GSM BSS GBSS15.0
Abis Bypass Feature Parameter Description Issue
01
Date
2013-05-06
HUAWEI TECHNOLOGIES CO., LTD.
Copyright © Huawei Technologies Co., Ltd. 2013. All rights reserved. No part of this document may be reproduced or transmitted in any form or by any means without prior written consent of Huawei Technologies Co., Ltd.
Trademarks and Permissions and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd. All other trademarks and trade names mentioned in this document are the property of their respective holders.
Notice The purchased products, services and features are stipulated by the contract made between Huawei and the customer. All or part of the products, services and features described in this document may not be within the purchase scope or the usage scope. Unless otherwise specified in the contract, all statements, information, and recommendations in this document are provided "AS IS" without warranties, guarantees or representations of any kind, either express or implied. The information in this document is subject to change without notice. Every effort has been made in the preparation of this document to ensure accuracy of the contents, but all statements, information, and recommendations in this document do not constitute a warranty of any kind, express or implied.
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Website:
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Email:
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GSM BSS Abis Bypass Feature Parameter Description
Contents
Contents 1 About This Document..................................................................................................................1 1.1 Scope..............................................................................................................................................................................1 1.2 Intended Audience..........................................................................................................................................................1 1.3 Change History...............................................................................................................................................................1
2 Overview.........................................................................................................................................3 2.1 Introduction....................................................................................................................................................................3 2.2 Feature Support by NE...................................................................................................................................................4
3 Technical Description...................................................................................................................5 3.1 Key Technologies...........................................................................................................................................................5
4 Related Features.............................................................................................................................8 5 Engineering Guidelines...............................................................................................................9 5.1 Deploying Abis Bypass..................................................................................................................................................9 5.1.1 Deployment Requirements..........................................................................................................................................9 5.1.2 Feature Activation.....................................................................................................................................................10 5.1.3 Activation Observation..............................................................................................................................................15 5.1.4 Deactivation...............................................................................................................................................................15
6 Parameters.....................................................................................................................................17 7 Counters........................................................................................................................................19 8 Glossary.........................................................................................................................................20 9 Reference Documents.................................................................................................................21
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GSM BSS Abis Bypass Feature Parameter Description
1 About This Document
1
About This Document
1.1 Scope This document describes the GBFD-116601 Abis Bypass feature, including its technical description, feature dependencies, and engineering guidelines.
1.2 Intended Audience This document is intended for: l
Personnel who need to understand the Abis Bypass feature
l
Personnel who work with Huawei GSM products
1.3 Change History This section provides information about the changes in different document versions. There are two types of changes, which are defined as follows: l
Feature change: refers to a change in the Abis Bypass feature of a specific product version.
l
Editorial change: refers to a change in wording or the addition of information that was not described in the earlier version.
Document Issues The document issues are as follows: l
01 (2013-05-06)
l
Draft A (2013-02-27)
01 (2013-05-06) This is the first commercial release of GBSS15.0. Compared with Draft A (2013-02-27), Issue 01 (2013-05-06) has no change. Issue 01 (2013-05-06)
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GSM BSS Abis Bypass Feature Parameter Description
1 About This Document
Draft A (2013-02-27) This is a draft. Compared with Issue 01 (2012-04-28) of GBSS14.0, Draft A (2013-02-27) of GBSS15.0 incorporates the changes described in the following table. Change Type
Change Description
Parameter Change
Feature change
Added section "2.2 Feature Support by NE"
None
Editorial change
Added the following section and chapters:
None
l Chapter "4 Related Features" l Chapter "5 Engineering Guidelines"
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GSM BSS Abis Bypass Feature Parameter Description
2 Overview
2
Overview
2.1 Introduction In the chain topology, if a BTS on the network is powered off or a transmission link is faulty, services on all the BTSs following the faulty BTS or following the faulty transmission link are interrupted. The GTMU stops working if the BTS is powered off. For example, in a chain topology without the Abis Bypass as shown in Figure 2-1, if BTS 2 is powered off and its GTMU stops working, the services on both BTS 2 and BTS 3 are interrupted. Figure 2-1 Influence of BTS power failure without Abis Bypass
Abis Bypass is introduced in the network with the chain topology to avoid the problem of service interruption on other BTSs upon the power failure of one BTS. With the Abis Bypass feature, a bypass transmission link is formed within the BTS that is powered off to transfer data to other BTSs following the faulty BTS on the chain. Therefore, the power failure of a BTS will not affect the normal services on the subsequent BTSs on the chain. For example, in a chain topology with Abis Bypass as shown in Figure 2-2, the bypass board within BTS 2 provides a bypass transmission link if the GTMU stops working upon power failure of BTS 2. In this case, only the services on BTS 2 are interrupted without affecting the services on BTS 3.
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GSM BSS Abis Bypass Feature Parameter Description
2 Overview
Figure 2-2 Influence of BTS power failure with Abis Bypass
The BSS uses bypass loopback upon power failure to identify whether a failure is due to a faulty transmission link or the BTS power failure.
2.2 Feature Support by NE Table 2-1 Feature support by NE Feature Name
BSC6900
BSC6910
GBTS
eGBTS
Abis Bypass
√
√
√
×
NOTE
√ indicates that the NE supports this feature. × indicates that the NE does not support this feature.
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GSM BSS Abis Bypass Feature Parameter Description
3 Technical Description
3
Technical Description
3.1 Key Technologies Bypass Upon BTS Power Failure For BTS3012 series, if a BTS is powered on, switches K1 and K2 are connected to contacts 1 and 2, respectively. When this occurs, data is transmitted to the DTMU. If the BTS is powered off, switches K1 and K2 are connected to contact 1' and 2', respectively. When this occurs, a bypass is formed within the DABB. Figure 3-1 shows the principle of bypass upon BTS failure. Figure 3-1 Bypass upon BTS power failure
For BTS3900 series, the Abis bypass function is implemented by setting DIP switches S4 and S5 on the GTMU. l
When the Abis interface uses TDM transmission, DIP switches S4 and S5 must support this function.
l
When the Abis interface uses IP over E1 transmission, DIP switch S4 must support this function.
Table 3-1 and Table 3-2 describe the bits of DIP switches S4 and S5, respectively.
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GSM BSS Abis Bypass Feature Parameter Description
3 Technical Description
Table 3-1 Bits of DIP switch S4 DIP Switch
S4
Bit Status of S4
Remarks
BIT1
BIT2
BIT3
BIT4
ON
ON
ON
ON
Abis Bypass is supported.
OFF
OFF
OFF
OFF
Abis Bypass is not supported.
If the bits are set to other values, Abis Bypass is unavailable.
Table 3-2 Bits of DIP switch S5 DIP Switch
S5
Bit Status of S5
Remarks
BIT1
BIT2
BIT3
BIT4
ON
ON
ON
ON
Abis Bypass is not supported.
OFF
ON
ON
OFF
The firstlevel BTSs support Abis Bypass.
ON
OFF
ON
OFF
The secondlevel BTSs support Abis Bypass.
OFF
OFF
ON
OFF
The thirdlevel BTSs support Abis Bypass.
ON
ON
OFF
OFF
The fourthlevel BTSs support Abis Bypass.
OFF
ON
OFF
OFF
The fifthlevel BTSs support Abis Bypass.
If the bits are set to other values, Abis Bypass is unavailable.
If Abis Bypass is activated and the Abis interface uses IP over E1 transmission: Issue 01 (2013-05-06)
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GSM BSS Abis Bypass Feature Parameter Description
3 Technical Description
1.
When an upper-level BTS experiences a power failure, call drop or mute voice problems will be present on lower-level BTSs for about 5s. As shown in Figure 3-2, when BTS 1 is powered off, the PPP or MLPPP link between BTS 1 and BTS 2 is interrupted. BTS 2 then renegotiates with the BSC to reestablish a PPP or MLPPP link. After the renegotiation is complete and an OML is reestablished, the services on the lower-level BTSs are restored.
2.
When the upper-level BTS is powered on again, the services on lower-level BTSs are interrupted. As shown in Figure 3-2, when BTS 1 is powered on again, the PPP or MLPPP link between BTS 2 and the BSC is interrupted. BTS 2 then renegotiates with BTS 1 to reestablish a PPP or MLPPP link. After the renegotiation is complete and an OML is reestablished, the services on the lower-level BTSs are restored. According to laboratory test results, the services on the adjacent lower-level BTS (BTS 2 in this example) are interrupted for 4 to 15 minutes and the service interruption duration increases by 1 to 2 minutes for the BTS of a lower level (BTS 3 in this example).
To enable the Abis bypass function for cascaded BTSs, you need to set ABISBYPASSMODE (BSC6900,BSC6910) to TRUE(Support) for each cascaded BTS.
Loopback Upon BTS Power Failure In a chain topology as shown in Figure 3-2: l
If the transmission link between BTS 1 and BTS 2 is faulty, BTS 2 and all the following BTSs cannot be observed on the BSC.
l
If BTS 2 is powered off, only BTS 2 is not observed on the BSC.
Figure 3-2 Schematic view of the BSS configured with bypass boards
The loopback function upon power failure helps to identify the BTS power failure from the transmission link fault. The function, however, is not applicable to the last BTS on the chain. For the last BTS on the chain, set the DIP switches on its bypass board so that the transmission link through the last BTS is short-circuited when the BTS is powered off. Therefore, the loopback test can be performed on the BSC side to locate the fault.
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GSM BSS Abis Bypass Feature Parameter Description
4 Related Features
4
Related Features
Table 4-1 Related features Feature
Prerequisite Feature
Mutually Exclusive Feature
Affected Feature
Abis Bypass
None
l GBFD-116701 16Kbit RSL and OML on Abis Interface
None
l GBFD-118601 Abis over IP l GBFD-118401 Abis Transmission Optimization l GBFD-117702 BTS Local Switch l GBFD-117801 Ring Topology l GBFD-117301 Flex Abis
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GSM BSS Abis Bypass Feature Parameter Description
5 Engineering Guidelines
5
Engineering Guidelines
5.1 Deploying Abis Bypass 5.1.1 Deployment Requirements Table 5-1 Deployment requirements Aspect
Requirement
Related features
See chapter "4 Related Features."
BSC
None
BTS
l The BTS3900B and BTS3900E do not support this feature. l The BTS3006C and BTS3002E are configured with the DMCM board and support Abis Bypass only in TDM transmission mode. l The BTS3012 (DTRU/QTRU) and BTS3012AE (DTRU/QTRU) are configured with the DABB board and support Abis Bypass only in TDM transmission mode.
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GSM networking
None
MS
None
MSC
None
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GSM BSS Abis Bypass Feature Parameter Description
5 Engineering Guidelines
Aspect
Requirement
License
The license controlling this feature has been activated. For details on how to activate the license, see License Management Feature Parameter Description. For details about license items, see License Control Item Description.
Others
When the Abis interface uses IP over E1 transmission: l The BTS uses the logical IP address for communication. l The local and peer IP addresses must be set to 0.0.0.0 for the PPP links or MLPPP link groups over the port that connects the BTS to the BSC or upper-level BTS. The physical transmission link is connected to the GTMU board. A maximum of five levels of BTSs can be cascaded in Abis Bypass.
5.1.2 Feature Activation Using the LMT On the BSC LMT, perform the following steps: Step 1 Run the ADD BTS command to add an upper-level BTS. In this step, set Abis ByPass Mode to TRUE(Support). Step 2 Run the ADD BTS command to add a lower-level BTS. In this step, set Abis ByPass Mode to TRUE(Support). Step 3 Run the ADD BTSCONNECT command to connect the lower-level BTS to the upper-level BTS. Repeat this step for each cascaded BTS and set the following parameters: l Set Dest Node Type to BTS. l Set Dest Father BTS Port No. to the number of the port that connects the lower-level BTS to the upper-level BTS. NOTE
A BTS connects its upper-level BTS or the BSC through port 0 and connects its lower-level BTS through port 2.
Step 4 (Optional) If the Abis interface uses IP over E1 transmission and the type of links carried on the E1/T1 link is PPP, add PPP links by performing the following steps: NOTE
Local IP address and Peer IP address must be set to 0.0.0.0 for PPP links over the port that connects the BTS to the BSC or upper-level BTS.
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GSM BSS Abis Bypass Feature Parameter Description
5 Engineering Guidelines
1.
Run the ADD PPPLNK command to add PPP links on the BSC side.
2.
Run the ADD BTSPPPLNK command to add PPP links on the BTS side.
Step 5 (Optional) If the Abis interface uses IP over E1 transmission and the type of links carried on the E1/T1 link is MLPPP link group, add MLPPP link groups by performing the following steps: NOTE
Local IP address and Peer IP address must be set to 0.0.0.0 for MLPPP link groups over the port that connects the BTS to the BSC or upper-level BTS.
1.
Run the ADD MPGRP command to add MLPPP link groups on the BSC side.
2.
Run the ADD MPLNK command to add MLPPP links on the BSC side.
3.
Run the ADD BTSMPGRP command to add MLPPP link groups on the BTS side.
4.
Run the ADD BTSMPLNK command to add MLPPP links on the BTS side.
----End
MML Examples //The following uses Abis over TDM transmission as an example. //BSC6900 ADD BTS: BTSID=0, BTSNAME="3900", BTSTYPE=BTS3900_GSM, SEPERATEMODE=SUPPORT, SERVICEMODE=TDM, ABISBYPASSMODE=TRUE, SRANMODE=SUPPORT; ADD BTS: BTSID=1, BTSNAME="3900-1", BTSTYPE=BTS3900_GSM, SEPERATEMODE=SUPPORT, SERVICEMODE=TDM, ABISBYPASSMODE=TRUE, SRANMODE=SUPPORT; //BSC6910 ADD BTS: BTSID=0, BTSNAME="3900", BTSTYPE=BTS3900_GSM, SERVICEMODE=TDM, ABISBYPASSMODE=TRUE; ADD BTS: BTSID=1, BTSNAME="3900-1", BTSTYPE=BTS3900_GSM, SERVICEMODE=TDM, ABISBYPASSMODE=TRUE; ADD BTSCONNECT: IDTYPE=BYID, BTSID=1, INPN=0, DESTNODE=BTS, UPBTSIDTYPE=BYID, UPBTSID=0, FPN=2;
Using the CME NOTE
When configuring the Abis Bypass feature on the CME, you must perform a single configuration first, and then perform batch modifications if required. You must perform a single configuration for a parameter before batch modifications of the parameter. You are advised to perform batch modifications before logging out of the parameter setting interface.
Step 1 Configure a single object on the CME. (CME single configuration) Set parameters on the CME configuration interface according to the operation sequence described in Table 5-2. For the method of performing the CME single configuration, see the CME Single Configuration Operation Guide. Issue 01 (2013-05-06)
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GSM BSS Abis Bypass Feature Parameter Description
5 Engineering Guidelines
Step 2 (Optional) Modify objects in batches on the CME. (CME batch modification center) icon on the To modify objects, such as BSCs, BTSs, cells, and TRXs, in batches, click the CME configuration interface to start the batch modification wizard. For the method of performing batch modifications through the CME batch modification center, press F1 on the wizard interface to obtain online help. ----End Table 5-2 Configuring the parameters on the CME SN
Managed Object (MO)
NE
Parameter Name
Parameter ID
Supports CME Batch Modificati on Center
1
BTS
BSC6900/ BSC6910
Abis Bypass Mode
ABISBYPA SSMODE
No
2
BTS
BSC6900/ BSC6910
Abis Bypass Mode
ABISBYPA SSMODE
No
3
BTSCONN ECT
BSC6900/ BSC6910
BTS In Port No.
INPN
No
In Port Cabinet No.
INCN
In Port Subrack No.
INSRN
In Port Slot No.
INSN
Dest Node Type
DESTNOD E
Subrack No.
SRN
Slot No.
SN
Port No.
PN
Board type
BRDTYPE
4
PPPLNK NOTE Configure PPP links for the BSC if the BSC works in IP over E1 mode and the type of links carried on the E1/T1 link is PPP.
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BSC6900/ BSC6910
No
Logic LGCAPPTY function type PE PPP sub-link No.
PPPLNKN
E1T1 port No.
DS1
Bearing time slot
TSBITMAP
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GSM BSS Abis Bypass Feature Parameter Description
SN
Managed Object (MO)
BTSPPPLN K
5 Engineering Guidelines
NE
BSC6900/ BSC6910
NOTE Configure PPP links for the BTS if the BTS works in IP over E1 mode and the type of links carried on the E1/T1 link is PPP.
5
MPGRP NOTE Configure MLPPP link groups for the BSC if the BSC works in IP over E1 mode and the type of links carried on the E1/T1 link is MLPPP link group.
MPLNK
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BSC6900/ BSC6910
BSC6900/ BSC6910
Parameter Name
Parameter ID
Local IP address
LOCALIP
Subnet mask
MASK
Peer IP address
PEERIP
PPP link No.
PPPLNKN
Bearing time slot
TSBITMAP
Port No.
PN
Cabinet No.
CN
Subrack No.
SRN
Slot No.
SN
Subnet mask
MASK
Peer IP address
PEERIP
Board type
BRDTYPE
Supports CME Batch Modificati on Center
No
No
Logic LGCAPPTY function type PE MLPPP Group No.
MPGRPN
MP type
MPTYPE
Local IP address
LOCALIP
Subnet mask
MASK
Peer IP address
PEERIP
Board type
BRDTYPE
MP Group No.
MPGRPN
PPP sub-link No.
PPPLNKN
E1T1 port No.
DS1
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No
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GSM BSS Abis Bypass Feature Parameter Description
SN
Managed Object (MO)
5 Engineering Guidelines
NE
NOTE Configure MLPPP links for the BSC if the BSC works in IP over E1 mode and the type of links carried on the E1/T1 link is MLPPP link group.
BTSMPGRP NOTE Configure MLPPP link groups for the BTS if the BTS works in IP over E1 mode and the type of links carried on the E1/T1 link is MLPPP link group.
BTSMPLN K NOTE Configure MLPPP links for the BTS if the BTS works in IP over E1 mode and the type of links carried on the E1/T1 link is MLPPP link group.
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BSC6900/ BSC6910
BSC6900/ BSC6910
Parameter Name
Parameter ID
Bearing time slot
TSBITMAP
MLPPP Group No.
MPGRPN
Cabinet No.
CN
Subrack No.
SRN
Slot No.
SN
Local IP address
LOCALIP
Subnet mask
MASK
Peer IP address
PEERIP
MLPPP Group No.
MPGRPN
PPP link No.
PPPLNKN
Port No.
PN
Cabinet No.
CN
Subrack No.
SRN
Slot No.
SN
Bearing time slot
TSBITMAP
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Supports CME Batch Modificati on Center
No
No
14
GSM BSS Abis Bypass Feature Parameter Description
5 Engineering Guidelines
5.1.3 Activation Observation Step 1 Power off the upper-level BTS. Step 2 On the BSC LMT, click the Device Maintenance tab and enter the lower-level BTS maintenance page. Step 3 Select a BTS that is configured with GPS clock synchronization. Then, right-click the GTMU board and choose Query Board Information from the shortcut menu. Step 4 In the displayed dialog box, click Basic Information. Expected result: If the basic information about the GTMU board is displayed and the OML Faulty message is not displayed, Abis Bypass has been activated. ----End
5.1.4 Deactivation Using the LMT NOTE
Before performing the following step, run the DEA BTS command to deactivate the BTS if it has been activated.
Step 1 On the BSC LMT, run the MOD BTS command with Abis ByPass Mode set to FALSE(Not Support). ----End
MML Examples MOD BTS: IDTYPE=BYID, BTSID=0, ABISBYPASSMODE=FALSE;
Using the CME NOTE
When configuring the Abis Bypass feature on the CME, you must perform a single configuration first, and then perform batch modifications if required. You must perform a single configuration for a parameter before batch modifications of the parameter. You are advised to perform batch modifications before logging out of the parameter setting interface.
Step 1 Configure a single object on the CME. (CME single configuration) Set parameters on the CME configuration interface according to the operation sequence described in Table 5-3. For the method of performing the CME single configuration, see the CME Single Configuration Operation Guide. Step 2 (Optional) Modify objects in batches on the CME. (CME batch modification center) icon on the To modify objects, such as BSCs, BTSs, cells, and TRXs, in batches, click the CME configuration interface to start the batch modification wizard. For the method of performing batch modifications through the CME batch modification center, press F1 on the wizard interface to obtain online help. ----End Issue 01 (2013-05-06)
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GSM BSS Abis Bypass Feature Parameter Description
5 Engineering Guidelines
Table 5-3 Configuring the parameter on the CME
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SN
MO
NE
Parameter Name
Parameter ID
Supports CME Batch Modificati on Center
1
BTS
BSC6900/ BSC6910
Abis Bypass Mode
ABISBYPA SSMODE
No
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GSM BSS Abis Bypass Feature Parameter Description
6 Parameters
6
Parameters
Table 6-1 Parameter description Parameter ID
NE
MML Command
Feature ID
Feature Name
Description
ABISBYPASS MODE
BSC6900
ADD BTS
GBFD-116601
Abis Bypass
Meaning:Wheth er to enable the BTS to support the bypass function. This parameter is ineffective for BTSs in HDLC mode or IP Over FE mode. eGBTS do not support this parameter. When "ISCONFIGED RING" is set to YES or "MPMODE" is set to MODE16K, the BTS does not support Abis bypass.
MOD BTS
GUI Value Range:TRUE (Support), FALSE(Not Support) Unit:None
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GSM BSS Abis Bypass Feature Parameter Description
Parameter ID
NE
MML Command
6 Parameters
Feature ID
Feature Name
Description Actual Value Range:TRUE, FALSE Default Value:FALSE (Not Support)
ABISBYPASS MODE
BSC6910
ADD BTS
GBFD-116601
Abis Bypass
MOD BTS
Meaning:Wheth er to enable the BTS to support the bypass function. This parameter is ineffective for BTSs IP Over FE mode. eGBTS do not support this parameter. When "ISCONFIGED RING" is set to YES or "MPMODE" is set to MODE16K, the BTS does not support Abis bypass. GUI Value Range:TRUE (Support), FALSE(Not Support) Unit:None Actual Value Range:TRUE, FALSE Default Value:FALSE (Not Support)
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GSM BSS Abis Bypass Feature Parameter Description
7 Counters
7
Counters
There are no specific counters associated with this feature.
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GSM BSS Abis Bypass Feature Parameter Description
8 Glossary
8
Glossary
For the acronyms, abbreviations, terms, and definitions, see Glossary.
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GSM BSS Abis Bypass Feature Parameter Description
9 Reference Documents
9
Reference Documents
There are no specific reference documents associated with this feature.
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