LG Electronics USA 3G1XOUTBTS STAREX-IS 1900 Outdoor BTS User Manual STAREX IS User s Manual

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Date Submitted	2001-11-09 00:00:00
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STAREX-IS BSM Manual
4.3.6. Network
Parameter
Information
Change
(Change_Parameter_Info_3)
4.3.6.1. CAN INTER BSC AAL2 Setting Information Change
• Command
CHG-CAN-IUR: BSC=a, [BSC0_AAL2=b], [BSC1_AAL2=c],
[BSC2_AAL2=d], [BSC3_AAL2=e], [BSC4_AAL2=f],
[BSC5_AAL2=g], [BSC6_AAL2=h], [BSC7_AAL2=i],
[BSC8_AAL2=j],[BSC9_AAL2=k],[BSC10_AAL2=l],
[BSC11_AAL2=m], [NO_AAL2_VC=n];
• Input CHG-CAN-IUR: BSC=0, BSC0_AAL2=255
• Output
SMD-011-PMA210
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4.3.6.2. CAN INTER BSC AAL5 Setting Information Change
• Command CHG-CAN-BSC: [CAN0_START_AAL5=a],
[CAN1_START_AAL5=b], [NO_AAL5_VC=0~],
a ,b: 0~0xffffff
c: 0~
• Input CHG-CAN-BSC: CAN0_START_AAL5=255
• Output
SMD-011-PMA210
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4.3.6.3. CPN INTER DATA AAL5 Setting Information Change
• Command CHG-CPN-DATA: [BSC0_AAL5=a], [BSC1_AAL5=b], [BSC2_AAL5=c],
[BSC3_AAL5=d], [BSC4_AAL5=e], [BSC5_AAL5=f],
[BSC6_AAL5=g], [BSC7_AAL5=h], [BSC8_AAL5=i],
[BSC9_AAL5=j], [BSC10_AAL5=k], [BSC11_AAL5=l],
[NO_AAL5_VC=m];
a ~n: BSC AAL5 (32~0xffffff)
m: 0~32
• Input CHG-CPN-DATA: BSC0_AAL5=255;
• Output
SMD-011-PMA210
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4.3.6.4. CPN INTER PCF AAL5 Setting Information Change
• Command CHG-CPN-PCF: [PIP0_0_AAL5=a], [PIP0_1_AAL5=b], [PIP1_0_AAL5=c],
[PIP1_1_AAL5=d], [PIP2_0_AAL5=e], [PIP2_1_AAL5=f],
[PIP3_0_AAL5=g], [PIP3_1_AAL5=h], [PIP4_0_AAL5=i],
[PIP4_1_AAL5=j], [PIP5_0_AAL5=k], [PIP5_1_AAL5=l],
[PIP6_0_AAL5=m], [PIP6_1_AAL5=n], [PIP7_0_AAL5=o],
[PIP7_1_AAL5=p], [PIP8_0_AAL5=q], [PIP8_1_AAL5=r],
[PIP9_0_AAL5=s], [PIP9_1_AAL5=t], [PIP10_0_AAL5=u],
[PIP10_1_AAL5=v], [NO_AAL5_VC=w]
a~v: PIP AAL5 (32~0xffffff)
w: 0~480
• Input CHG-CPN-PCF: PIP0_0_AAL5=255 ;
• Output
SMD-011-PMA210
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4.3.6.5. BSC INTER BSC AAL2 Setting Information Change
•
Command
CHG-BSC-IUR:
BSC=a,
[BSC0_AAL2=b],
[BSC1_AAL2=c],
[BSC2_AAL2=d],
[BSC3_AAL2=e], [BSC4_AAL2=f], [BSC5_AAL2=g],
[BSC6_AAL2=h], [BSC7_AAL2=i], [BSC8_AAL2=j],
[BSC9_AAL2=k], [BSC10_AAL2=l], [BSC11_AAL2=m],
[NO_AAL2_VC=n];
a : BSC Number(0~11)
b~m: BSC AAL2 (0~0xffffff)
n: 0~
• Input CHG-BSC-IUR: BSC=0, BSC0_AAL2=255;
• Output
SMD-011-PMA210
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4.3.6.6. BSC INTER BTSC AAL2 Setting Information Change
• Command CHG-BSC-IUB: BSC=a, BTS=b, LICA=c, LINK=d,
[LINK0_AAL2=e], [LINK1_AAL2=f], [LINK2_AAL2=g],
[LINK3_AAL2=h], [LINK4_AAL2=i], [LINK5_AAL2=j],
[LINK6_AAL2=k], [LINK7_AAL2=l], [LINK8_AAL2=m],
[LINK9_AAL2=n], [LINK10_AAL2=o], [LINK11_AAL2=p],
[LINK12_AAL2=q], [LINK13_AAL2=r], [LINK14_AAL2=s],
[LINK15_AAL2=t]
a : BSC Number(0~11)
b : BTS Number(0~47)
c : LICA Number(0~2)
d : LINK Number(0~15)
e~t: 0~0xffffff
• Input CHG-BSC-IUB: BSC=0, BTS=0, LICA=0, LINK0_AAL2=255;
• Output
SMD-011-PMA210
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4.3.6.7. BSC INTER CAN AAL2/5 Setting Information Change
• Command CHG-BSC-CAN: BSC=a, [CAN0_START_AAL5=b],
[CAN1_START_AAL5=c], [NO_AAL5_VC=d]
a: BSC Number(0~11)
b,c: 32~0xffffff
d: 0~8160
• Input CHG-BSC-CAN: BSC=0, CAN0_START_AAL5=255;
• Output
SMD-011-PMA210
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4.3.6.8. BSC INTER SLB AAL5 Setting Information
•
Command
CHG-BSC-SLB:
BSC=a,
[SLP0_AAL5=b],
[SLP1_AAL5=c],
[SLP2_AAL5=d],
[SLP3_AAL5=e], [SLP4_AAL5=f], [SLP5_AAL5=g],
[SLP6_AAL5=h], [SLP7_AAL5=i], [SLP8_AAL5=j],
[SLP9_AAL5=k], [SLP10_AAL5=l], [SLP11_AAL5=m],
[SLP12_AAL5=n], [SLP13_AAL5=o], [SLP14_AAL5=p],
[SLP15_AAL5=q], [SLP16_AAL5=r], [SLP17_AAL5=s],
[NO_AAL5_VC=t]
a: BSC Number(0~11)
b~s: 40~0xffffff
t: 0~984
• Input CHG-BSC-SLB: BSC=0, SLP0_AAL5=255;
• Output
SMD-011-PMA210
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4.3.6.9. BSC INTER VCB AAL5 Setting Information Change
• Command CHG-BSC-VCB: BSC=a,
[VCP0_AAL5=b], [VCP1_AAL5=c], [VCP2_AAL5=d],
[VCP3_AAL5=e], [VCP4_AAL5=f], [VCP5_AAL5=g],
[VCP6_AAL5=h], [VCP7_AAL5=i], [VCP8_AAL5=j],
[VCP9_AAL5=k], [VCP10_AAL5=l], [VCP11_AAL5=m],
[VCP12_AAL5=n], [VCP13_AAL5=o], [VCP14_AAL5=p],
[VCP15_AAL5=q], [NO_AAL5_VC=r]
a: BSC Number(0~11)
b~q: 40~0xffffff
r: 0~88
• Input CHG-BSC-VCB: BSC=0, VCP0_AAL5=255;
• Output
SMD-011-PMA210
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4.3.6.10. BSC INTER ALB AAL5 Setting Information Change
• Command CHG-BSC-ALB: BSC=a,
[ALMA0_ALP0_0=b], [ALMA0_ALP0_1=c], [ALMA0_ALP1_0=d],
[ALMA0_ALP1_1=e], [ALMA0_ALP2_0=f], [ALMA0_ALP2_1=g],
[ALMA0_ALP3_0=h], [ALMA0_ALP3_1=i], [ALMA0_ALP4_0=j],
[ALMA0_ALP4_1=k], [ALMA1_ALP0_0=l], [ALMA1_ALP0_1=m],
[ALMA1_ALP1_0=n], [ALMA1_ALP1_1=o], [ALMA1_ALP2_0=p],
[ALMA1_ALP2_1=q], [ALMA1_ALP3_0=r], [ALMA1_ALP3_1=s],
[ALMA1_ALP4_0=t], [ALMA1_ALP4_1=u], [NO_AAL5_VC=v]
a: BSC Number(0~11)
b~u: 32~0xffffff
v: 0~2016
• Input CHG-BSC-ALB: BSC=0, ALMA0_ALP0_0=255;
• Output
SMD-011-PMA210
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4.3.6.11. BTS INTER RCU AAL5 Setting Information Change
• Command CHG-BTS-RCU: BSC=a, BTS=b, RCU=c,
[LICA0_AAL5=d], [LICA1_AAL5=e], [LICA2_AAL5=f],
[LICA0_NO_VC=g], [LICA1_NO_VC=h], [LICA2_NO_VC=i]
a: BSC Number(0~11)
b:BTS Number(0~47)
c: RCU Number(0~9)
d~i: 0~
• Input CHG-BTS-RCU: BSC=0,BTS=0,RCU=0, LICA0_AAL5=255;
• Output
SMD-011-PMA210
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4.3.7. Configuration
Information
Display(Display_Configuration_Data)
This section describes the comands that are used to inquire the configuration
information which is related to processors, devices, and overhead channels which are
currently used in BTS and BSC.
Table 4.3-3 Configuration Information Display
CRN
MMC
2101
DIS-BSS-CONF
2103
DIS-SMP-CONF
2105
DIS-VMP-CONF
2112
DIS-BTS-CONF
2115
DIS-CHIP-CONF
2125
DIS-OVHD-CONF
2133
DIS-PDSN-CONF
SMD-011-PMA210
Description
BSS
configuration
information
verification
SMP
configuration
information
verification
VMP
configuration
information
verification
BTS
configuration
information
verification
DBPA CHIP configuration information
verification
OVERHEAD
CHANNEL
configuration
information verification
PDSN
configuration
information
verification
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4.3.7.1. BSS Configuration Information Verification
This is a command to check the BTS, Processors and PCF counts in the BSC.
• Command DIS-BSS-CONF: BSC=a;
• Input DIS-BSS-CONF: BSC=0;
• Output
Fig. 4.3-126 BSS Configuration Information Display
SMD-011-PMA210
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4.3.7.2. SMP Configuration Information Verification
• Command DIS-SMP-CONF: BSC=a;
a: BSC Number(#0~11)
• Input DIS-SMP-CONF: BSC=0;
• Output
Fig. 4.3-127 SMP Configuration Information Display
SMD-011-PMA210
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4.3.7.3. VMP Configuration Information Verification
• Command DIS-VMP-CONF: BSC=a;
a: BSC Number(#0~11)
• Input DIS-VMP-CONF: BSC=0;
• Output
Fig. 4.3-128 VMP Configuration Information Display
SMD-011-PMA210
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4.3.7.4. BTS Configuration Information Verification
• Command DIS-BTS-CONF: BSC=a, BTS=b;
a: BSC Number(#0~11)
b: BTS Number(#0~47)
• Input DIS-BTS-CONF: BSC=0, BTS=0;
• Output
Fig. 4.3-129 BTS Configuration Information Display
SMD-011-PMA210
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4.3.7.5. DBPA CHIP Configuration Information Verification
• Command DIS-CHIP-CONF: BSC=a, BTS=b;
a: BSC Number(#0~11)
b: BTS Number(#0~47)
• Input DIS-CHIP-CONF: BSC=0, BTS=0;
• Output
Fig. 4.3-130 DBPA CHIP Configuration Information Display
SMD-011-PMA210
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4.3.7.6. OVERHEAD CHANNEL Configuration Information Verification
• Command DIS-OVHD-CONF: BSC=a, BTS=b;
a: BSC Number(#0~11)
b: BTS Number(#0~47)
• Input DIS-OVHD-CONF: BSC=0, BTS=0;
• Output
Fig. 4.3-131 OVHD Channel Configuration Information Display
SMD-011-PMA210
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4.3.7.7. PDSN Configuration Information Verification
• Command DIS-PDSN-CONF: PCP=a;
a: PCP Number(#0~2)
• Input DIS-PDSN-CONF: PCP=0;
• Output
Fig. 4.3-132 PDSN Configuration Information Display
SMD-011-PMA210
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4.3.8. Configuration
Information
Change
(Change_Configuration_Data)
This section describes commands that are used to add or delete BTS and BSC
processors and devices. The configuration information that can be added and deleted
are presented below. For the command that has many parameters to input, input image
on the inpout Widow. This section does not cover details of each parameter.
Table 4.3-4 Configuration Information Change
CRN
C2312
MMC
CHG-BTS-CONF
C2315
Description
BTS configuration information change
Channel
CHG-CHIP1-CONF
C2317
Card
Chip
configuration
information(1) change
Channel Card Chip configuration
CHG-CHIP2-CONF
information(2) change
C2333
ADD-PDSN-CONF
PDSN CONFIG addition
C2334
RMV-PDSN-CONF
PDSN CONFIG deletion
C2335
CHG-PDSN-CONF
PDSN CONFIG change
C2337
ADD-PDSN-NODE
PDSN NODE addition
C2338
RMV-PDSN-NODE
PDSN NODE deletion
C2339
CHG-PDSN-NODE
PDSN NODE change
C2601
MOV-BSC-NODE
BSC Node movement
C2602
MOV-PCF-NODE
PCF Node movement
C2603
MOV-SMP-NODE
SMP Node movement
C2604
MOV-VMP-NODE
VMP Node movement
C2605
MOV-BTS-ID
BTS ID movement
C2606
MOV-BTS-TRNK
BTS TRUNK Node movement
C2607
MOV-LICA-LINK
LICA LINK movement
C2610
MOV-OVHD-CONF
OVERHEAD
CHANNEL
information movement
C2701
ADD-BSC-CONF
BSC configuration addition
C2702
RMV-BSC-CONF
BSC configuration deletion
C2711
ADD-PCF-CONF
PCF configuration addition
C2712
RMV-PCF-CONF
PCF configuration deletion
SMD-011-PMA210
configuration
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C2721
ADD-SMP-CONF
SMP configuration addition
C2722
RMV-SMP-CONF
SMP configuration deletion
C2731
ADD-VMP-CONF
VMP configuration addition
C2732
RMV-VMP-CONF
VMP configuration deletion
C2741
ADD-BTS-CONF
BTS configuration addition
C2742
RMV-BTS-CONF
BTS configuration deletion
C2751
ADD-SECT-CONF
SECTOR configuration addition
C2752
RMV-SECT-CONF
SECTOR configuration deletion
C2761
ADD-FA-CONF
FA configuration addition
C2762
RMV-FA-CONF
FA configuration deletion
C2771
C2772
ADD-TRNK-CONF
RMV-TRNK-CONF
BSC-BTS
TRUNK
configuration
TRUNK
configuration
addition
BSC-BTS
deletion
C2781
ADD-CAN-PVC
CAN PVC configuration addition
C2782
RMV-CAN-PVC
CAN PVC configuration deletion
C2783
ADD-CPN-PVC
CPN PVC configuration addition
C2784
RMV-CPN-PVC
CPN PVC configuration deletion
C2785
ADD-BSC-PVC
BSC PVC configuration addition
C2786
RMV-BSC-PVC
BSC PVC configuration deletion
SMD-011-PMA210
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4.3.8.1. BTS Configuration Information Change
• Command CHG-BTS-CONF :BSC=a ,BTS=b [,PA_TYPE=c] [,ANT_TYPE=d]
[,ANT_DUP=e] [,RX_DIV=f] [,LNA_EQP=g] [,RISA_EQP=h] [,BOTA_EQP=i];
• Input CHG-BTS-CONF: BSC=0, BTS=0,PA_TYPE=FA_NEQ;
• Output
Fig. 4.3-133 BTS Configuration Information Change Display
SMD-011-PMA210
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4.3.8.2. Channel Card Chip Configuration Information (1) Change
•
Command
CHG-CHIP1-CONF
:BSC=a
,BTS=b
[,SECT_GAIN_A=c]
[,SECT_GAIN_B=d]
[,SECT_GAIN_G=e]
[,SECT_GAIN_D=f]
[,SECT_GAIN_E=g]
[,SECT_GAIN_Z=h]
[,T_DIV_SECT_A=i]
[,T_DIV_SECT_B=j]
[,T_DIV_SECT_G=k]
[,T_DIV_SECT_D=l]
[,T_DIV_SECT_E=m]
[,T_DIV_SECT_Z=n]
[,SECT_T_ADV_B=p]
[,SECT_T_ADV_A=o]
[,SECT_T_ADV_G=q]
[,SECT_T_ADV_D=r]
[,SECT_T_ADV_E=s] [,SECT_T_ADV_Z=t]
[,T_DIV_T_ADV_A=u]
[,T_DIV_T_ADV_B=v]
[,T_DIV_T_ADV_D=x]
[,T_DIV_T_ADV_E=y]
SMD-011-PMA210
[,T_DIV_T_ADV_G=w]
[,T_DIV_T_ADV_Z=z];
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• Input CHG-CHIP1-CONF:BSC=0, BTS=0,SECT_GAIN_A=255;
• Output
Fig. 4.3-134 Channel Card Chip Configuration Information (1) Change Display
SMD-011-PMA210
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4.3.8.3. Channel Card Chip Configuration Information (2) Change
• Command CHG-CHIP2-CONF :BSC=a ,BTS=b [,NUM_CHIP=c] [,SECT_T_IO=d]
[,CELL_RADIUS=e]
[,MAX_RACH_F=h]
[,MAX_REACH_S=k]
[,REV_IN_FORM=f] [,R_CELL_MODE=g]
[,MAX_RACH_S=i]
[,SRCH_WIN_ADJ=l]
[,MAX_CDMA2K=n] [,CSM_MODE=o]
SMD-011-PMA210
[,MAX_REACH_F=j]
[,MAX_CH95=m]
[,DIV_SCALE_2K=p];
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• Input CHG-CHIP2-CONF: BSC=0, BTS=0,NUM_CHIP=255;
• Output
Fig. 4.3-135 Channel Card Chip Configuration Information (2) Change Display
SMD-011-PMA210
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4.3.8.4. PDSN CONFIG Addition
• Command ADD-PDSN-CONF :PCF=a ,PDSN_IDX=b ,PDSN_IP=c;
• Input ADD-PDSN-CONF: BSC=0, BTS=0,PDSN_IP=255.255.255.0;
• Output
Fig. 4.3-136
SMD-011-PMA210
PDSN Configuration Addition Display
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4.3.8.5. PDSN CONFIG Deletion
• Command RMV-PDSN-CONF :PCF=a ,PDSN_IDX=b;
• Input RMV-PDSN-CONF: BSC=0, BTS=0,PDSN_IDX=1;
• Output
Fig. 4.3-137
SMD-011-PMA210
PDSN Configuration Deletion Display
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4.3.8.6. PDSN CONFIG Change
• Command CHG-PDSN-CONF :PCF=a ,PDSN_IDX=b ,PDSN_IP=c;
• Input CHG-PDSN-CONF: BSC=0, BTS=0,PDSN_IP=127.0.0.1;
• Output
Fig. 4.3-138
SMD-011-PMA210
PDSN Configuration Change Display
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4.3.8.7. PDSN NODE Addition
• Command ADD-PDSN-NODE :PCF=a ,PDSN_IDX=b ,PDSN_NODE_IDX=c ,
PDSN_NODE_IP=d ,SSK_VALUE=e
• Input ADD-PDSN-NODE: BSC=0, BTS=0,PDSN_NODE_IDX=0,
PDSN_NODE_IP:128.128.128.128;
• Output
Fig. 4.3-139
SMD-011-PMA210
PDSN NODE Addition Display
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4.3.8.8. PDSN NODE Deletion
• Command RMV-PDSN-NODE :PCF=a ,PDSN_IDX=b ,PDSN_NODE_IDX=c;
• Input RMV-PDSN-NODE: BSC=0, BTS=0,PDSN_IDX=0,PDSN_NODE_IDX=0;
• Output
Fig. 4.3-140
SMD-011-PMA210
PDSN NODE Deletion Display
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4.3.8.9. PDSN NODE Change
• Command CHG-PDSN-NODE :PCF=a ,PDSN_IDX=b ,PDSN_NODE_IDX=c
[,PDSN_NODE_IP=d] [,SSK_VALUE=e]
• Input CHG-PDSN-NODE: BSC=0, BTS=0,PDSN_IDX=0,PDSN_NODE_IDX=0,
PDSN_NODE_IP=100.100.0.1, SSK_VALUE=gamdok;
• Output
Fig. 4.3-141
SMD-011-PMA210
PDSN NODE Change Display
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4.3.8.10. BSC Node Movement
• Command MOV-BSC-NODE :T_PROC=a ,BSC=b ,CARD=c ,LINK=d;
• Input MOV-BSC-NODE: T_PROC=CNP,BSC=0,CARD=1,LINK=6;;
• Output
Fig. 4.3-142
SMD-011-PMA210
BSC NODE Movement Display
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4.3.8.11. PCF Node Movement
• Command MOV-PCF-NODE :PCF=a ,CARD0=b ,LINK0=c ,CARD1=d ,LINK1=e
,CARD2=f ,LINK2=g ,CARD3=h ,LINK3=i;
• Input MOV-PCF-NODE: BSC=0, BTS=0,PA_TYPE=FA_NEQ;
• Output
SMD-011-PMA210
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4.3.8.12. SMP Node Movement
• Command MOV-SMP-NODE :BSC=a ,SMP=b ,CARD=c ,LINK=d;
• Input MOV-SMP-NODE: BSC=0, SMP=0,CARD=1,LINK=6
• Output
Fig. 4.3-143
SMD-011-PMA210
SMP NODE Movement Display
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4.3.8.13. VMP Node Movement
• Command MOV-VMP-NODE :BSC=a ,VMP=b ,CARD=c ,LINK=d;
• Input MOV-VMP-NODE: BSC=0, VMP=0, CARD=1, LINK=6;
• Output
Fig. 4.3-144
SMD-011-PMA210
VMP NODE Movement Display
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4.3.8.14. BTS ID Movement
• Command MOV-BTS-ID :BSC=a ,OLD_BTS=b ,NEW_BTS=c;
• Input MOV-BTS-ID: BSC=0, OLD_BTS=0,NEW_BTS=2;
• Output
Fig. 4.3-145
SMD-011-PMA210
BTS ID Movement Display
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4.3.8.15. BTS TRUNK Node Movement
For this command, execute DIS-TRNK-DATA first to input the parameter value.
• Command
MOV-BTS-TRNK :BSC=a ,BTS=b ,OLD_ALMA=c ,OLD_ALPA=d ,
OLD_ALPA_LINK=e ,NEW_ALMA=f ,NEW_ALPA=g ,NEW_ALPA_LINK=h;
• Input MOV-BTS-TRNK: BSC=0, BTS=2,
OLD_ALMA=0,OLD_ALPA=0,OLD_ALPA_LINK=0,
NEW_ALMA=1,NEW_ALPA=1,NEW_ALPA_LINK=1;
• Output
Fig. 4.3-146
SMD-011-PMA210
BTS TRUNK Movement display
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4.3.8.16. LICA LINK Movement
•
Command
MOV-LICA-
LINK :BSC=a ,BTS=b ,OLD_LICA=c ,OLD_LINK=d ,NEW_LICA=e
,NEW_LINK=f;
• Input MOV-LICA-LINK: BSC=0, BTS=1,
OLD_LICA=0, OLD_LINK=0,
NEW_LICA=1, NEW_LINK=1;
• Output
Fig. 4.3-147
SMD-011-PMA210
LICA LINK Movement Display
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4.3.8.17. OVERHEAD CHANNEL Configuration Information Movement
Refer to DIS-OVHD-CONF command
• Command MOV-OVHD-CONF :BSC=a ,BTS=b ,SECT=c ,CDMACH=d ,
NEW_CHC=e ;
• Input MOV-OVHD-CONF: BSC=0, BTS=0,
SECTOR=ALPHA,CDMACH=0,NEW_CHC=1;
• Output
Fig. 4.3-148
OVHD Channel Configuration Information Movement Display
SMD-011-PMA210
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4.3.8.18. BSC Configuration Addition
• Command ADD-BSC-CONF :T_PROC=a ,BSC=b ,CARD=c ,LINK=d;
• Input ADD-BSC-CONF: BSC=0, BTS=0,PA_TYPE=FA_NEQ;
• Output
SMD-011-PMA210
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4.3.8.19. BSC Configuration Deletion
• Command RMV-BSC-CONF :T_PROC=a ,BSC=b;
• Input RMV-BSC-CONF: BSC=0, BTS=0,PA_TYPE=FA_NEQ;
• Output
SMD-011-PMA210
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4.3.8.20. PCF Configuration Addition
• Command ADD-PCF-CONF :PCF=a ,CARD0=b ,LINK0=c ,CARD1=d ,LINK1=e
,CARD2=f ,LINK2=g ,CARD3=h ,LINK3=i;
•
Input
ADD-PCF-
CONF:PCF=1,CARD0=3,LINK0=4,CARD1=3,LINK1=4,CARD2=3,LINK2=4,CARD3=3,LI
NK3=4;
• Output
Fig. 4.3-149
SMD-011-PMA210
PCF Configuration Addition Display
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4.3.8.21. PCF Configuration Deletion
• Command RMV-PCF-CONF :PCF=a;
• Input RMV-PCF-CONF: PCF=1;
• Output
Fig. 4.3-150
SMD-011-PMA210
PCF Configuration Deletion Display
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4.3.8.22. SMP Configuration Addition
• Command ADD-SMP-CONF :BSC=a ,SMP=b ,CARD=c ,LINK=d;
• Input ADD-SMP-CONF: BSC=0,SMP=0,CARD=1,LINK=7;
• Output
Fig. 4.3-151
SMD-011-PMA210
SMP Configuration Addition Display
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4.3.8.23. SMP Configuration Deletion
• Command
RMV-SMP-CONF :BSC=a ,SMP=b;
• Input RMV-SMP-CONF: BSC=0, SMP=0;
• Output
Fig. 4.3-152
SMD-011-PMA210
SMP Configuration Deletion Display
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4.3.8.24. VMP Configuration Addition
• Command ADD-VMP-CONF :BSC=a ,VMP=b ,CARD=c ,LINK=d;
• Input ADD-VMP-CONF: BSC=0,VMP=0,CARD=1,LINK=5;
• Output
Fig. 4.3-153
SMD-011-PMA210
VMP Configuration Addition Display
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4.3.8.25. VMP Configuration Deletion
• Command RMV-VMP-CONF :BSC=a ,VMP=b;
• Input RMV-VMP-CONF: BSC=0, VMP=0;
• Output
Fig. 4.3-154
SMD-011-PMA210
VMP Configuration Deletion Display
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4.3.8.26. BTS Configuration Addition
•
Command
ADD-BTS-
CONF :BSC=a ,BTS=b ,B_TYPE=c ,SECT_EQP=d ,SECT_RANGE=e
,ALMA=f ,ALPA=g ,ALPA_LINK=h ,LICA=i ,LICA_LINK=j
,FA0_CH_NUM=k ,PN_ALPHA=l [,PN_BETA=m]
[,PN_GAMMA=n] [,PN_DELTA=o] [,PN_EPSILON=p]
[,PN_ZETA=q] [,PA_TYPE=r] [,ANT_TYPE=s] [,LNA_TYPE=t]
[,RISA_EQP=u] [,BOTA_EQP=v];
• Input Input ADD-BTS-CONF: BSC=0, BTS=0; -> ADD-BTS-CONF: BSC=1,
BTS=0,B_TYPE=STANDARD,SECT_EQP=OMNI;
• Output
SMD-011-PMA210
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4.3.8.27. BTS Configuration Deletion
• Command
RMV-BTS-CONF :BSC=a ,BTS=b;
• Input RMV-BTS-CONF: BSC=1, BTS=0;
• Output
Fig. 4.3-155
SMD-011-PMA210
BTS Configuration Deletion Display
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4.3.8.28. SECTOR Configuration Addition
• Command ADD-SECT-CONF :BSC=a ,BTS=b ,SECT=c ,PN=d;
• Input ADD-SECT-CONF: BSC=0, BTS=0,PA_TYPE=FA_NEQ;
• Output
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4.3.8.29. SECTOR Configuration Deletion
• Command RMV-SECT-CONF :BSC=a ,BTS=b ,SECT=c;
• Input RMV-SECT-CONF: BSC=0, BTS=0,PA_TYPE=FA_NEQ;
• Output
SMD-011-PMA210
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4.3.8.30. FA Configuration Addition
• Command ADD-FA-CONF :BSC=a ,BTS=b ,FA=c ,CH_NUM=d;
• Input ADD-FA-CONF: BSC=1, BTS=0,FA=0,CH_NUM=25;
• Output
Fig. 4.3-156
SMD-011-PMA210
FA Configuration Addition Display
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4.3.8.31. FA Configuration Deletion
• Command
RMV-FA-CONF :BSC=a ,BTS=b ,FA=c;
• Input RMV-FA-CONF: BSC=1, BTS=0,FA=0;
• Output
Fig. 4.3-157
SMD-011-PMA210
FA Configuration Deletion Display
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4.3.8.32. BSC-BTS TRUNK Configuration Addition
• Command
ADD-TRNK-CONF :BSC=a ,BTS=b ,ALMA=c ,ALPA=d ,ALPA_LINK=e
,LICA=f ,LICA_LINK=g ,ALLOC_TYPE=h;
• Input ADD-TRNK-CONF: BSC=0, BTS=0,PA_TYPE=FA_NEQ;
• Output
SMD-011-PMA210
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4.3.8.33. BSC-BTS TRUNK Configuration Deletion
• Command
RMV-TRNK-CONF :BSC=a ,BTS=b ,ALMA=c ,ALPA=d ,ALPA_LINK=e ;
• Input RMV-TRNK-CONF: BSC=0, BTS=0,PA_TYPE=FA_NEQ;
• Output
SMD-011-PMA210
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4.3.8.34. CAN PVC Configuration Addition
• Command ADD-CAN-PVC :NODE_A=a ,NODE_B=b ,VPCI_A=c ,VPCI_B=d
[,NO_VC=e] ;
•
Input
ADD-CAN-PVC:
NODE_A=CTYPE_BSM_A,
NODE_B=CTYPE_CNP_A,
VPCL_A=0,VPCL_B=0;
• Output
Fig. 4.3-158
SMD-011-PMA210
CAN PVC Configuration Addition Display
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4.3.8.35. CAN PVC Configuration Deletion
• Command RMV-CAN-PVC :INDEX=a;
• Input RMV-CAN-PVC: INDEX=0;
• Output
Fig. 4.3-159
SMD-011-PMA210
CAN PVC Configuration Deletion Display
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4.3.8.36. CPN PVC Configuration Addition
• Command ADD-CPN-PVC :NODE_A=a ,NODE_B=b ,VPCI_A=c ,VPCI_B=d
[,NO_VC=e] ;
•
Input
ADD-CPN-PVC:NODE_A=CTYPE_CAN_A,
NODE_B=CTYPE_CAN_B,
VPCI_A=0, VPCI_B=0;
• Output
Fig. 4.3-160
SMD-011-PMA210
CPN PVC Configuration Addition Display
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4.3.8.37. CPN PVC Configuration Deletion
• Command
RMV-CPN-PVC :INDEX=a;
• Input RMV-CPN-PVC: INDEX=0;
• Output
Fig. 4.3-161
SMD-011-PMA210
CPN PVC Configuration Deletion Display
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4.3.8.38. BSC PVC Configuration Addition
• Command ADD-BSC-PVC :BSC=a ,NODE_A=b ,NODE_B=c ,VPCI_A=d ,VPCI_B=e
[,NO_VC=f];
• Input ADD-BSC-PVC:BSC=0, NODE_A=CTYPE_CCP_A, NODE_B=CTYPE_CCP_B,
VPCI_A=0, VPCI_B=0;
• Output
Fig. 4.3-162
SMD-011-PMA210
BSC PVC Configuration Addition Display
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4.3.8.39. BSC PVC Configuration Deletion
• Command
RMV-BSC-PVC :BSC=a ,INDEX=b;
• Input RMV-BSC-PVC:BSC=0, INDEX=0;
• Output
Fig. 4.3-163 BSC PVC Configuration Deletion Display
SMD-011-PMA210
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4.4. STATUS COMMAND
4.4.1 PROCESSOR STATUS CONTROL
Table 4.4-1 Processor Status LIST
Status Types
Definition
NORM
NORMAL
ABNM
Abnormal
DCPY
Dual Copy
LDNG
StandBy Loading
NORM(OLD)
Normal (After StandBy Loading, Old version)
NORM(NEW)
Normal (After StandBy Loading, New version)
ABN_K
Abnormal with Keep Alive Fault
ABN_I
Abnormal with Process Isolation
UNDEF
Undefined Status
4.4.1.1. BSM CAN PROCESSOR STATUS DISPLAY COMMAND
Function to display processor status inserted in CAN.
Command : DIS-CAN-PRC;
Input : DIS-CAN-PRC;
Fig. 4.4-1 Result of CAN Processor Status Display Command
SMD-011-PMA210
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4.4.1.2. BSC Processor Status Display Command
Function to display Processor status inserted in BSC.
Command : DIS-BSC-PRC[:BSC=a];
a : BSC Number(0~11)
Input : DIS-BSC-PRC:BSC=0;
Fig. 4.4-2 Result of BSC Processor Status Display
4.4.1.3. Status Display Command of BTS Processor
Function to display operation status of processors mounted in all the BTSs within the
corresponding BSC or in each BTS
Command : DIS-BTS-STS:BSC=a[,BTS=b];
a:BSC Number (0~11)
b:BTS Number (0~47)
Input : DIS-BTS-STS:BSC=0,BTS=0;
Output
Fig. 4.4-3 Result of BTS Processor Status Display Command
SMD-011-PMA210
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4.4.1.4. Processor Restart Command
Function to restart Processors
• Command : RST-PRC[:BSC=a][,BTS=b],RANGE=c,SIDE=d,CLS=e;
a : BSC Number (0~11)
b : BTS Number (0~47)
c : Scope of restart(All the Processors of CCP, PNP,NCP,PCP., etc.)
d : Side to restart (A,B,BOTH)
e : Class (RESTART, REBOOT, FLASH)
RESTART : Restart O/S and receive loading of PLD only.
REBOOT : It executes BOOTER. In case of the processors equipped with Flash
ROM, they check upper level processors and version of each block. If they are
different, they receive loading from the upper level processors. However, if
they are the same, they do not receive loading from the upper level
processors. The processors with no Flash ROM receive loading from the upper
level processors without checking version.
. For reference, Active Side before and after reboot does not change.
FLASH : Delete Flash content of the Processor with Flash ROM equipped and
reboot it to receive loading of all the files from the upper level Processor. For
reference, Active Side before and after Flash Reboot changes.
Input : RST-PRC:BSC=0,BTS=0,RANGE=RCP00,SIDE=A,CLS=RESTART;
Fig. 4.4-4 Result of Processor Restart Command
SMD-011-PMA210
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4.4.1.5. CAN Processor H/W RESET(ISOLATION) COMMAND
Function to reset CAN Processor H/W.
Command : RMT-CAN-PRC:PROC=a,SIDE=b,CLS=c;
a: Processor Name : CNP,PNP,PCP,PMP
b: Side
: A,B
c: CLASS
: HARDRST,ISOLAT,UNISOL
HARDRST : Function to reset Processor on H/W Level (using Register Setting).
ISOLAT
: Function to isolate Processor on H/W Level (maintaining Status of RESET)
UNISOL
: Function to release the isolation
Input : RMT-CAN-PRC:PROC=PNP,SIDE=A,CLS=ISOLAT;
Fig. 4.4-5 CAN Processor H/W Command Result
4.4.1.6. BSC Processor H/W RESET(ISOLATION) COMMAND
Function to reset BSC Processor H/W.
Command : RMT-BSC-PRC:BSC=a,PROC=b,[SIDE=c],CLS=d;
a: BSC Number
b: Processor Name : CCP,NCP,SCP,ALP,SMP,VMP
c: Side
: A,B
d: CLASS
: HARDRST,ISOLAT,UNISOL
HARDRST : Function to RESET Processor on H/W Level (using Register Setting).
ISOLAT
: Function to isolate Processor on H/W Level (RESET Status maintained)
UNISOL
: Function to release isolation
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Input : RMT-BSC-PRC:BSC=0,PROC=NCP,SIDE=A,CLS=ISOLAT;
Fig. 4.4-6 BSC Processor H/W Command Result
4.4.1.7. BTS Processor H/W RESET(ISOLATION) COMMAND
Function to BSC Processor H/W.
Command : RMT-BTS-PRC:BSC=a,BTS=b,PROC=c,[SIDE=d],CLS=e;
a: BSC Number
b: BTS Number
c: Processor Name : BSP,BPP,CRP,RCP(00~05)
d: Side
: A,B
e: CLASS
: HARDRST,ISOLAT,UNISOL
HARDRST : Function to RESET Processor on H/W Level (using Register Setting).
ISOLAT
: Function to isolate Processor on H/W Level (RESET Status maintained)
UNISOL
: Function to release isolation
Input : RMT-BTS-PRC:BSC=0,BTS=0,PROC=BSP,SIDE=A,CLS=ISOLAT;
Fig. 4.4-7 BTS Processor H/W RESET(ISOLATION) Command Display Result
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4.4.1.8. Processor Switch Over(Switch) Command
Function to Switch over Processor.
Switching Over Command is executed for duplicated Processors and is performed only
when both sides of Processors are in a normal status.
Command : SWT-PRC [:BSC=a] [,BTS=b] ,PROC=c;
a: BSC Number
b: BTS Number
c: Processor Name : CNP, PNP, PCP00, PCP01,PCP02, PMP00, PMP01,PMP02,
CCP, NCP, SCP,ALP, BSP, CRP, RCP00, RCP01, RCP02, RCP03,RCP04, RCP05
Input : SWT-PRC :BSC=1 ,PROC=CCP;
Fig. 4.4-8 Processor Switch Over(Switch) Command Display Result
4.4.2. Network Status Control
Table 4.4-2 Network Node Status LIST
Status Types
Definition
Description
NORM
Normal
Normal Operation
Normal Act
While normally operated, Act Status is
NOR_A
NOR_S
maintained (Duplicated node)
Normal Standby
SMD-011-PMA210
While normally operated, Standby Status is
maintained (Duplicated node)
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ABN_D
Abnormal Deletion
card is removed
ABN_F
Abnormal Fault
Local Fault occurred
ABN_M
Abnormal MMC Block
Blocked Status by User’s MMC
Even equipped to PLD, a processor managing the
INIT
Initial
corresponding device does not normally operate
until now
Based on judgment that a normal call is
AB_OB
Abnormal Online Block impossible due to faults in other devices, the
corresponding device is blocked
N_EQP
Not Equipped
Card Type is not defined in PLD
4.4.2.1. Network Status Display Command
Function to display the BSS Network status.
Command : DIS-NET-STS: [BSC=a],[BTS=b],SHELF=c,CARD=d,ID=e,[CHIP=f];
a:
BSC Number
b:
BTS Number
c:
SHELF NAME(CAMU,CAMDU,ASMU,ALSU,BANU)
d:
CARD NAME(ASCA,ASIA,AOTA,ATSA,ALMA,LICA)
e:
CARD ID(0~3)
f:
CHIP Number(0~1)
Input : DIS-NET-STS:BSC=0,BTS=0,SHELF=BANU,CARD=LICA,ID=0;
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Fig. 4.4-9 Result of Network Status Display Command
4.4.2.2. ALPA Network Status Display
Function to display the ALPA Network status.
Command : DIS-ALPA-STS:BSC=a,ALMA=b,ALPA=c;
a:
BSC Number(0~11)
b:
ALMA ID(0~1)
c:
ALPA ID(0~4)
Input : DIS-ALPA-STS:BSC=0,ALMA=0,ALPA=0;
Fig. 4.4-10 Result of ALPA Network Status Display
4.4.2.3. PDSN NODE Status Display
Function to display the PDSN NODE Network status
Command : DIS-PDSN-STS:SHELF=a,PIP=b;
a: SHELF(PCP(00~02),PMP(00~02))
b: PIP(0~10)
Input : DIS-PDSN-STS:SHELF=PCP00,PIP=0;
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Fig. 4.4-11 Result of PDSN NODE Status Display
4.4.2.4. PCFU Network Status Display Command
Function to display the PCFU Network Status
Command : DIS-PCF-NET:PROC=a,TYPE=b;
a: PCP(00~02),PMP(00~02)
b: PIP_FERA,FETA_PDSN
Input : DIS-PCF-NET:PROC=PCP00,TYPE=PIP_FERA;
Fig. 4.4-12 Result of PCFU Network Status Display Command
SMD-011-PMA210
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4.4.2.5. ALPA Network Block Command
Function to block the
ALPA Network.
Command : BLK-ALPA:BSC=a,ALMA=b,ALPA=c,[TYPE=d],[LINK=e];
a: BSC Number(00~11)
b: ALMA ID(0~1)
c: ALPA ID(0~4)
d: TYPE(STM_1,E1)
e: LINK(0~15)
Input : BLK-ALPA:BSC=0,ALMA=0,ALPA=0,TYPE=STM_1,LINK=0;
Fig. 4.4-13 Result of ALPA Network Block Command
4.4.2.6. UNBlock Command
Function to unblock the ALPA Network.
Command : UBLK-ALPA:BSC=a,ALMA=b,ALPA=c,[TYPE=d],[LINK=e];
a: BSC Number(00~11)
b: ALMA ID(0~1)
c: ALPA ID(0~4)
d: TYPE(STM_1,E1)
e: LINK(0~15)
Input : UBLK-ALPA:BSC=0,ALMA=0,ALPA=0,TYPE=STM_1,LINK=0;
SMD-011-PMA210
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Fig. 4.4-14 Result of ALPA Network UNBlock Command
4.4.3. Can Device Status Control
Table 4.4-3 DEVICE Status List
Status
Definition
Types
NORM
Normal
ABN_D
Abnormal Deletion (Even equipped to PLD, it is in the Status of Removal)
ABN_F
Abnormal Fault(Status that normal operation is impossible due to fault in
Device)
(Test: As a result of DSP Chip Hardware Test, NOK occurs)
ABN_M
Abnormal MMC Block
INIT
Initial (Even equipped to PLD, a processor managing the corresponding
device does not operate normally until now)
AB_OB
Abnormal Online Block (Based on judgment that a normal call is impossible
due to faults in other devices, the appropriate device is blocked)
IDLE
Even if it is normal, call resources are not allocated (CE, VCE)
BUSY
normal and call resources are allocated (CE, VCE)
N_EQP
Status defined as Not Equipped to PLD
READY
Even if not defined in PLD, Device is inserted
UNDEF
Status that un-defined status is inserted
ABN_I
Status being separated as H/W Reset
ABN_B
BER Test Status by User
NOR_PB
In case that call exists when CHC, Chip is blocked, it indicates the status that
awaits until a call is terminated
it indicates, the Status that waits for the call termination in order to perform
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the Vocoder test.
REDNCY
In duplicated Device, it indicates Redundancy Status of Standby side(FETA
Only)
CB_OPN
For device that is managed only as fault, it is the case that is opened to Fault
Cable
CLK_F
During Vocoder Channel test, as a result of Timing-Module test, NOK
occurred (Test Only)
TSW_F
As a result of TSLU Loopback test, NOK is occurred (Test Only)
ABN_AT
Status in which Vocoder is put to Automatic(Online) test (Test Only)
ABN_MT
Status in which Vocoder Manual(Ondemand) is put to test (Test Only)
QAT0_F
As a result of QCELP Algorithm test during Vocoder channel test, NOK
occurred in State 0 (Test Only)
QAT1_F
As a result of QCELP Algorithm test during Vocoder channel test, NOK
occurred in State 1 (Test Only))
QAT2_F
As a result of QCELP Algorithm test during Vocoder channel test, NOK
occurred in State 2 (Test Only)
QAT3_F
As a result of QCELP Algorithm test during Vocoder channel test, NOK
occurred in State 3 (Test Only)
VPLB_F
As a result of VCPA Loopback test during Vocoder channel test, NOK
occurred (Test Only)
VMLB_F
As a result of VCMA Loopback test during Vocoder channel test, NOK
occurred (Test Only)
VLLB_F
As a result of VLIA Loopback test during Vocoder channel test, NOK occurred
(Test Only)
4.4.3.1. CAN Device Status Display Command
Function to display Device(BOARD) Status mounted to CAN
Command : DIS-CAN-DEV:PROC=a;
a : CNP,PNP,PCP(00~02)
Input : DIS-CAN-DEV:PROC=CNP;
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Fig. 4.4-15 Result of CAN Device Status Display Command
4.4.3.2. GPS(CAN) Status Display Command
Function to display Device and Information of CAN GPS.
Command : DIS-GPS-STS:TYPE=a;
a : ALL,GPS_DEV,GPS_INFO
Input : DIS-GPS-STS:TYPE=ALL;
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Fig. 4.4-16 Result of GPS(CAN) Status Display Command
4.4.3.3. H/W RESET CAN DEVICE Command
Function to reset CAN Device on H/W Level
Command : RMT-CAN-DEV:PROC=a,DEV=b,ID=c,[SIDE=d],CLS=e;
a: Processor :CNP,PNP,PCP(00~02),PMP(00~02)
b: Device Name: ASCA,ASIA,AOTA,ATSA,PIP,FERA,FETA,BCRA
c: Device ID : 0~10
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d: SIDE:A_SIDE,B_SIDE
e: CLASS : HARDRST,ISOLAT,UNISOL
Input : RMT-CAN-DEV:PROC=PNP,DEV=ASCA,ID=0,SIDE=A_SIDE,CLS=HARDRST;
Fig. 4.4-17 Result of H/W RESET CAN DEVICE Command
4.4.4. BSC Device Status Control
4.4.4.1. BSC Device Status Display Command
Function to display Status of various Boards mounted to BSC
Command : DIS-BSC-DEV:BSC=a,PROC=b;
a : BSC Number(00~11)
b : PROC Name(NCP,SCP,ALP,SMP(00~04),VMP(00~08))
Input : DIS-BSC-DEV:BSC=1,PROC=NCP;
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Fig. 4.4-18 Result of BSC Device Status Display
4.4.4.2. SLPA Status Display Command
Function to display the SLPA Status
Command : DIS-SLPA-STS:BSC=a,SMP=b,[SLPA=c];
a : BSC Number(00~11)
b : SMP Number(00~04)
c : SLPA Number(00~17)
Input : DIS-SLPA-STS:BSC=0,SMP=0,SLPA=0;
Fig. 4.4-19 Result of SLPA Status Display Command
4.4.4.3. VCPA Status Display Command
Function to display the VCPA Status
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Command : DIS-VCPA-STS:BSC=a,VMP=b,[VCPA=c];
a : BSC Number(00~11)
b : VMP Number(00~07)
c : VCPA Number(00~15)
Input : DIS-VCPA-STS:BSC=0,VMP=0,VCPA=0;
Fig. 4.4-20 Result of VCPA Status Display Command
4.4.4.4. E1 LINK Status Display Command
Function to display E1 Link Status of VLIA
Command : DIS-E1-STS:BSC=a,VMP=b,[VLIA=c];
a : BSC Number(00~11)
b: VMP Number(00~07)
c: VLIA Number(00~01)
Input : DIS-E1-STS:BSC=0,VMP=0,VLIA=0;
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Fig. 4.4-21 Result of E1 LINK Status Display Command
4.4.4.5. TS Network LINK Status Display Command
Function to display the Status of TS Network Link of VLIA.
Command : DIS-TS-STS:BSC=a,VMP=b,VLIA=c,E1=d;
a : BSC Number(00~11)
b : VMP Number(00~07)
c : VLIA Number(00~15)
d : E1 Number(00~15)
Input : DIS-TS-STS:BSC=0,VMP=0,VLIA=0,E1=0;
Fig. 4.4-22 Result of TS Network LINK Status Display Command
4.4.4.6. VCE(Vocoder Channel Element) Status Display Command
Table 4.4-4 Vocoder Channel Element Status LIST
Status Types
Definition
Description
IDLE
Idle
Normal status without a Call
8K_Qcelp
8k Qcelp Call
8k QCELP Call Seized Status
8K_EVRC
8k EVRC Call
8k EVRC Call Seized Status
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13K_Qcelp
13k Qcelp Call
13k QCELP Call Seized Status
13K_EVRC
13k EVRC Call
13k EVRC Call Seized Status
ABN_M
Abnormal MMC Block
Blocked Status by user’s MMC
UNDEF
Undefined Status
Status with Input of undefined Status
Function to display the Channel Element Status of VCE.
Command : DIS-VCE-STS:BSC=a,VMP=b,[VCPA=c];
a : BSC Number(00~11)
b : VMP Number(00~07)
c: VCPA Number(00~15)
Input : DIS-VCE-STS:BSC=0,VMP=0,VCPA=0;
Fig. 4.4-23 Result of VCE(Vocoder Channel Element) Status Display Command
4.4.4.7. SLPA BLOCK Command
Function to block SLPA.
Command : BLK-SLPA:BSC=a,SMP=b,SLPA=c,[SLV=d];
a : BSC Number(00~11)
b : SMP Number(00~04)
c : SLPA Number(00~17)
d : SLV Number(00~03)
Input : BLK-SLPA:BSC=0,SMP=0,SLPA=0,SLV=0;
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Fig. 4.4-24 Result of SLPA BLOCK Command
4.4.4.8. SLPA UNBLOCK Command
Function to unblock SLPA.
Command : UBLK-SLPA:BSC=a,SMP=b,SLPA=c,[SLV=d];
a : BSC Number(00~11)
b : SMP Number(00~04)
c : SLPA Number(00~17)
d : SLV Number(00~03)
Input : UBLK-SLPA:BSC=0,SMP=0,SLPA=0,SLV=0;
Fig. 4.4-25 Result of SLPA UNBLOCK Command
4.4.4.9. VCPA BLOCK Command
Function to block VCPA.
Command : BLK-VCPA:BSC=a,VMP=b,VCPA=c,[SLV=d],[DSP=e];
a : BSC Number(00~11)
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b : VMP Number(00~07)
c : VCPA Number(00~15)
d : SLV Number(00~01)
e : DSP Number(00~03)
Input : BLK-VCPA:BSC=0,VMP=0,VCPA=0,SLV=0,DSP=0;
Fig. 4.4-26 Result of VCPA BLOCK Command
4.4.4.10. VCPA UNBLOCK Command
Function to unblock VCPA
Command : UBLK-VCPA:BSC=a,VMP=b,VCPA=c,[SLV=d],[DSP=e];
a : BSC Number(00~11)
b : VMP Number(00~07)
c : VCPA Number(00~15)
d : SLV Number(00~01)
e : DSP Number(00~03)
Input : UBLK-VCPA:BSC=0,VMP=0,VCPA=0,SLV=0,DSP=0;
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Fig. 4.4-27 Result of VCPA UNBLOCK Command
4.4.4.11. VLIA BLOCK Command
Function to block VLIA.
Command : BLK-VLIA:BSC=0,VMP=0,VLIA=0,[E1=0],[TS=1];
a : BSC Number(00~11)
b : VMP Number(00~07)
c : VLIA Number(0~1)
d : E1 Number(00~15)
e : TS Number(00~31)
Input : BLK-VLIA:BSC=0,VMP=0,VLIA=0,E1=0,TS=1;
Fig. 4.4-28 Result of VLIA BLOCK Command
4.4.4.12. VLIA UNBLOCK Command
Function to unblock VLIA
Command : UBLK-VLIA:BSC=0,VMP=0,VLIA=0,[E1=0],[TS=1];
a : BSC Number(00~11)
b : VMP Number(00~07)
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c : VLIA Number(0~1)
d : E1 Number(00~15)
e : TS Number(00~31)
Input : UBLK-VLIA:BSC=0,VMP=0,VLIA=0,E1=0,TS=1;
Fig. 4.4-29 Result of VLIA UNBLOCK Command
4.4.4.13. H/W RESET BSC Device Command
Function to reset BSC Device on H/W Level.
Command : RMT-BSC-DEV:BSC=a,PROC=b,DEV=c,ID=d,[SUBID=e],CLS=f;
a : BSC Number(00~11)
b : Processor Name(NCP,SCP,ALP,SMP(00~05),VMP(00~07))
c : Device Name(SLPA,VCPA,VLIA,STIA,ASCA,ASIA,AOTA,ATSA,ALMA)
d : Device ID(00~17)
e : Sub_id(A_SIDE,B_SIDE)
f : Class(HARDRST,ISOLAT,UNISOL)
Input : RMT-BSC-DEV:BSC=0,PROC=SMP00,DEV=SLPA,ID=0,CLS=HARDRST;
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Fig. 4.4-30 Result of BSC Device H/W Reset Command
4.4.4.14. H/W RESET ALPA Command
Function to reset ALPA on H/W Level.
Command : RMT-ALPA:BSC=0,ALMA=0,ALPA=0,CLS=HARDRST;
a : BSC Number(00~11)
b : ALMA ID(0~1)
c : ALPA ID(0~4)
d : Class(HARDRST,ISOLAT,UNISOL)
Input : RMT-ALPA:BSC=0,ALMA=0,ALPA=0,CLS=HARDRST;
Fig. 4.4-31 Result of H/W RESET ALPA Command
4.4.5. Bts Device Status Control
4.4.5.1. BTS Device Status Display Command
Function to display the BTS Device status
Command : DIS-BTS-DEV:BSC=a,BTS=b,PROC=c;
a : BSC Number(00~11)
b : BTS Number(00~47)
c : Processor Name(BSP,BPP,CRP,RCP(00~06)
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Input : DIS-BTS-DEV:BSC=0,BTS=0,PROC=CRP;
Fig. 4.4-32 Result of BTS Device Status Display Command
4.4.5.2. FA Status Display Command
Function to display FA Status.
Command : DIS-FA-STS:BSC=a,BTS=bFA=c;
a : BSC Number(00~11)
b : BTS Number(00~47)
c : FA Number(0~7)
Input : DIS-FA-STS:BSC=0,BTS=0,FA=0;
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Fig. 4.4-33 Result of FA Status Display Command
4.4.5.3. BLOCK DBPA Command
Function to block DBPA.
Command : BLK-DBPA:BSC=a,BTS=b,RCP=c,DBPA=d,[CHIP=e],[CONDITION=f];
a : BSC Number(00~11)
b : BTS Number(00~47)
c : RCP Number(0~5)
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d : DBPA Number(0~9)
e : CHIP Number(0~1)
f : Select Option(conditional, unconditional)
Conditional : If there is call connected, wait until it is disconnected during timeout and
then block it. If it is not disconnected until timeout, do not block it.
Unconditional : block a call regardless of their presence unconditionally. (The existing
call is disconnected)
Reference : If an OverHead Channel is allocated, do not block a call unconditionally.
Input : BLK-DBPA:BSC=0,BTS=0,RCP=0,DBPA=1,CHIP=1,CONDITION=CONDITION;
Fig. 4.4-34 Result of BLOCK DBPA Command
4.4.5.4. UNBLOCK DBPA Command
Function to unblock DBPA
Command : UBLK-DBPA:BSC=a,BTS=b,RCP=c,DBPA=d,[CHIP=e],[CONDITION=f];
a : BSC Number(00~11)
b : BTS Number(00~47)
c : RCP Number(0~5)
d : DBPA Number(0~9)
e : CHIP Number(0~1)
Input : UBLK-DBPA:BSC=0,BTS=0,RCP=0,DBPA=1,CHIP=1;
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Fig. 4.4-35 Result of UNBLOCK DBPA Command
4.4.5.5. BLOCK OverHead Channel Element Display Command
Function to block OverHead Channel Element
Command : BLK-OVHD-CE:BSC=a,BTS=b,SECTOR=c,FA=d;
a : BSC Number(00~11)
b : BTS Number(00~47)
c : SECTOR(ALPHA,BETA,GAMMA,DELTA,EPSILON,ZETA)
d : FA Number(0~5)
Input : BLK-OVHD-CE:BSC=0,BTS=0,SECTOR=ALPHA,FA=0;
Fig. 4.4-36 Result of BLOCK OverHead Channel Element Display
4.4.5.6. UNBLOCK OverHead Channel Element
Function to unblock OverHead Channel Element
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Command : UBLK-OVHD-CE:BSC=a,BTS=b,SECTOR=c,FA=d;
a : BSC Number(00~11)
b : BTS Number(00~47)
c : SECTOR(ALPHA,BETA,GAMMA,DELTA,EPSILON,ZETA)
d : FA Number(0~5)
Input : UBLK-OVHD-CE:BSC=0,BTS=0,SECTOR=ALPHA,FA=0;
Fig. 4.4-37 Result of UNBLOCK OverHead Channel Element
4.4.5.7. H/W RESET BTS Device Command
Function to reset BTS Device on H/W.Level
Command : RMT-BTS-DEV:BSC=a,BTS=b,PROC=c,DEV=d,[ID=e],CLS=f;
a : BSC Number(00~11)
b : BTS Number(00~47)
c : Processor Name(BSP,BPP,CRP,RCP(00~05)
d : Device Name(ARIA,DBPA,BUDA,HPA,PACA,BADA,RISA,BOTA,LICA)
e : Device ID(0~9)
f : Class(HARDRST,ISOLAT,UNISOL)
Input : RMT-BTS-DEV:BSC=0,BTS=0,PROC=CRP,DEV=LICA,ID=0,CLS=HARDRST;
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Fig. 4.4-38 Result of H/W RESET BTS Device Command
4.4.5.8. H/W RESET LPA Device Command
Function to reset LPA Device on H/W.Level
Command : RMT-LPA:BSC=a,BTS=b,SECTOR=c,LPA=d,CLS=e;
a : BSC Number(00~11)
b : BTS Number(00~47)
c : SECTOR(ALPHA,BETA,GAMMA,DELTA,EPSILON,ZETA)
d : LPA Number(0~5)
e : Class(HARDRST,ISOLAT,UNISOL)
Input : RMT-LPA:BSC=0,BTS=0,SECTOR=ALPHA,LPA=0,CLS=HARDRST;
Fig. 4.4-39 Result of H/W RESET LPA Device Command
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4.4.5.9. H/W RESET LPA Combiner Command
Function to reset the LPA Combiner on H/W Level
Command : RMT-LPA-COM:BSC=a,BTS=b,SHELF=c,COM=d,CLS=e;
a : BSC Number(00~11)
b : BTS Number(00~47)
c : SHELF Number(0~5)
d : Combiner Number(0~2)
e : Class(HARDRST,ISOLAT,UNISOL)
Input : RMT-LPA-COM:BSC=0,BTS=0,SHELF=0,COM=0,CLS=HARDRST;
Fig. 4.4-40 Result of LPA Combiner H/W RESET Command
4.4.5.10. BTS SHELF POWER H/W RESET Command
Function to reset BTS SHELF POWER on H/W Level
Command : RMT-BTS-SHF:BSC=a,BTS=b,SHF=c,CLS=d;
a : BSC Number(00~11)
b : BTS Number(00~47)
c : SHELF Name(BANU,RCBU(00~05)
d : Class(HARDRST,ISOLAT,UNISOL)
Input : RMT-BTS-SHF:BSC=0,BTS=0,SHF=RCBU00,CLS=HARDRST;
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Fig. 4.4-41 Result of BTS SHELF POWER H/W RESET Command
4.4.6. Status Message Control
Table 4.4-5 Status Message LIST
Codes
Definition
Description
S3002 CAN CNP/PNP Status Change When Processor Status changes, it occurs.
Display
S3003 AMP Status Change Display
When Processor Status changes, it occurs.
S3004 ALP Status Change Display
When Processor Status changes, it occurs.
S3005 CCP Status Change Display
When Processor Status changes, it occurs.
S3006 SMP Status Change Display
When Processor Status changes, it occurs.
S3007 VMP Status Change Display
When Processor Status changes, it occurs.
S3008 PCP Status Change Display
When Processor Status changes, it occurs.
S3009 BSC-NCP Status Change Display When Processor Status changes, it occurs.
S3010 BSP Status Change Display
When Processor Status changes, it occurs.
S3011 SCP Status Change Display
When Processor Status changes, it occurs.
S3012 BPP Status Change Display
When Processor Status changes, it occurs.
S3013 RCP Status Change Display
When Processor Status changes, it occurs.
S3017 CRP Status Change Display
When Processor Status changes, it occurs.
S3020 PMP Status Change Display
When Processor Status changes, it occurs.
S3201 CNP ASIA Status Change Display Displayed upon device status change
S3202 CNP
ASCA
Status
Change Displayed upon device status change
Display
S3205 PNP ASIA Status Change Display Displayed upon device status change
S3206 PNP
ASCA
Status
Change Displayed upon device status change
Display
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S3209 PCP
BCRA
Status
Change Displayed upon device status change
BCRA
Status
Change Displayed upon device status change
Display
S3210 PMP
Display
S3211
AMP GPSR Status Change
Displayed upon device status change
Display
S3220 NCP ASIA Status Change Display Displayed upon device status change
S3221 NCP
ASCA
Status
Change Displayed upon device status change
ATSA
Status
Change Displayed upon device status change
ALMA
Status
Change Displayed upon device status change
Display
S3222 NCP
Display
S3224 ALP
Display
S3230 BSP GPS Status Change Display Displayed upon device status change
S3501 CCP
Overload
State
Display
Change Displayed when overload status is generated,
released and changed owing to load change in
CCP
S3502 BSP
Overload
Display
State
Change Displayed when overload status is generated,
released and changed owing to load change in
BSP
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4.4.6.1. Inhibited Status Message Display Command
Function to display Status Message whose display to Outterm is inhibited
Command : DIS-INH-STS;
Input : DIS-INH-STS;
Fig. 4.4-42 Result Inhibited Status Message Display Command
4.4.6.2. Status Message Display Inhibition Command
Function to inhibit Status Message display
Command : INH-STS-MSG:SN=a;
a: SN Number(ALL,S3002~S3020,S3201~S3230, S3501,S3502)
Input : INH-STS-MSG:SN=S3002;
Fig. 4.4-43 Result of Status Message Display Inhibition Command
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4.4.6.3. Allow Inhibited Message Command
Function to allow display of Status Message whose display to Outterm is inhibited
Command : ALW-STS-MSG:SN=a;
a: SN Number(ALL,S3002~S3020, S3201~S3230, S3501,S3502)
Input : ALW-STS-MSG:SN=S3002;
Fig. 4.4-44 Result of Inhibited Message Display Allow Command
4.4.7. Overload Status Control
4.4.7.1. Processor Overload Status Display Command
Function to display processor Overload Status
Command : DIS-OVLD-STS:[BSC=a],[BTS=b],PROC=c;
a : BSC Number(00~11)
b : BTS Number(00~47)
c : Processor Name(CCP,BSP)
Input : DIS-OVLD-STS:BSC=0,BTS=0,PROC=BSP;
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Fig. 4.4-45 Result of Processor Overload Status Display Command
4.4.7.2. Overload Threshold Value Display Command
Function to display Overload Threshold Value
Command : DIS-OVLD-THR:BSC=a,[BTS=b],PROC=c;
a : BSC Number(00~11)
b : BTS Number(00~47)
c : Processor Name(CCP,BSP)
Input : DIS-OVLD-THR:BSC=0,BTS=0,PROC=BSP;
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Fig. 4.4-46 Result of Overload Threshold Value Display Command
4.4.7.3. Overload Threshold Value Change Command
Function to change Overload Threshold Value.
Command:
CHG-OVLD-THR:BSC:a,[BTS=b],LEVEL=c,[LOAD=d], [ORG_PER=e],[TER_PER=f];
a : BSC Number(00~11)
b : BTS Number(00~47)
c : LEVEL(0~100)
d : LOAD(0~100)
e : ORG_PER(0~100)
f : TER_PER(0~100)
Input :
CHG-OVLD-THR:BSC:0,BTS=0,LEVEL=0,LOAD=100, ORG_PER=97,TER_PER=100;
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Fig. 4.4-47 Result of Overload Threshold Value Change Command
4.4.7.4. Overload Generation Test Command
Function to generate Overload threshold value
Command : STRT-OVLD-GEN:BSC=a,[BTS=b],PROC=c,LEVEL=d;
a : BSC Number(00~11)
b : BTS Number(00~47)
c: Processor Name(CCP,BSP)
d: LEVEL(0~24)
Input : STRT-OVLD-GEN:BSC=0,BTS=0,PROC=BSP,LEVEL=0;
Fig. 4.4-48 Result of Overload Generation Test Command
4.4.7.5. Overload Generation Test STOP Command
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Function to stop the Overload Generation Test
Command : STOP-OVLD-GEN:BSC=a,[BTS=b],PROC=c,LEVEL=d;
a : BSC Number(00~11)
b : BTS Number(00~47)
c: Processor Name(CCP,BSP)
d: LEVEL(0~24)
Input : STOP-OVLD-GEN:BSC=0,BTS=0,PROC=BSP,LEVEL=0;
Fig. 4.4-49 Result of Overload Generation Test STOP Command
4.4.7.6. Command to Display Whether or not the Overload Generation
Test is performed
Function to find out whether the Overload Display Test is performed
Command : DIS-OVLD-GEN:BSC=a,[BTS=b],PROC=c,LEVEL=d;
a : BSC Number(00~11)
b : BTS Number(00~47)
c: Processor Name(CCP,BSP)
d: LEVEL(0~24)
Input : DIS-OVLD-GEN:BSC=0,BTS=0,PROC=BSP,LEVEL=0;
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Fig. 4.4-50 Command to Determine Whether to Perform the Overload Generation Test
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4.5. Test Command
4.5.1. On-Line Test-related Command
On-Line Test is a function that allows a test to be performed automatically at a
specific time on a specific day and includes the following: Vocoder, CE, BTS Markov
test and VSWR test. The tests of CE, BTS Markov and VSWR find out presence of
faults in
hardware of Channel Elements in BTS and the test function for radio
environment, and the Vocoder test finds out presence of faults in
hardware of
Vocoder in BSC. Because the tests of CE, Vocoder, BTS Markov, and VSWR seize call
resources, the user designates the specific time (idlest time) during the time that only
a test is allowed. The tests of CE, BTS Markov, and VSWR are conducted under the
supervision of BSP while the Vocoder test is conducted under the supervision of CCP.
If the user designates the day and start/ending time for the Online test, and the ID
scope of the board to be tested, BSM becomes the designated time of the designated
day and if the test is in the ALLOW status, it commands the corresponding Processor
to start/end the test.
The performance of the On-Line test is decided by Command INH-ONL-TEST (Inhibit
Test), ALW-ONL-TEST(Allow Test). Only when the status is designated as “ALLOW”
by ALW-ONL-TEST Command, On-Line test is performed. The Command of INHONL-TEST inhibits the test. Besides these two Commands, there is a command to stop
the test by each Test(CE : STS-CE-ONL, Vocoder : STS-VCE-ONL,
BTS Markov :
STS-MKV-ONL, VSWR : STS-VSWR-ONL). If the test was stopped by INHIBIT
Command, the On-Line Test is not performed even if the designated time of the
designated day of the week arrives because inhibit/allow status is changed to
“INHIBIT”. ,. However, if the Test was stopped by the above listed STOP Command,
the On-Line Test that was performed on that day only comes to a halt and at the
designated time of the next designated day of the week the On-Line Test is to be
performed normally because DB Flag that indicates the status of INHIBIT/ALLOW is
not changed
4.5.1.1. On-Line Test Inhibit Command
It is the function that inhibits On Line Test for CE, Vocoder, BTS Markov, and VSWR
test. In the cases of CE, BTS Markov, and VSWR test, input the corresponding BTS
number and in the case of Vocoder test, input the corresponding
• Command
BSC number.
INH-ONL-TEST:EXE=a, BSC=b,[BTS=c];
a: VCE/CE/MKV/VSWR
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b: BSC number (0~11)
c: BTS number (0~47)
• Input/Output
Fig. 4.5-1 Result of Test Inhibit Command Execution
4.5.1.2. On-Line Test Allow Command
Function that allows Online Test for CE, Vocoder, BTS Markov, and VSWR test
For CE, BTS Markov and VSWR test, input the corresponding BTS number and for
Vocoder test, input corresponding BSC number.
• Command ALW-ONL-TEST:EXE=a,BSC=b[BTS=c];
a: VCE/CE/MKV/VSWR
b: BSC number (0~11)
c: BTS number (0~47)
• Input/Output
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Fig. 4.5-2 Result of Test Allow Command Execution
4.5.1.3. On-Line Test Inhibit Item Display Function
Function to display the inhibit of the on line test for the specific tests among the online tests by BSC and BTS. For Vocoder test, it displays Inhibit status. In case of CE,
BTS Markov and in case of the VSWR test, it displays the status by BTS.
• Command
DIS-INH-ONL:EXE=a,BSC=b[BTS=c];
a: VCE/CE/MKV/VSWR
b: BSC number (0~11)
c: BTS number (0~47)
• Input/Output
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Fig. 4.5-3 Result of Test Inhibit/Allow List Display Command Execution
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4.5.2. Test-related to Channel Element
Channel Element Test is performed in BIT(Built In Test) for each chip. The types of
BIT Test are as follows:
- Bus Interrupt Test
- ChipX16 Test
- PP2S Test
- PCG Test
This BIT Test is normally performed on Chip with OVHD channel and Chip seized with
a call and the result is reported to BSM.
Table 4.5-1CE Test Result Message
On-Demand
DESCRIPTION
BIT_OK
NORMAL
BIT_BUS_FAIL
BUS INTERFACE TEST FAIL
BIT_INT_FAIL
INTERNAL INTERRUPT TEST FAIL
BIT_CHIPX16_FAIL
BIT_PP2S_FAIL
CHIPX16 TEST FAIL
BIT_PCG_FAIL
PCG TEST FAIL
BIT_RAM_FAIL
MEMORY TEST FAIL
BIT_PROGRESS_FAIL
TEST PERFORMING FAIL
4.5.2.1. Channel Element Test Function
Function to perform BIT test by CHC and CHIP unit.
• Command TEST-CE :BSC=a ,BTS=b ,PROC=c [,CHC=d] [,CHIP=e];
a: BSC number (0~11)
b: BTS number (0~47)
c: RCP number (0~9)
d: Channel Card Number (0~9)
e: Chip Number (0~1)
• Input/Output
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Fig. 4.5-4 Result of CE BIT Test Execution
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4.5.3. Vocoder Test Function
The types of Vocoder Tests are as follows:
o DSP H/W Test
- Determines the presence of problems in ROM, RAM, ALU of DSP in
Vocoder
- Diagnosis the presence of problems by checking Checksum, Read/Write,
Flag Set, etc.
- Caused by defective DSP Chip
o Timing Module Test (Channel Test)
VCP generates Vocoder and Tx.Rx Timing by using MFP(MultipleFunction Processor) in order to exchange voice data with SLP every
20ms.
- It judges the presence of problems in Vocoder counter by checking the
generated Rx.Tx timing.
o Loopback Test (Channel Test)
It is a test to decide whether or not the status of Loop used in Qcelp
Algorithm test is normal and its Loop section has VLIA, VCMA and VCPA.
All of them should be normal to execute the Qcelp Algorithm test. VCP
generates Test Pattern and by checking the Loopbacked result, it decides
an absence of failure.
o QCELP Algorithm Test (Channel Test)
Due to intermittent problems in Vocoder and VCPA Card H/W, a
phenomenon that a call is not heard bi-directionally occurs. In order to
prevent this from happening, Qcelp Algorithm is tested. This test
determines whether Vocoder is normal by testing whether status
transition of Qcelp Algorithm is normally performed by the state. .
Table 4.5-2
On-Demand / On-Line Message
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Description
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FLT_DSP_HW
DSP HW test Fault
FLT_CLK
Timing Module test Fault
FLT_VCPA_LOOPBACK
Vocoder Processor Loopback test Fault
FLT_VCMA_LOOPBACK
Vocoder Master board Loopback test Fault
FLT_VLIA_LOOPBACK
Vocoder Line interface Loopback test Fault
FLT_QCELP_ST0
Qcelp Algorithm test Fault state0
FLT_QCELP_ST1
Qcelp Algorithm test Fault state1
FLT_QCELP_ST2
Qcelp Algorithm test Fault state2
FLT_QCELP_ST3
Qcelp Algorithm test Fault state3
4.5.3.1. On-Demand Vocoder Test Function
Function to test Vocoder DSP or Channel by VCP/SLAVE/CHIP unit.
• Command TEST-VCE: BSC=a ,VMP=b ,S_VCP=c [,E_VCP=d] [,SLAVE=e] [,CHIP=f]
[,VCE=g] ,TYPE=h [,OPTION=i] [,WAIT_T=j]
a: BSC number (0~11)
b: VMP number (0~7)
c, d: VCP number (0~15)
e: SLAVE number (0~1)
f : CHIP number (0 ~ 3)
h: Test Type(DSP, Channel)
i: Test Option(SKIP, RELEASE, WAIT_THEN) => These are options
used to test channels when a call is seized, and SKIP does not perform a test
when a call is seized but skips. With option RELEASE, it disconnects a call
when a call is seized and then performs a test. With option WAIT_THEN, it
waits as long as j time is allowed and if a call is released within the designated
time, then it goes on with
a test. However, if a call is not released, it skips.
J: Wait Time(5~300 sec)
• Input/Output
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Fig. 4.5-5 Result of On-Demand Vocoder Test(Channel Type) Execution
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Fig. 4.5-6 Result of On-Demand Vocoder Test(DSP Type) Execution
4.5.3.2. Parameter Change Command Related to On-Line Vocoder Test
Function to change On-Line Vocoder test start/ending time, test day and the scope of
VMP/VCP to be tested.
• Command CHG-VCE-PARA :BSC=a ,S_VMP=b [,E_VMP=c] ,S_VCP=d [,E_VCP=e]
[,STI ME=f] [,ETIME=g] ,WDAY=h;
a: BSC number (0~11)
b,c: VMP number(0~7)
d,e: VCP number(0~15)
f: On-Line test Start Time (0~23 Hour)
g: On-Line test End Time (1~24 Hour)
h: Test Day(Month ~ Day, Daily)
• Input/Output
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Fig. 4.5-7 Result of On-Line Vocoder Test parameter Change Command Execution
Fig. 4.5-8 Result of On-Line Test at the time of On-Line Vocoder Test Execution
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Parameter Change
4.5.3.3. Parameter Display Command related to On-Line Vocoder Test
Function to display On-Line Vocoder test start/ending time, test day, and the scope of
VMP/VCPto be tested.
• Command DIS-VCE-PARA:BSC=a;
a: BSC number (0~11)
• Input/Output
Fig. 4.5-9 Result of On-Line Vocoder Test Parameter Display Command Execution
4.5.3.4. Display Command of On-Line Vocoder Test Result
Function to display the On-Line Vocoder Test Results which are stored in CCP to BSM
by the VMP unit
• Command DIS-VCE-RSLT:BSC=a,VMP=b;
a: BSC number (0~11)
b: VMP number (0~7)
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• Input/Output
Fig. 4.5-10 On-Line Vocoder Test Result Display Command
4.5.3.5. Display Command of On-Line Vocoder Test Status
Function to display the On-Line Vocoder Test performance status and to stop the test.
If Item Field is designated as “DISPLAY”, it displays On-Line Vocoder test status of
the present corresponding BSC, and if it is designated as "END_ONL", it stops current
On-Line test.
• Command STS-VCE-ONL:BSC=a,ITEM=b;
a: BSC number (0~11)
b: Execution ITEM (DISPLAY/END-ONL)
• Input/Output
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Fig. 4.5-11 On-Line Vocoder Test End Command, Status Display Command Execution Result
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4.5.4. Link Test Function
Link test is divided into PING test, IPC test, ATM Path test, and Trunk BER test. PING
test checks the Link status of Application Level by using Ping command from Master
Processor to each Target Processor. IPC test checks the presence of problems in
LINK by conducting IPC Test to the mounted processors/devices. ATM Path test
checks presence of faults in ATM LINK Level by conducting ATM Layer Test on the
mounted Processor/Devices. Trunk BER test sends/receives the designated number of
ATM Cells to the operator designated BTS Link to get Error Rate.
4.5.4.1. Trunk BER Test Function
Function to check the presence of problems in Trunk(16 E1) Link between BTS and
BSC. Trunk BER Test analyzes performance per Link of each ALPA and LICA and the
analyzed result is displayed in a certain format to BMS. One link is selected and while
exchanging as many as the designated number of ATM Cells, test is conducted and
Data Error Rate is displayed.
• Command TEST-LINK :BSC=a ,ALPA=b [,CNT=c] [,RATE=d];
a: BSC number (0~11)
b: ALPA number(0~9)
c: Send Cell Count(1 ~ 1,000,000)
d: Data Rate(1 ~ 90: Number of Cells transferred per a second)
• Input/Output
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Fig. 4.5-12 Result of Trunk BER Test Performance
4.5.4.2. PING Test Function
Function to check Link Status for the Target Processor by the Master Processor that
was input to MMI of BSM by using the Ping command
Ping test is divided into Point To Point Test and Point To Multi Test.
• Command TEST-PING:SRC=a,DST=b[,BSC=c][,BTS=d][,SMP=e][,VMP=f][,PCF=g];
a: Source Processor
b: Destination Processor(If there is input, it is PTP, if not, it is PTM)
c: BSC number(0~11)
d: BTS number(0~47)
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e: SMP number(0~5)
f: VMP number(0~7)
g: PCF number(0~2)
• Input/Output
Fig. 4.5-13 Result of PING Test Performance
4.5.4.3. IPC Test Function
Function
to
check
the
presence
of
problems
in
the
Link
status
between
Processor/Device by executing IPC command of Application Level .
IPC Test is divided into PTP test and PTM test.
• Command TEST-IPC :SRC=a [,DST=b] [,BSC=c] [,BTS=d] [,SMP=e] [,VMP=f]
[,PCF=g];
a: Source Processor
b: Destination Processor(If input does exist, it is PTP and if not, it is PTM)
c: BSC number(0~11)
d: BTS number(0~47)
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e: SMP number(0~5)
f: VMP number(0~7)
g: PCF number(0~2)
• Input/Output
Fig. 4.5-14 Result of IPC Test Performance
4.5.4.4. ATM Path Test Function
Function to check presence of problems in Link Status between Processor and Device
by executing ATM CC, LB, PM command.
It is divided into PTP Test and PTM Test.
• Command TESTTM:SRC=a[,DST=b],CLASS=c,LEVEL=d[,BSC=e][,BTS=f][,SMP=g] [,VMP=h] [,PCF=i];
a: Source Processor
b: Destination Processor(If input does exist, it is PTP, and if not, it is PTM)
c: Test class(CC: Continuity Check, LB: Loop Back, PM: Execution Monitor)
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d: Test Level(F4: VPC, F5: VCC)
e: BSC number(0~11)
f: BTS number(0~47)
g: SMP number(0~5)
h: VMP number(0~7)
i: PCF number(0~2)
• Input/Output
Fig. 4.5-15 Result of ATM Path(PM) Test Performance
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Fig. 4.5-16 Result of ATM Path(CC) Test Performance
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Fig. 4.5-17 Result of ATM Path(LB) Test Execution
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4.5.5. Command related to BSC Virtual Call Test
General mobile call is ㅡmade by MS, BSS(BSC, BTS), switching system interworking.
Because the section between MS and BSS is the place where call environment setup
function and modulation and demodulation of voice data are made including allocation
of call resource necessary for radio communication, it is responsible for essential
function in the mobile communication system. Testing call is the function to check the
following: 1) the presence of faults in call processing made between BSS and MS that
excludes the MSC function in the course of mobile call processing, and 2) the quality
of voice. Since it excludes the MS function to, mutual calls such as M2L, L2M, or M2M
cannot be made; however, , but cantest can be perfomed by selecting one between
originating and terminating call. When a testing call was set up, BSS and MS generate
markov data and exchange them and by checking if there is any loss of markov data,
they calculate quality of voice. Terminating call inputs IMSI value of MS to be tested in
BSM and trys paging to set up a call. And Originating call sets up a call by selecting
testing call function of MS. (Originating call is not related to BSM function.)
• BSC Testing Call
It checks the following: 1) if there is any faults in call processing that is carried out
between BSC(SLP) – BTS(CE) - MSs and 2) the quality of voice. If a Call is attempted
in BSM by inputting the the information (i.e., the number of MS, BSC number, BTS
number, sector, frequency resource, MS call setup data (Station Class Mark, Slot Cycle
Index), Service Option(13K Markov, 8K Markov, 13K LoopBack, 8K LoopBack), and
voice packet data rate(Full, half, Quarter, Eighth , Variable rate)), then Call Link
between SLP-CE-MS is set up (setup of testing call) according to the data input. Once
a Call is set up, SLP and MS calculate Frame Error Rate while exchanging markov data.
When a Call is set up and a Call is released, BSM displays data of call resource, FER,
and reason for release.
• Service Option
Service Options of present use for Testing call at BSC include 8K Markov, 13K Markov,
8K loopback, 13K loopback .
• Markov
Once Testing Call is set up, SLP and MS synchronizes their time, and generate
identical data in sequence by Markov Algorithm. SLP and MS receive each other’s data
and compare them with their own to detect errors in the data frame. It can obtain
Forward FER(measured at MS) and Reverse FER(measured at SLP).
LoopBack: When Testing Call is set up, SLP generates voice data and sends them to
MS. MS performs lookback on this data as it is and SLP compares returned data with
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the original data to validate the quality of voice. (FER measured at SLP)
• Data Rate
User can designate voice data rate to be used for testing call. The data rate is divided
into the following: Full rate, Half rate, Quarter rate, Eighth rate, and Variable rate.
4.5.5.1. BSC Virtual Call Setup Function
Function to designate various options and setting up Call to a specific MS or all the
MSs MS to be tested should be entered to BSM DB with INS-TEST-MS command.
When TEST_KEY is not input, testing calls are set up for all the MSs stored in DB.
Testing Call is attempted for 60 minutes at a maximum. Once a Call is set up, it is
maintained for 60 minutes. If a call is disconnected due to the occurrence of faults, or
when a user released the call at random, a message for the reason of call release is
displayed.
• Command SET-TEST-CALL :BSC=a ,BTS=b ,SECTOR=c ,CDMA=d ,SCI=e ,SCM=f ,
OPTI=g ,DTYPE=h ,TIME=i [,TEST_KEY=j];
a: BSC number (0~11)
b: BTS number (0~47)
c: sector (ALPHA/BETA/GAMMA/DELTA/ZETA/EPSILON)
d: CDMA number (0~11)
e: SLOT CYCLE Index (0~7)
f: SLOT mode (SLOT_M, NON_SLT_M)
g: option (MKV_13K/MKV_8K/LB_13K/LB_8K)
h: Data Rate (VARIABLE/FULL/HALF/QUART/EIGHT )
i: TIME(1~60min)
j: Test Key(1 ~ 100)
• Input/Output
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Fig. 4.5-18 BSC Virtual Call Setup Command INTERM Display
Fig. 4.5-19 Console Window Display at the setup of BSC Virtual Call
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Fig. 4.5-20 Display at the Termination of BSC Virtual Call
4.5.5.2. Virtual Call Release Function
Function to release a call for a specific MS or all the MSs where a virtual call set up.
The output resulting from virtual call release is displayed by "Release by MMC".
• Command REL-TEST-CALL :BSC=a ,BTS=b [,TEST_KEY=c];
a: BSC number (0~11)
b: BTS number (0~15)
c: TEST KEY(1~100)
• Input/Output
Fig. 4.5-21 Result of BSC Virtual Call Release Command Execution
4.5.5.3. Testing MS Display Function
Function to display MSs to be used for the BSC Virtual Call test.
• Command DIS-TEST-MS :BSC=a ,BTS=b;
a: BSC number (0~11)
b: BTS number (0~47)
• Input/Output
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Fig. 4.5-22 Presently registered Testing MS Display
4.5.5.4. MS Supplementary Function
Function to register MS to be used for the BSC Virtual test.
For a test of virtual call, first register MS.
• Command INS-TEST-MS :BSC=a ,BTS=b ,TEST_KEY=c [,MSIN=d];
a: BSC number (0~11)
b: BTS number (0~47)
c: TEST KEY(1~100)
d: IMSI of MS
• Input/Output
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Fig. 4.5-23 Testing MS Insert Result Display
4.5.5.5. MS Delete Function
Function to delete MS registered on the test list of BSC Virtual Call
• Command DEL-TEST-MS :TEST_KEY=a;
a: TEST_KEY of Mobile to be deleted
• Insert/Output
Fig. 4.5-24 Delete MS Execution Result
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4.5.6. TRAFFIC PATH TESTING FUNCTION
it is a test enabling to decide if there is presence of failure with designated traffic
path by setting a traffic path for BSC virtual call for a specific MS with the designated
call resources and then measuring PER.. The kinds of virtual call include Markov and
Loop Back., There are 8K and 13K respectively by service option. Call resources that
the user can designate are as follows: Selector Slave Processor, Trunk, and BTS
channel Chip. In one BSC, 100 virtual calls can be set up simultaneously separated
from testing function of virtual call. Once a call is set up, a message type which is
identical to the message type coming from BSC virtual call setup process is displayed.
4.5.6.1. Traffic Path Testing Setup Function
Function to set up a Call for the designated Traffic Path
• Command SET-PATH-CALL : IMSI=a , BSC=b , SMP=c , SLP=d , SLPSLV = e [,TRK =
f], BTS= g ,SECTOR = h ,CDMA = i ,RCP= j , MCPA=k , CHIP=l , SCI=m , SCM=n ,
OPTI=o , DTYPE=p [,TIME=q];
a : IMSI
b : BSC_Number(0~11)
c : SMP_Number(0~4)
d : SLP_Number(0~19)
e : SLP_Slave_Number(0~3)
f : Trunk_Number(0~19)
g : BTS_Number(0~47)
h : Sector_Id(0~5)
i : CDMA_Channel_Number(0~11)
j : RCP_Number(0~9)
k : MCPA_Number(0~9)
l : CHIP_Number(0~1)
m : Slot_Cycle_Index(0~7)
n : Station_Class_Mark(SLOT_M, NON_SLT_M)
o : Service_Option(MKV_13K, MKV_8K, LB_13k, LB_8K)
p : Test_data_Type(VARIABLE, RATE_FULL, RATE_HALF, RATE_QUAR, RATE_EIGHT)
q : TRACE_TIME(1~60min)
• Input/Output
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Fig. 4.5-25 Traffic Path Setup Command Execution Result Display(Interm Window)
Fig. 4.5-26 Traffic Path Setup Command Execution Result Display(Console Window)
4.5.6.2. Traffic Path Release Function
Function to release a Call to MS of a specific BSC, BTS where a virtual call is set up.
• Command REL-PATH-CALL :BSC=a ,BTS=b;
a: BSC number (0~11)
b: BTS number (0~15)
• Input/Output
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Fig. 4.5-27 Traffic Path Release Command Execution Result Display(Interm Window)
Fig. 4.5-28 Traffic Path Release Command Execution Result Display(Console Window)
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4.5.7. Call Trace Testing Function
Mobile Call Trace Function traces the process of call setup for the MS, surveillance of
the status after the call setup, the process of call release, and displays the content
visibly to BSM after BSM of User’s terminal designates a Mobile Station(MS) at
random by using a value of MSIN(Mobile Station Identification Number). . The
designated Mobile Station(MS) can trace the originating call or terminating call that
was set up by the user and if necessary, it sets up Markov call(i.e., a terminating
Markov call by paging) for tracing. Mobile call tracing can be performed to all kinds of
calls(Voice Call, Data Call, HandOff Call) and can designate maximum two calls
simultaneously for tracing. Information provided upon call tracing is as follows:
Tracing Information when Call is set
Resource of Call to be set
System Resource: BSC No, BTS No, Sector No, PN Offset
Attributes of Call: IMSI, ESN, Service Option, Call Type(Voice Call originating, Voice
Call terminating, DATA Call initial set, DATA Call Reactivation by MS, DATA Call
Reactivation by Network), Terminating number
BTS Resource: CDMA CH(Frequency) No, TC No(RCP#, MCPA#, CE#),
Code CH(Walsh code), Frame Offset
BSC Resource: SLP, VCE Number, CIC(Circuit Identifier Code)
Setup Process
Message display between processors during Call Setup: Visible Display of Call Flow
During Call Setup, display RTD(Round Trip Delay) value and calculated distance by
using this.
When Call Failure occurs, display reason value and its meaning
Call Set Time by section
Tracing Information at the phase of calling after Call Setup: Tracing and Display at
intervals of 1 ~ 5 seconds.
Elements of Communication Quality
Forward FER(Frame Error Rate): Present FER, Total FER
Backward FER(Frame Error Rate): Present FER, Total FER
Power Control Parameter: TC Gain, Reverse Power Control Threshold
Location Estimate Elements
Present Active PN Offsets Aggregation : BSC No, BTS No, Sector, Cdma Ch,
Walsh_ch, TC Id, RTD
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Present RTD Value and calculated distance by using this
Tracing Information at the phase of Call Release: Tracing it every time at the normal
release or abnormal release
Reason for Call Release
Reason for Call Release and its content: Display reason value and its meaning
Quality Elements of Call
Forward Total FER(Frame Error Rate)
Backward Total FER(Frame Error Rate)
4.5.7.1. Call Trace Start/End Function
Function that starts/ends Call Trace with MS designated at random.
• Command TRC-CALL : IMSI=a, ITEM=b,BSC=c;
a: IMSI Number
b: Start / Stop
c: BSC ID
• Input/Output
Fig. 4.5-29 Call Trace Start Command Input Screen
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Fig. 4.5-30 Call Trace Display in the Process of Call Set
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Fig. 4.5-31 Display of Call Set Process and Elements of Communication Quality
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Fig. 4.5-32 Display of Communication Quality and Release Reason
Fig. 4.5-33 Call Trace Stop Result
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4.5.7.2. Call Trace MS Display Function
Function to display MS that currently uses
• Command
the mobile call tracing function.
DIS-TRC-MS;
• Input/Output
Fig. 4.5-34 Terminal Display in use of Call Trace
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4.5.8. Number of
(Active/Dormant)
Data
Call
User
Display
Function
Function to display Number of Data Call by Active/Dormant
• Command DIS-DATA-CALL:PCP=a;
a: PCP Number(0~2)
• Input/Output
Fig. 4.5-35 Result of the Number of DATA Call User Display
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4.5.9. DATA Call User Status Display Function by IMSI
Command DIS-DATA-STS:PCP=a,IMSI=b;
a: PCP Number(0~2)
b: IMSI of MS
• Input/Output
Fig. 4.5-36 Result of DATA Call User Status Display by IMSI
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4.5.10. IOS Message Display Function
This function is operated by inputting the IMSI of MS to trace, duration, etc in BSM and
displays IOS trace information for all kinds of calls that MS attempts
as visible
information in text format in the BSM.
• Command TRC-IOS : MS=a, BSC=b, FLAG=c, DURATION=d
a: MS Number
b: BSC ID(0~11)
c: Start/Stop
d: Trace Duration Time
• Input/Output
Fig. 4.5-37 IOS Message Display START Result
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Fig. 4.5-38 IOS Display Message
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Fig. 4.5-39 STOP Result of IOS Message Display Function
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4.5.11. POWER MONITORING Function
Function to check the BTS power control in BSM
• Command DIS-BTS-PWR:BSC=a,BTS=b,ITEM=c,[TIME=d]:
a: BSC ID(0~11)
b: BTS ID(0~47)
c: Stop/Start
d: Duration Time(1~100 min)
• Input/Ouput
Fig. 4.5-40 Power Monitoring START Result
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Fig. 4.5-41 Power Monitoring Result
Fig. 4.5-42 Power Monitoring STOP Result
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4.6. No.7 Command
The function of BSM No.7 is to manage parameter information necessary for the
operator to operate No.7. It is divided into the following function: 1) signaling link
operation management and 2) the signaling link maintenance. The former is composed
of the following: signaling point management function, signaling link set management
function, signaling link management function, signaling terminal management function,
signaling data management function, and SCCP management function. The latter is
composed of signaling link and signaling terminal test, and signal link inhibit.
4.6.1. Related Command
4.6.1.1. Commands for Signaling Link Operation and Management
Function
Table 4.6-1 Commands related to Signaling Point Management
Commands
Description
DIS-SP-INFO
Signaling Point Information Display
CHG-OSP
Change of Intra-Switching Office Signaling Point
CHG-SP
Change of Signaling Point
Table 4.6-2 Commands related to Signaling Link Set
Commands
Description
ACT-LKS
Signaling Link Set Activation
DACT-LKS
Signaling Link Set Deactivation
Table 4.6-3 Commands related to Signaling Link
Commands
Description
CRET-SLK
Signaling Link Create
DEL-SLK
Signaling Link Deletion
ACT-SLK
Signaling Link Activation
DACT-SLK
Signaling Link Deactivation
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DIS-SLK-INFO
Signaling Link Information Display
INH-SLK
Signaling Link Barring
ALW-SLK
Signaling Link Barring Release
Table 4.6-4 Commands related to Signaling Terminal
Commands
Description
CRTE-ST
Signaling Terminal Definition(Create)
DEL-ST
Signaling Terminal Deletion
DIS-ST-INFO
Signaling Terminal Information Display
Table 4.6-5 Commands related to Signaling Data Link
Commands
Description
CRTE-SDLK
Signaling Data Link Definition(Create)
DEL-SDLK
Signaling Data Link Deletion
DIS-SDLK-INFO
Signaling Data Link Information Display
Table 4.6-6 Display Commands for SCCP Data
Commands
Description
DIS-SCCP-NET
SCCP Network Configuration Data Display
DIS-SCCP-LSS
SCCP Intra-Switching Office Sub-system Status Data
Display
Table 4.6-7 Signaling Link Status Display Commands
Commands
Description
DIS-SLK-STS
Signaling Link Status Display
DIS-ST-STS
Signaling Terminal Status Display
DIS-LKS-STS
Signaling Link Set Status Display
Table 4.6-8 Commands related to Timer
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Commands
Description
DIS-MTP2-TMR
MTP L2 Timer Display
CHG-MTP2-TMR
MTP L2 Timer Change
DIS-MTP3-TMR
MTP L3 Timer Display
CHG-MTP3-TMR
MTP L3 Timer Change
DIS-SCCP-TMR
SCCP Timer Change
CHG-SCCP-TMR
SCCP Timer Change
4.6.1.2. Commands for Signaling Link Maintenance Function
Table 4.6-9 Test Related Commands
Commands
Description
TEST-SLK
Signaling Link Test
TEST-ST
Signaling Terminal Test
DIS-No7-CYC
Test Cycle Display
CHG-No7-CYC
Test Cycle Change
Table 4.6-10 Status Suppression Related Commands
Commands
Description
DIS-INH-NO7
Displayable Status Message Display
ALW-N07-MSG
Status Message Display Possible
INH-NO7-MSG
Status Message Display Suppression
4.6.2. Signaling Link Operation Management Function
4.6.2.1. Signaling Point Information Display
Display the Status of Signaling Point of local Switching Office and that of IntraSwitching Office.
Command
DIS-SP-INFO:BSC_ID=a
a = BSC Number (00 ~ 11)
Input
DIS-SP-INFO:BSC_ID=0;
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Output
Fig. 4.6-1 Signaling Point Information Display
4.6.2.2. Change of Intra-Switching Office Signaling Point
It changes Information for Intra-Switching Office Signaling Point.
Command
CHG-OSP:BSC=a,OSP_NUM=b;
a = BSC Number( 00 ~ 11 )
b= OSP Number ( 00 ~ 65535 )
Input
CHG-OSP:BSC_ID=0,OSP_NUM=5;
Output
Fig. 4.6-2 Change of Intra-Switching Office Signaling Point
4.6.2.3. Change of Local Switching Office Signaling Point
It changes Signaling Point of Local Switching Office.
Command
CHG-SP-INFO:BSC_ID=a, SP_NUM=b
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b = SP Number ( 00 ~ 65535 )
Input
CHG-SP-INFO:BSC_ID=0,SP_NUM=1038
Output
Fig. 4.6-3 Change of Remote Switching Office Signaling Point
4.6.2.4. Activation of Signaling Link Set
Signaling Link Set indicates an aggregation of signaling links(Max 16 units). Activation
of Signaling Link Set is to put all the defined Signaling Links in a in-service status.
Command
ACT-LKS:BSC_ID=a
a = BSC Number ( 00 ~ 11)
Input
ACT-LKS:BSC_ID=0;
Output
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Fig. 4.6-4 Activation of Signaling Link Set
4.6.2.5. Deactivation of Signaling Link Set
Function that puts all the defined Signaling Links in out-of-service status
Command
DACT-LKS:BSC_ID=a;
a = BSC Number ( 00 ~ 01 )
Input
DACT-LKS:BSC_ID= a;
Output
Fig. 4.6-5 Deactivation of Signaling Link Set
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4.6.2.6. Signaling Link Generation
Signaling Link is the concept combing Signaling Data Link with Signaling Terminal. It
connects Intra-Switching Office Signaling Point to local switching Office Signaling
Point, and can define 16 units of Signaling Link. The definition of Signaling Link is used
to expand the number of Signaling Links. Before Signaling Link is defined, first of all,
Signaling Terminal and Signaling Data Link to be defined as Signaling Link should have
been defined.
Command
CRTE-SLK:BSC=a, SLK=b, VMP=c, TRK=d, TS_NO = e, ST_ID =f;
a = BSC Number ( 00 ~ 11 )
b = Signalling Link Code ( 00 ~ 15 )
c = VMP ( 00 ~ 07 )
d = Trunk Number ( 00 ~ 16 )
e = Time Slot Number ( 00 ~ 31)
f=
Input
Signalling Terminal ( 1 ~ 16)
CRTE-SLK:BSC=0, SLK =5, VMP = 00, TRK = 5 TS_NO=16, ST_ID = 5;
Output
Fig. 4.6-6 Signaling Link Create
4.6.2.7. Signaling Link Deletion
Function to delete the defined Signaling Link.Before the Signaling Link is deleted, the
corresponding Signaling Link should have been successfully deactivated.
Command
DEL-SLK:BSC_ID=a, SLC =b;
a = BSC Number ( 00 ~ 11 )
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b = Signalling Link Code
Input
( 00 ~ 15 )
DEL-SLK:BSC=0, SLC =3;
Output
Fig. 4.6-7 Deletion of Signaling Link
4.6.2.8. Signaling Link Activation
Function to activate a defined Signaling Link. Before activated, the corresponding
Signaling Link should have been successfully defined.
Command
ACT-SLK:BSC_ID=a, SLC;
a = BSC Number ( 00 ~ 11 )
b = Signalling Link Code ( 00 ~ 15 )
Input
ACT-SLK:BSC_ID=0, SLC=2;
Display
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Fig. 4.6-8 Activation of Signaling Link
4.6.2.9. Signaling Link Deactivation
Function to deactivate the activated Signaling Link.
Command
DACT-SLK:BSC=a, SLC=b;
a = BSC Number ( 00 ~ 11 )
b = Signalling Link Code ( 00 ~ 15 )
Input
DACT-SLK:BSC_ID=0, SLC = 2;
Output
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Fig. 4.6-9 Deactivation of Signaling Link
4.6.2.10. Signaling Link Information Display
Function to display information on Signaling Terminal, Signaling Data Link and Bit_Rate
connected to Signaling Link. It can display information on entire Signaling Links and on
Signaling Link designated.
Command
DIS-SLK-INFO:BSC_ID=a;
a = BSC Number ( 00 ~ 15 )
Input
DIS-SLK-INFO:BSC_ID = 0;
Output
Fig. 4.6-10 Signaling Link Information Display
4.6.2.11. Signaling Link Inhibition
It inhibits the use of presently defined Signaling Link.
Command
INH-SLK:BSC_ID=0, SLC =0;
a = BSC Number ( 00 ~ 11 )
b = Signalling Link Code ( 00 ~ 15 )
Input
INH-SLK:BSC_ID=0, SLC=0;
Output
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Fig. 4.6-11 Signaling Link Inhibit
4.6.2.12. Signaling Link Allow
Signaling Link Allow is a function that allows the management of Signaling Link
Status inhibited in the management of Signaling Link and then change to the status
of availability.
Command
ALW-SLK:BSC_ID=0, SLC =0;
a = BSC Number ( 00 ~ 11 )
b = Signalling Link Code ( 00 ~ 15 )
Input
ALW-SLK:BSC_ID = 0, SLC = 0;
Output
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Fig. 4.6-12 Signal Link Allow
4.6.2.13. Signal Terminal Addition
Signal Terminal indicates physical name of a Channel of STPA and can define 16 units
of Signaling Terminal at a maximum. It is used to expand Signaling Terminal.
Command
CRTE-ST:BSC=a, ST_ID=b;
a = BSC Number ( 00 ~ 15 )
b = Signalling Terminal ( 01 ~ 16 )
Input
CRTE-ST:BSC_ID=0,ST_ID = 4;
Output
Fig. 4.6-13 Signaling Terminal Generation
4.6.2.14. Signaling Terminal Deletion
It is used when Signaling Terminal H/W has problems or other faults occur. Before
Signaling Terminal is deleted, make sure that the corresponding Signaling Terminal is
connected to Signaling Link.
Command
DEL-ST:BSC=a, ST_ID =b;
a = BSC Number ( 00 ~ 11 )
b = Signalling Terminal ( 01 ~ 16 )
Input
DEL-ST:BSC_ID=0,ST_ID = 5;
Output
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Fig. 4.6-14 Signaling Terminal Deletion
4.6.2.15. Signaling Terminal Information Display
Function to display information about if it is linked with signaling link to a specific
Signaling Terminal or all the Signaling Terminals.
Command
DIS-ST-INFO:BSC_ID =a;
a = BSC Number ( 00 ~ 11 )
Input
DIS-ST-INFO:BSC_ID = 0;
Output
Fig. 4.6-15 Display of Signaling Terminal Information
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4.6.2.16. Signaling Data Link Addition
Signaling Data Link indicates Trunk Number to allocate as Signaling Link and is used
to expand Signaling Data Link.
Command
CRTE-SDLK: BSC =a, VMP_ID=b, TRK= c ,TS_NO=d;
a = BSC Number ( 00 ~ 11 )
b = VMP Number( 00 ~ 07 )
c = TRUNK Number( 00 ~ 16 )
d = Time Slot Number( 00 ~ 31 )
Input
CRTE-SDLK: BSC_ID=0, VMP_ID=1, TRK=0 , TS_NO=16;
Output
Fig. 4.6-16 Signaling Data Link Generation
4.6.2.17. Signaling Data Link Deletion
It is used when Signaling Data Link H/W is defective or other problems occur.Before
deleting the Signaling Data Link, make sure that corresponding Signaling Data Link is
allocated to Signal Link and then delete.
Command
DEL-SDLK;BSC=a, VMP=b, TRK=c, TS_NO=d;
a = BSC Number ( 00 ~ 11 )
b = VMP Number( 00 ~ 07 )
c = TRUNK Number( 00 ~ 16 )
d = Timer Slot Number( 00 ~ 31 )
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Input
DEL-SDLK:BSC=0, VMP=0, TRK= 5, TS_NO = 16;
Output
Fig. 4.6-17 Signaling Data Link Deletion
4.6.2.18. Signaling Data Link Information Display
Function to display information on the defined Signaling Data Link and the status
connected to Signaling Link.
Command
DIS-SDLK-INFO: BSC_ID = a;
a = BSC Number ( 00 ~ 11 )
Input
DIS-SDLK-INFO: BSC_ID=0;
Output
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Fig. 4.6-18 Signaling Data Link Information Display
4.6.2.19. SCCP Network Configuration Data Display
Function to display SCCP Network Configuration Data for Intra-Switching Office
Signaling Point, local Switching Office Signaling Point, and each sub-system.
Command
DIS-SCCP-NET:BSC_ID=a;
a = BSC Number ( 00 ~ 11 )
Input
DIS-SCCP-NET:BSC_ID=0;
Output
Fig. 4.6-19 SCCP Network Configuration Data Display
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