=
Base Control Function
SEG=
Segment
BCSU=
BSC signalling unit
BL=
Blocked
BL-B L-BCF=
The The obje object ct is bloc block ked out of use use due to a fatal atal BTS-s TS-sit iteewide failure.
BL-B L-BTS= TS=
The The objec bjectt is block locked ed out out of use due due to a fatal atal sect sector or--wide wide failure on the BTS site.
BL-C L-CF=
The The objec bjectt is blo blocked cked out of use due due to both both a fata fatall Fram Framee Unit (FU) and a fatal Carrier Unit (CU) failure on the BTS site.
BL-CLK=
The objec ject is blocked out of use due to a clock synchronisation failure on the BTS site.
BL-C L-CU=
The The objec bjectt is block locked ed out out of use use due to a fata fatall Carri arrier er Unit nit (CU) failure on the BTS site.
BL-D L-DGN GN= =
The The obje object ct is bloc block ked temp tempo orari rarily ly out out of use due due to base base station diagnostic diagnostic activities. activities.
BL-FL L-FLO O=
The The logi logica call TR TRX X is bloc block ked out of use use on the the sect secto or because the physical TRX is switched to another sector of the BTS in order to replace a faulty TRX.
BL-FU L-FU= =
The The objec bjectt is block locked ed out out of use due due to a fata fatall Fram Framee Unit Unit (FU) failure on the BTS site.
BL-PW L-PWR R=
The The obje object ct is bloc block ked out of use use due to a main mainss powe power r failure on the BTS site.
BL-R L-RSL= SL=
The The objec bjectt is block locked ed out out of use use due to a tele teleco com m Abis bis Dchannel link disconnection.
BL-R BL -RST ST= =
The The logi logica call radi radio o netw networ ork k obje object ct is bloc blocke ked d out out of use use due due to the reset of the corresponding physical radio network equipment.
BL-SH L-SHD= D=
The The obje object ct will ill be block locked ed out of use withi ithin n a time time limi limit. t. New call attempts are prohibited via an object in the BLSHD state and forced handovers are executed for ongoing calls via the object.
BL-SU L-SU= =
The The objec bjectt is bloc blocke ked d out out of use due due to a BCSU CSU unit unit rese reset t on the BSC.
BL-SW L-SWO O=
The The obje object ct is bloc block ked out of use use due to an ongoi ngoing ng background data switchover.
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DN9813184 Issue 19-1 en
EEI OUTPUT RADIO NETWORK CONFIGURATION
DN9813184 Issue 19-1 en
BL-S BL -SYS YS= =
The The radi radio o netw networ ork k mana manage geme ment nt func functi tion on clas classs of the the BSC BSC has blocked the logical object out of use due to ongoing radio network recovery actions which are triggered because of fatal faults in the BSS radio network.
BL-T BL -TR RX=
The The objec bjectt is bloc blocke ked d out out of use due to a fata fatall TR TRXX-wi wide de failure on the BTS site.
BL-T BL -TST ST= =
The The objec bjectt is block locked ed temp tempo orari rarily ly out out of use use due due to rad radio network network testing activities.
BL-U BL -USR SR= =
The The oper operat ato or has block locked ed the the objec bjectt out of use. use. The The administrative state of the object is LOCKED or the related higher-level object is LOCKED.
BL-W BL -WAC AC= =
The The obje object ct is bloc blocke ked d out out of use, use, beca becaus usee it is wait waitin ing g for for the Autoconfiguration or the Automatic Picocell Planning.
BTS=
Base Transceiver Station
CBCH=
Cell broadcast channel
DFCA =
Dynami amic frequenc ency and and channel allo llocat cation ion
EDGE =
Enhanced data rates for global evolution
ERACH=
Extended random access channel
ET-PCM=
PCM number of Abis circuit
ETRX=
E-TRX type
FR=
Full rate
FREQ=
Absolute radio frequency number to the TRX
FRT=
TRX frequency type
FTRX=
A floating ing TRX, that is, a tran transsceiv eiver unit which ich can be dynamically switched to operate in any of the BTS's sectors. The floating TRX automatically replaces a faulty BCCH TRX.
GP=
Busy GPRS
HR=
Half rate
L=
The object is LOCKED and is not in the active radio network of the BSS. It is blocked out of use from the viewpoint of the BSS call control functions.
MBCC MBCCB= B=
Comb Combin ined ed broa broadc dcas astt cont contro roll chan channe nell with with cell cell broa broadc dcas ast t channel
MBCCH=
Broadcast control channel
MBCC MBCCH HC=
Combi ombine ned d broad roadca cast st cont contro roll chan channe nell
MPBCCH=
Packet control channel
PREF=
Preferred BCCH TRX
SD=
Shutting down
SP=
Spare
TRX=
Transceiver
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*TRX=
A BCCH TRX which is replaced by the floating TRX.
U=
The object is in the active radio network of the BSS. From the viewpoint of the call control functions, the UNLOCKED radio network resource is available if the related higher-level objects are also UNLOCKED.
UA=
Unavailable
WO=
The object is in the normal function state. From the viewpoint of the BSS call control functions, the WORKING radio network resource is available for call control use.
The printout of the command ZEEI:BCF=1&13; is:
BSC
BSC-LAB
200 6-10- 26
10:11: 32
R A DI DI O N E TW TW O RK RK C O NF NF I GU GU R AT AT I ON ON I N B S C: C:
LAC CI HOP = = == == = == == = == == = == == = == == = == == = = BCF-0001 FLEXI EDGE 00001 00001 BTS-0001 CENTRUM1 RF /– TRX-001 TRX-002 TRX-003 TRX-006 BTS-0002 CENTRUM2 RF /– TRX-004 TRX-005 TRX-007 BCF-0013 TALK-FAMILY 00001 00003 BTS-0011 COUNTRYSIDE1 BB/– *TRX-001 00001 00004 BTS-0021 –/– COUNTRYSIDE2 TRX-005 FTRX-007
AD ST == U U U L L U U
F OP R ET- BCCH/CBCH/ S T A T E FR F R E Q T PC PCM ERACH = = == == = = = = = = = = = = == == = = = == = = == == = == == = WO WO WO BL-USR BL-USR WO WO
124 20 22 24
0 0 0 0
E T R X =
1 8 MBC CH +CB CH 18 18 18
P B R C E S F U = == 1
P
D -C HAN NEL BU SY O&M LINK HR FR N A M E ST ST /GP = = == == = = = = = = = = = OM1 WO 2 4 3
1 1 1 1 6 5
U WO U WO U WO
30 32 34
0 0 0
18 MB CCH 18 ER ACH 18
P E E
U WO U WO
1 1 1 2
OM13
WO 1
U WO U WO
100
U WO U BL-FLO
118 122
0
1 9 MBC CH+CBCH
5
2 4
0 0
1 9 MBC CH C 19 19
P
2 2
C O M M A ND ND E X E C U TE TE D
The printout of command example 5 is:
B SC
BSC -LAB
2006-10-18
08:19:12
N U M BE BE R O F C R E AT AT E D T R XS XS , L I NK NK S A N D R E A L T C HS HS U N DE DE R B C SU SU S :
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EEI OUTPUT RADIO NETWORK CONFIGURATION
UNIT == == == == == == == BCSU-1 BCSU-2 BCSU-3 BCSU-4 BCSU-5 BCSU-6 BCSU-7 BCSU-8 ======== TOTAL
TR XS == == == == == 40 40 40 40 40 40 40 40 ====== 3 20
D-CHANNEL TE LE COM L INK S == == == == == == == == == == == == = 40 40 40 40 40 40 40 40
D- CHA NNEL O& M LIN KS == == == == == == == == = 8 8 8 8 8 8 8 8
H A RD RD W AR AR E S U P PO PO R TE TE D M A X IM IM U M T R X C A PA PA C IT IT Y : HW AND SW SU UP PP PO OR RT TE ED D MA AX XI IM MU UM M TR RX X CA AP PA AC CI IT TY Y: :
RE AL TC HS == == == == == 310 310 310 310 310 310 310 310 ====== 2480
384 38 84 4
C O M M A ND ND E X E C U TE TE D
The printout of command example 6 is:
BSC
BSC-LAB
2 006 -10-2 6
10 :1 1:3 2
R A DI DI O N E TW TW O R K C O N FI FI G UR UR A TI TI O N I N B S C: C: F AD OP R LAC CI HO P S T STA TE FRE Q FR T = = == == = == == = == == = == == = == == = == == = = = = = = == == = = = = = = = = 0 0 00 00 1 0 0 0 01 01 S E G - 00 00 0 1 B I G_ G_ C EN EN T RU RU M BCF-0001 TALK-FAMILY U WO BTS-0001 U WO CENTRUM1 RF/– T RX-00 1 U WO 124 0 T RX-00 2 L BL -US R 20 0 T RX-00 3 L BL -US R 22 0 T RX-00 6 U WO 24 0 BCF-0005 ULTRASITE U WO BTS-0002 U WO CENTRUM2 –/RF ED GE TR X-004 U WO 30 0 ED GE TR X-005 U WO 32 0 ED GE TR X-007 U WO 34 0 0 0 00 00 1 0 0 0 0 3 S E GG- 0 01 01 3 B I G_ G_ C OY OY N TR TR Y 13 13 BCF-0013 TALK-FAMIL Y U WO BTS-0011 U WO C OU OU NT NT RY RY SI SI DE DE 1 B B/ B/ – TRX-0 01 U WO 100
E T ET- BCCH/CBCH/ R P PC CM ERACH X = = == == = = == == = == == = == == = =
P B R C E S F U = == 1
D-CHANNEL BUSY O&M LINK HR FR NAME ST ST /GP = = = == == = = = = = = = = OM1
WO 2
33 MBCCHC 33 34 36
P
1 1 1 8 4
OM85
WO 6 5
44 44 44
P
4 4 4
2
OM120 WO 1
0
4 3
72 MBCCHC
5
0
0 0 0 0 1 0 0 0 0 4 S E G - 0 01 01 5 B I G _ C OY OY N T R Y 1 5
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EE - Base Station Controller Parameter Handling in BSC
BCF-0015 ULTRASITE U BTS-0015 U CO OU UN NT TR RY YS SI ID DE E1 15 5 RF F/ /D DF F TRX-001 U D FCA TRX-0 02 U D FCA TRX-0 03 U
WO WO WO WO WO
2
OM125 WO 1
101 103 105
0 0 0
7 3 MBC CHC 73 73
5
0 0 0
C O M M A ND ND E X E C U TE TE D
Semantic error messages
If an error occurs, the general semantic error messages of the MML commands are output. For more information, see General Notice Messages of MML Session.
Execution error messages
If an error occurs, the general execution error messages of the MML commands are output. For more information, see General Error Messages of System.
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EEL OUTPUT TRX RADIO TIME SLOTS
EEL OUTPUT TRX RADIO TIME SLOTS Function
With the EEL command you output the TRX's radio time slots that are in a given operational operational state.
Parameters
operational state: BCF identification, BTS identification, BTS name;
Syntax EE EL L:
[ > ] : [ [ BCF = n> . . . | BT TS S = n> . . . | NA AM ME = . . . ] | < a al ll l> > de ef f ] ;
Parameter explanations
operational operational state With this parameter you define the radio time slot's operational operational state. The inquiry inquiry from the BSDATA is based on this state. The state values are:
DN9813184 Issue 19-1 en
BL=
blocked
BL-BCF=
blocked-bcf_fault
BL-BTS=
blocked-bts_fault
BL-CF=
blocked-cu/fu_fault
BL-CLK=
blocked-clock_fault
BL-CU=
blocked-cu_fault
BL-DGN=
blocked-diagnostic
BL-FLO=
blocked-floating
BL-FTY=
blocked-faulty
BL-FU=
blocked-fu_fault
BL-PWR=
block lockeed-main ains_power_fault
BL-RSL=
blocked-rsl_fault
BL-RST=
blocked-reset
BL-SHD=
blocked-shutting_down
BL-SU=
blocked-bcsu_reset
# Nokia Corporation
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EE - Base Station Controller Parameter Handling in BSC
BL-S BL -SWO WO= =
bloc blocke kedd-ba back ckgr grou ound nd_d _dat ata_ a_sw swit itch chov over er
BL-SYS=
blocked-system
BL-TRX=
blocked-trx_fault
BL-TSL=
blocked-timeslot_fault
BL-TST=
blocked-testing
BL-USR=
blocked-user
BL-W BL -WAC AC= =
bloc blocke kedd-wa wait itin ing g for for auto autoco conf nfig igur urat atio ion n
If you give the BL parameter value, the program outputs all radio time slots of the TRX that are in the BL state or its substate. If you give the BL-FTY parameter value, the program outputs the same information except for the TRX's radio time slots that are in BL-USR or BL-TST state. If you do not give this parameter, the program outputs only the number of the idle, busy and blocked radio time slots and GPRS radio time slots. BCF identification BCF = decimal number With this parameter you identify the base control function. The value range depends on the BSC hardware configuration and the corresponding options. You can give multiple BCFs by using the characters & and &&. You can only give one of the parameters BCF, BTS and NAME in the same command. BTS identification BTS = decimal number With this parameter you identify the BTS with a decimal number. The value range depends on the BSC hardware configuration and the corresponding options. You can give multiple BTSs by using the characters & and &&. You can only give one of the parameters BCF, BTS and NAME in the same command. BTS name NAME = the name of the BTS With this parameter you identify the BTS by name. The name can contain 1...15 characters. You can give multiple BTS names by using the character &. You can only give one of the parameters BCF, BTS and NAME in the same command.
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EEL OUTPUT TRX RADIO TIME SLOTS
Examples
1.
Output Output the TRX's TRX's radio radio time slots slots that that are in a BL state state and under under BTSs BTSs 3 and 7.
ZEEL:BL:BTS=3&7; 2.
Outp Output ut the the TRX's TRX's rad radio io time time slot slotss that that are are in a BL sta state te and and unde underr BTSs BTSs CITY1 and CITY2.
ZEEL:BL:NAME=CITY1&CITY2; 3.
Outp Output ut the the TRX TRX's 's rad radio io tim timee slot slotss that that are are in a BLBL-US USR R state state..
ZEEL:BL-USR; 4.
Outp Output ut BSC BSC netw networ ork k info inform rmati ation on..
ZEEL; 5.
Outp Output ut the the radio radio time time slot slot stat status us info inform rmati ation on of of BCFs BCFs 1 and and 2. 2.
ZEEL::BCF=1&3; Additional information
If you specify the BCFs and/or BTSs in the EEL command (see examples 1, 2 and 5), the MML program displays the radio time slot information under the specified area. If you give the command without parameters, the MML program displays the radio time slot information under the whole BSC (see execution printouts).
Execution printouts The abbreviations used in the execution printout:
BCF=
Base Control Function
BTS=
Base Transceiver Station
CH0=
RTSL (radio time slot)
GPRS=
General Packet Radio Service
L=
The object is LOCKED and is not in the active radio network of the BSS. It is blocked out of use from the viewpoint of the BSS call control functions.
SD=
Shutting down
TRX=
Transceiver
U=
The object is in the active radio network of the BSS. From the viewpoint of the call control functions, the UNLOCKED radio network resource is available if the related higher-level objects are also UNLOCKED.
WO=
The object is in the normal function state. From the viewpoint of the BSS call control functions, the WORKING radio network resource is available for call control control use.
The printout of the command ZEEL:BL:BCF=1&11&12; is:
DN9813184 Issue 19-1 en
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EE - Base Station Controller Parameter Handling in BSC
BSC
BSC-LAB
200 4-11- 25
ADM S TAT E = = == == = BCF-0001 U CENTRUM1 BTS-0001 U TR RX X-0 00 01 1 U TRX-003 U TRX-005 U CENTRUM2 BTS-0002 U TR RX X-0 00 07 7 U
OP STA TE = = == == = = WO
ADM S TAT E = = == == = BCF-0011 U COUNTRY1 BTS-0010 U TR RX X-0 00 01 1 U TRX-003 U TRX-005 U
OP STA TE = = == == = = WO
10:11: 32
CH0 CH1 CH2 CH3 CH4 CH5 CH6 CH7 = = == == = = = = = = = == = = = = == == = = = = = = = = = = == == = = = == == = = = = = = = == = = = == == = =
WO BL L-R RE ES WO WO
BL L-R RE ES B BL L-R RE ES S B LL- R RE ES B BL L-R RE ES S B LL- R RE ES B BL L-R RE ES S B LL- R RE ES B BL L-R RE ES S BL-USR BL-TST
BL-USR BL L-U US SR
BL L-U US SR B BL L-U US SR R B LL- U US SR B BL L-U US SR R B LL- U US SR B BL L-U US SR R B LL- U US SR B BL L-U US SR R
WO BL L-S SY YS B L-CU WO
CH0 CH1 CH2 CH3 CH4 CH5 CH6 CH7 = = == == = = = = = = = == = = = = == == = = = = = = = = = = == == = = = == == = = = = = = = == = = = == == = =
BL L-S SY YS B BL L-S SY YS S B LL- S SY YS B BL L-S SY YS S B LL- S SY YS B BL L-S SY YS S B LL- S SY YS B BL L-S SY YS S BL-CU BL- CU B L-CU B L-C U B L-C U BL-C U BL -C U BL -CU BL-TST
BU US SY FU UL LL RA AT TE .. .. .. .. .. .. .. .. .. .. .. .. .. BU US SY HA AL LF RA AT TE .. .. .. .. .. .. .. .. .. .. .. .. .. BU US SY SD DC CC CH H .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. ID DL LE FU UL LL RA AT TE .. .. .. .. .. .. .. .. .. .. .. .. .. ID DL LE HA AL LF RA AT TE .. .. .. .. .. .. .. .. .. .. .. .. .. ID DL LE SD DC CC CH H .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. BL LO OC CK K ED ED RA R A DI DI O T IM IM E S LO LO TS TS .. . . .. .. GP PR RS TI IM ME SL LO OT TS S .. .. .. .. .. .. .. .. .. .. .. .. .
36 12 16 42 24 40 35 10
C O M M A ND ND E X E C U TE TE D
The printout of the command example 4 is:
B SC
BSC -LAB
2004-08-15
10:13:46
B S C N E T W O RK RK I N F O R MA MA T I O N : BU US SY FU UL LL RA AT TE .. .. .. .. .. .. .. .. .. .. .. .. .. BU US SY HA AL LF RA AT TE .. .. .. .. .. .. .. .. .. .. .. .. .. BU US SY SD DC CC CH H .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. ID DL LE FU UL LL RA AT TE .. .. .. .. .. .. .. .. .. .. .. .. .. ID DL LE HA AL LF RA AT TE .. .. .. .. .. .. .. .. .. .. .. .. .. ID DL LE SD DC CC CH H .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. B L OC OC K ED ED RA R A DI DI O T IM IM E S LO LO TS TS .. . . .. .. GP PR RS TI IM ME SL LO OT TS S .. .. .. .. .. .. .. .. .. .. .. .. .
36 12 16 42 24 40 35 10
C O M M A N D E X E C UT UT E D
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# Nokia Corporation
DN9813184 Issue 19-1 en
EEL OUTPUT TRX RADIO TIME SLOTS
Semantic error messages Execution error messages
If and error occurs, the general semantic error messages of the MML commands are output. For more information, see General Notice Messages of MML Session. / * ** ** E R RO RO R I N R R MP MP R B C O MM MM U NI NI C AT AT I ON ON * * */ */
The output was successful, but the count information of the radio time slots cannot be output due to a communication error with the program block. For more information, see Radio Network Administration. In addition, the general execution error messages of the MML commands are used. For more information, see General Error Messages of System.
DN9813184 Issue 19-1 en
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121 (138)
EE - Base Station Controller Parameter Handling in BSC
122 (138)
# Nokia Corporation
DN9813184 Issue 19-1 en
EEP OUTPUT BACKGROUND DATA ACTIVATION STATES
EEP OUTPUT BACKGROUND DATA ACTIVATION STATES Function
With the EEP command you output the background data state and the BTSspecific background data states in the BSDATA.
Parameters
BCF identification, BTS identification, BTS name;
Syntax EE EP P: [ [ BCF = > .. .. . | BT TS S = n> . . . | NA AM ME = . . . ] | < a al ll l> > de ef f ] ;
Parameter explanations
BCF identification BCF = decimal number With this parameter you identify the base control function. The value range depends on the BSC hardware configuration and the corresponding options. You can give multiple BCFs by using characters & and &&. You can only give one of the parameters BCF, BTS and NAME in the same command. BTS identification identification BTS = decimal number With this parameter you identify the BTS with a decimal number. The value range depends on the BSC hardware configuration and the corresponding options. You can give multiple BTSs by using characters & and &&. You can only give one of the parameters BCF, BTS and NAME in the same command. BTS name NAME = the name of the BTS
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123 (138)
EE - Base Station Controller Parameter Handling in BSC
With this parameter you identify the BTS by name. The name can contain 1...15 characters. You can give multiple BTSs by using the character &. You can only give one of the parameters BCF, BTS and NAME in the same command. Examples
1.
Outp Output ut the the back backgr grou ound nd data data state states. s.
ZEEP; 2.
Output Output the backgr backgroun ound d data data state statess under under BCFs BCFs 1, 10, 11 and 12.
ZEEP:BCF=1&10&&12; 3.
Outp Output ut the the back backgr grou ound nd data data sta states tes unde underr BTS BTS 4. 4.
ZEEP:BTS=4; 4.
Output Output the backgr backgroun ound d data states states under under BTS CITY1. CITY1.
ZEEP:NAME=CITY1; Execution printouts The abbreviations used in the execution printout:
ACTI AC TIV VATING TING
This This back backgr grou ound nd data data activ activati ation on state state indi indicat cates es that that the the swapping of parameter values between the background and the active data is going on.
ACTIVATING-INTERRUPTED This background data activation state indicates that the ongoing swapping of parameter values has been interrupted with a command or by a system restart. BACK BA CK-U -UP P
This This back backgr grou ound nd data data acti activa vati tion on stat statee indi indica cate tess that that the the old old active data is on the background.
CLE LEAR AR
This This back backgr grou ound nd data ata acti activa vati tio on stat statee ind indicat icates es that that the the database contains new background data or that the interrupted activation is cancelled.
NEW
This backg ckground data ata activ tivation ion state indica icates tes tha that the the activation of a switchover can be initiated.
NOT NOT DE DEFI FINE NED D
The The bac backg kgro roun und d dat dataa und under er the the BTS BTS is not not defi define ned. d.
DEFIN EFINED ED
The The back backgr grou ound nd data data under nder the the BTS is chan chang ged. ed. The The background and the active data will be swapped in activation.
SWAP SWAPPI PING NG
This This back backgr grou ound nd data data stat statee unde underr the the BT BTS S indi indica cate tess that that the swapping between the background and the active data is going on.
SWAP SWAPPE PED D
This This back backgr grou ound nd data data stat statee unde underr the the BT BTS S indi indica cate tess that that the parameter values between the background and the active data have been swapped.
The printout of the command ZEEP:BCF=1&13; is:
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EEP OUTPUT BACKGROUND DATA ACTIVATION STATES
B SC
BSC -LAB
2004-11-19
10:11:32
R A D IO IO N E TW TW O RK RK B A CK CK G RO RO U ND ND D A TA TA S T AT AT E S I N B S C: C: B A C K G R OU OU N D D A T A S T A T E .. .. . . . . .. .. . . . . .. .. . . . . .. .. . . . . .. .. . . . . . A C T I V AT AT I N G
B CF = == == == == == == =
BTS-ID = == == == == == == =
BTS NAME = == == == == == == == ==
B T S B A C K G RO RO U N D DA TA ST ATE = == == == == = == == == == = == == = =
BTS-0001 BTS-0002
CENTRUM1 CENTRUM2
SW APPED SW APPED
BTS-0011 BTS-0021
CITY1
S WAPPI NG DEFINED
BCF-0001
BCF-0013
C O M M A N D E X E C UT UT E D
Semantic error messages
If an error occurs, the general semantic error messages of the MML commands are output. For more information, see General Notice Messages of MML Session.
Execution error messages
If an error occurs, the general execution error messages of the MML commands are output. For more information, see General Error Messages of System.
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EE - Base Station Controller Parameter Handling in BSC
126 (138)
# Nokia Corporation
DN9813184 Issue 19-1 en
EEC CREATE LAC TO SPC MAPPING INFO
EEC CREATE LAC TO SPC MAPPING INFO Function
With the EEC command you create LAC to SPC mapping info in the BSDATA. The command is optional.
Parameters
mapping entry index, location area code : signaling point code;
Syntax
Parameter explanations
EE EC C:
ME EI I = < m ap ap p pi in ng g e nt nt r ry y i nd nd e ex x> >, , LA AC C = > : [ SPC = e> . . . ] ; < o op p t io io n n> >
mapping entry index MEI = decimal number With this parameter you define the mapping entry index which is an indication for a mapping relation between the location area code and the signaling signaling point code in the LAC to SPC mapping info. The values range from 1 to 64. If you do not give this parameter, parameter, the smallest free mapping entry index value is searched and used. location area code LAC = decimal number With this parameter you define the location area code which will be mapped with a signaling point code. The values range from 1 to 65533. The parameter is obligatory. signaling point code SPC = hexadecimal number or decimal number
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EE - Base Station Controller Parameter Handling in BSC
With this parameter you define the signaling point code which will be mapped with a location area code. You can give values either as hexadecimal numbers or decimal numbers. The values range from 1 to FFFFFF as hexadecimal numbers or from 1 to 16777215 as decimal numbers. If you give a decimal number, you must type characters D' before the parameter value. The maximum amount of signaling point codes in one LAC to SPC mapping info is 6. You can give multiple signaling point codes by using the wild card character &. You can give the same signaling point code only once. If DFCA is used under the LAC, give the SPC address of that BSC. Examples
1.
Create Create LAC LAC to to SPC SPC mappi mapping ng info info.. The The locati location on area area code code numbe numberr is 9 and signaling point codes are 2345, 123455 and 345678. The signaling point codes are given as decimal numbers.
ZEEC:LAC=9:SPC=D'2345&D'123455&D'345678; 2.
Create Create LAC to SPC SPC mappin mapping g info info wher wheree the the mappi mapping ng entr entry y index index is 2, 2, location area code is 10 and signaling point codes are 1FF, 10FF, 100FF and 1000FF. The signaling point codes are given as hexadecimal numbers.
ZEEC:MEI=2,LAC=10:SPC=1FF&10FF&100FF&1000FF; Execution printouts The execution printout of command example 1 is: BSC
BSC-LAB
200 4-09- 09
11:11: 32
L A C T O S P C M A P P IN IN G I N FO FO C R EA EA T ED ED MA AP PP PI IN NG G EN NT TR RY Y IN ND DE EX X .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. . . (M (M E EI I ) .. .. . .. . 1 LO OC CA AT TI IO ON AR RE EA CO OD DE .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. . . .. .. . .. . . (L (L A AC C ) .. .. . .. . 9 SI IG GN NA AL LI IN NG G PO PO I IN NT CO OD DE ES S (H (H / /D D) ): : 00 00 09 92 29 9/ /0 00 00 00 02 23 34 45 5 01 1E E2 23 3F F/ /0 00 01 12 23 34 45 55 5 05464E/00345678 C O M M A ND ND E X E C U TE TE D
The execution printout of command example 2 is: BSC
BSC-LAB
200 4-09- 09
11:11: 32
L A C T O S P C M A P P IN IN G I N FO FO C R EA EA T ED ED MA AP PP PI IN NG G EN NT TR RY Y IN ND DE EX X .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. . . (M (M E EI I ) .. .. . .. . 2 L O CA CA T IO IO N A R EA EA C O DE DE . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . ( LA LA C ). ). . .. .. 10 SI IG GN NA AL LI IN NG G PO PO I IN NT CO OD DE ES S (H (H / /D D) ): : 00 00 01 1F FF F/ /0 00 00 00 00 05 51 11 1 00 01 10 0F FF F/ /0 00 00 00 04 43 35 51 1 0 1 00 00 F F/ F/ 0 00 00 6 57 57 9 1 1 0 00 00 F F/ F/ 0 10 10 4 88 88 3 1 C O M M A ND ND E X E C U TE TE D
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EEC CREATE LAC TO SPC MAPPING INFO
Semantic error messages
If an error occurs, the general semantic error messages of the MML commands are output. For more information, see General Notice Messages of MML Session.
Execution error messages
For more information, see Radio Network Administration.
In addition, the general execution error messages of MML commands are used. For more information, see General Error Messages of System.
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EED DELETE LAC TO SPC MAPPING INFO
EED DELETE LAC TO SPC MAPPING INFO Function
With the EED command you delete the LAC to SPC mapping info from the BSDATA. The command is optional.
Parameters
mapping entry index, location area code;
Syntax
Parameter explanations
EE ED D:
( M EI EI = < m ma ap pp pi in n g e n tr tr y i n de de x x> > | L A C = < l oc oc a ti ti o n a r e a c o de de > ) ; < o pt pt i on on >
mapping entry index MEI = decimal number With this parameter you define the mapping entry index which indicates a mapping relation between the location area code and the signaling point code in the LAC to SPC mapping info. The values range from 1 to 64. If you give this parameter, you cannot give the parameter LAC. location area code LAC = decimal number With this parameter you define the location area code which will be mapped with a signaling point code. The values range from 1 to 65533. If you give this parameter, you cannot give the parameter MEI.
Examples
1.
Delete Delete the the LAC LAC to to SPC SPC mappi mapping ng info info whose whose loca location tion area area code code is is 17899 17899..
ZEED:LAC=17899;
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Execution printouts The execution printout of command example 1 is: BSC
BSC-LAB
200 2-09- 09
11:11: 32
L A C T O S P C M A P P IN IN G I N FO FO D E LE LE T ED ED MA AP PP PI IN NG G EN NT TR RY Y IN ND DE EX X .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. . . (M (M E EI I ) .. .. . .. . L O C A T IO IO N A R E A C O D E . . . . . . . . . . .. .. . . . . .. .. . . . .. .. . . . . . . (L (L A C ) .. .. . .
1 17899
C O M M A ND ND E X E C U TE TE D
Semantic error messages
If an error occurs, the general semantic error messages of the MML commands are output. For more information, see General Notice Messages of MML Session.
Execution error messages
For more information, see Radio Network Administration.
In addition, the general execution error messages of MML commands are used. For more information, see General Error Messages of System.
132 (138)
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EEF MODIFY LAC TO SPC MAPPING INFO
EEF MODIFY LAC TO SPC MAPPING INFO Function
With the EEF command you add and remove signaling point codes to and from the LAC to SPC mapping info in the BSDATA. You can also modify the location area codes of the signaling point codes with this command.
Parameters
mapping entry index, location are code: identification of function: signaling point code, new location area code;
Syntax
EE EF F : ( ( M E I = < m ap ap p pi in ng g en nt tr ry y in nd de ex x> | LA AC C = ) >) : < i d e n ti ti f i c a t io io n o f f u n c ti ti o n > : ( S P C = < s ig ig n na al li i n g p o i nt nt c o de de > . . .. . | NE EW WL LA AC = ) ) ; < o op pt ti i o n> n>
Parameter explanations
mapping entry index MEI = decimal number With this parameter you define the mapping entry index which is an indication for a mapping relation between the location area code and the signaling signaling point code in the LAC to SPC mapping info. The values range from 1 to 64. If you give this parameter, you cannot give the parameter LAC. location area code LAC = decimal number With this parameter you define the location area code which will be mapped with a signaling point code. The values range from 1 to 65533.
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If you give this parameter, you cannot give the parameter MEI. identification of function With this parameter you identify whether the command adds a signaling point code to the LAC to SPC mapping info, removes a signaling point code from it or modifies location area code to LAC to SPC mapping info. The values are: A
Add signaling point codes
R
Remove signaling point codes
M
Modify location area code.
The parameter is obligatory. signaling point code SPC = hexadecimal number or decimal number With this parameter you define the signaling point code to be added to the LAC to SPC mapping info or removed from it. You can give values either as hexadecimal numbers or decimal numbers. The values range from 1 to FFFFFF as hexadecimal numbers or from 1 to 16777215 as decimal numbers. If you give a decimal number you must type the characters D' before you give the parameter value. The maximum number of signaling point codes in one LAC to SPC mapping info is 6. You can give multiple signaling point codes by using the character &. You can give the same signaling point code only once. The parameter is allowed only when you add or remove signaling point codes, and in that case the parameter is obligatory. new location area code NEWLAC = decimal number With this parameter you define the new location area code. The values range from 1 to 65533. The parameter is allowed only when you modify a location area code, and in that case the parameter is obligatory.
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EEF MODIFY LAC TO SPC MAPPING INFO
Examples
1.
Add signaling signaling point codes FFFFFF FFFFFF, FFFFFE, FFFFFE, FFFFFD, FFFFFD, FFFFFC, FFFFFC, FFFFFB, FFFFFB, and FFFFFA to the LAC to SPC mapping info whose location area code is 2.
ZEEF:LAC=2:A: SPC=FFFFFF&FFFFFE&FFFFFD&FFFFFC&FFFFFB&FFFFFA; 2.
Remove Remove signal signaling ing point point code code FFFFFE FFFFFE from from the the LAC LAC to SPC mappin mapping g info info whose location area code is 2.
ZEEF:LAC=2:R:SPC=FFFFFE; 3.
Add signal signaling ing point point code codess 11 11 and and 2111 2111 to the the LAC to SPC SPC mapp mapping ing info info whose mapping entry index is 3.
ZEEF:MEI=3:A:SPC=D'11&D'2111; 4.
Modi Modify fy loca locatio tion n area area code code from from 2 to 3.
ZEEF:LAC=2:M:NEWLAC=3; Execution printouts The execution printout of command example 1 is: BSC
BSC-LAB
2 004 -08-0 8
11 :1 1:3 2
LAC TO SPC MAPPIN NG G I N FO FO M O DI DI F IE IE D MA AP PP PI IN NG G EN NT TR RY Y IN ND DE EX X .. .. .. .. .. .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . (M (M E EI I) ). .. .. .. 1 LO OC CA AT TI IO ON AR RE EA CO OD DE .. .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . (L (L A AC C) ). .. .. .. 2 SI IG GN NA AL LI IN NG G PO PO I IN NT CO OD DE ES S (H (H / /D D) ): : FF FF FF FF FF F/ /1 16 67 77 7 7 21 21 5 FF FF FF FF FE E/ /1 16 67 77 77 72 21 14 4 F F F FF FF D /1 /1 6 77 77 7 21 21 3 F F FF FF F C/ C/ 1 67 67 7 72 72 1 2 F F F FF FF B /1 /1 6 77 77 7 21 21 1 F F FF FF F A/ A/ 1 67 67 7 72 72 1 0 C O M M A ND ND E X E C U TE TE D
The execution printout of command example 2 is: BSC
BSC-LAB
2 004 -08-0 8
11 :1 1:3 2
LAC TO SPC MAPPIN NG G I N FO FO M O DI DI F IE IE D MA AP PP PI IN NG G EN NT TR RY Y IN ND DE EX X .. .. .. .. .. .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . (M (M E EI I) ). .. .. .. 1 LO OC CA AT TI IO ON AR RE EA CO OD DE .. .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . .. .. . .. . . (L (L A AC C) ). .. .. .. 2 SI IG GN NA AL LI IN NG G PO PO I IN NT CO OD DE ES S (H (H / /D D) ): : FF FF FF FF FF F/ /1 16 67 77 7 7 21 21 5 FF FF FF FF FD D/ /1 16 67 77 77 72 21 13 3 F F F FF FF C /1 /1 6 77 77 7 21 21 2 F F FF FF F B/ B/ 1 67 67 7 72 72 1 1 FFFFFA/16777210 C O M M A ND ND E X E C U TE TE D
The execution printout of command example 4 is: BSC
BSC-LAB
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EE - Base Station Controller Parameter Handling in BSC
LAC TO SPC MAPPIN NG G I N FO FO M O DI DI F IE IE D MA AP PP PI IN NG G EN NT TR RY Y IN ND DE EX X .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. . . (M (M E EI I ) .. .. . .. . 1 LO OC CA AT TI IO ON AR RE EA CO OD DE .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. . . .. .. . .. . . (L (L A AC C ) .. .. . .. . 3 SI IG GN NA AL LI IN NG G PO PO I IN NT CO OD DE ES S (H (H / /D D) ): : FF FF FF FF FF F/ /1 16 67 77 77 72 21 15 5 FF FF FF FF FD D/ /1 16 67 77 77 72 21 13 3 F F FF FF F C/ C/ 1 67 67 7 72 72 1 2 F F FF FF F B/ B/ 1 67 67 7 72 72 1 1 FFFFFA/16777210 C O M M A ND ND E X E C U TE TE D
Semantic error messages
If an error occurs, the general semantic error messages of the MML commands are output. For more information, see General Notice Messages of MML Session.
Execution error messages
For more information, see Radio Network Administration.
In addition, the general execution error messages of MML commands are used. For more information, see General Error Messages of System.
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EES OUTPUT LAC TO SPC MAPPING INFO
EES OUTPUT LAC TO SPC MAPPING INFO Function
With the EES command you output the LAC to SPC mapping info in the BSDATA. The command is optional.
Parameters
mapping entry index, location area code;
Syntax EE ES S:
[[ M ME EI = > .. .. . | LAC = e> . . .. . ] | > de ef f ] ;
Parameter explanations
mapping entry index MEI = decimal number With this parameter you define the mapping entry index which is an indication for a mapping relation between the location area code and the signaling signaling point code in the LAC to SPC mapping info. The values range from 1 to 64. You can give multiple mapping entry indexes by using the characters & and &&. The default value is 'all'. If you give this parameter, you cannot give the parameter LAC. location area code LAC = decimal number With this parameter you define the location area code which will be mapped with a signaling point code. The values range from 1 to 65533. You can give multiple location area codes by using the characters & and &&. The default value is 'all'. If you give this parameter, you cannot give the parameter MEI.
DN9813184 Issue 19-1 en
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EE - Base Station Controller Parameter Handling in BSC
Examples
1.
Output Output the LAC LAC to to SPC SPC mappi mapping ng info info whose whose locati location on area area code codess are 999 and 1000.
ZEES:LAC=999&1000; 2.
Output Output the LAC to SPC SPC mapp mapping ing info info whose whose mapp mapping ing entry entry index index is 2.
ZEES:MEI=2; 3.
Outp Output ut all all LA LAC C to SPC SPC mapp mappin ing g info info..
ZEES; Execution printouts The execution printout of command example 1 is: BSC
BSC-LAB
200 4-09- 09
11:11: 32
LA AC C TO SP PC C MA AP PP PI IN NG G IN NF FO DA AT TA MA AP PP PI IN NG G EN NT TR RY Y IN ND DE EX X .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. . . (M (M E EI I ) .. .. . .. . 1 L O CA CA T IO IO N A R EA EA CO CO D E . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . ( LA LA C ). ). . .. .. 999 SI IG GN NA AL LI IN NG G PO PO I IN NT CO OD DE ES S (H (H / /D D) ): : FF FF FF FF FF F/ /1 16 67 77 77 72 21 15 5 FF FF FF FF FE E/ /1 16 67 77 77 72 21 14 4 F F FF FF F D/ D/ 1 67 67 7 72 72 1 3 F F FF FF F C/ C/ 1 67 67 7 72 72 1 2 F F FF FF F B/ B/ 1 67 67 7 72 72 1 1 F F FF FF F A/ A/ 1 67 67 7 72 72 1 0 MA AP PP PI IN NG G EN NT TR RY Y IN ND DE EX X .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. . . (M (M E EI I ) .. .. . .. . 2 L O CA CA T IO IO N A R E A C O DE DE . . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . .. .. . ( LA LA C ). ). . .. .. 1 0 00 00 SI IG GN NA AL LI IN NG G PO PO I IN NT CO OD DE ES S (H (H / /D D) ): : 00 00 01 1F FF F/ /0 00 00 00 00 05 51 11 1 00 01 10 0F FF F/ /0 00 00 00 04 43 35 51 1 0 1 00 00 F F/ F/ 0 00 00 6 57 57 9 1 1 0 00 00 F F/ F/ 0 10 10 4 88 88 3 1 C O M M A ND ND E X E C U TE TE D
Semantic error messages
If an error occurs, the general semantic error messages of the MML commands are output. For more information, see General Notice Messages of MML Session.
Execution error messages
For more information, see Radio Network Administration.
In addition, the general execution error messages of MML commands are used. For more information, see General Error Messages of System.
138 (138)
# Nokia Corporation
DN9813184 Issue 19-1 en