GSM BSS GBSS17.1
DTM Feature Parameter Description Issue
01
Date
2015-04-20
HUAWEI TECHNOLOGIES CO., LTD.
Copyright © Huawei Technologies Co., Ltd. 2017. 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.
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GSM BSS DTM Feature Parameter Description
Contents
Contents 1 Introduction.................................................................................................................................... 1 1.1 Scope.............................................................................................................................................................................. 1 1.2 Intended Audience.......................................................................................................................................................... 1 1.3 Change History............................................................................................................................................................... 1
2 Overview......................................................................................................................................... 3 2.1 Introduction.................................................................................................................................................................... 4 2.2 Benefits........................................................................................................................................................................... 4 2.3 NEs Supporting the Feature............................................................................................................................................4
3 Technical Description...................................................................................................................5 3.1 DTM Multislot Capability.............................................................................................................................................. 5 3.2 DTM Channel Allocation Algorithm............................................................................................................................. 8 3.3 DTM-Related Procedures............................................................................................................................................. 11 3.3.1 GPRS Signaling Transmission on the Main DCCH in Dedicated Mode...................................................................11 3.3.2 DTM Establishment...................................................................................................................................................12 3.3.3 DTM Release............................................................................................................................................................. 14 3.3.4 Handover in DTM Mode........................................................................................................................................... 15 3.3.5 Cell Update, RA Update, and LA Update in DTM Mode......................................................................................... 16 3.3.6 Paging Coordination.................................................................................................................................................. 17
4 Related Features...........................................................................................................................18 4.1 GBFD-114151 DTM.....................................................................................................................................................18 4.2 GBFD-119403 Class11 DTM....................................................................................................................................... 20 4.3 GBFD-119404 HMC DTM.......................................................................................................................................... 22
5 Network Impact........................................................................................................................... 25 5.1 System Capability.........................................................................................................................................................25 5.2 Network Performance...................................................................................................................................................25
6 Engineering Guidelines............................................................................................................. 27 6.1 When to Use DTM....................................................................................................................................................... 27 6.2 Required Information................................................................................................................................................... 27 6.3 Planning........................................................................................................................................................................ 27 6.4 Deploying DTM........................................................................................................................................................... 27 6.4.1 Deploying Requirements........................................................................................................................................... 28 Issue 01 (2015-04-20)
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Contents
6.4.2 Activation.................................................................................................................................................................. 28 6.4.3 Activation Observation..............................................................................................................................................29 6.4.4 Deactivation...............................................................................................................................................................30 6.5 Deploying Class11 DTM.............................................................................................................................................. 31 6.5.1 Deploying Requirements........................................................................................................................................... 31 6.5.2 Activation.................................................................................................................................................................. 32 6.5.3 Activation Observation..............................................................................................................................................33 6.5.4 Deactivation...............................................................................................................................................................33 6.6 Deploying HMC DTM................................................................................................................................................. 34 6.6.1 Deploying Requirements........................................................................................................................................... 34 6.6.2 Activation.................................................................................................................................................................. 35 6.6.3 Activation Observation..............................................................................................................................................36 6.6.4 Deactivation...............................................................................................................................................................37 6.7 Performance Monitoring...............................................................................................................................................38 6.8 Parameter Optimization................................................................................................................................................ 43 6.9 Troubleshooting............................................................................................................................................................ 44
7 Parameters..................................................................................................................................... 45 8 Counters........................................................................................................................................ 64 9 Glossary......................................................................................................................................... 91 10 Reference Documents............................................................................................................... 92
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GSM BSS DTM Feature Parameter Description
1 Introduction
1
Introduction
1.1 Scope This document describes dual transfer mode (DTM), including its technical principles, related features, network impact, and engineering guidelines. This document covers the following features: l
GBFD-114151 DTM
l
GBFD-119403 Class11 DTM
l
GBFD-119404 HMC DTM
1.2 Intended Audience This document is intended for personnel who: l
Need to understand the features described herein
l
Work with Huawei 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 Changes in features of a specific product version
l
Editorial change Changes in wording or addition of information that was not described in the earlier version
01 (2015-04-20) This issue does not include any changes. Issue 01 (2015-04-20)
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GSM BSS DTM Feature Parameter Description
1 Introduction
Draft A (2015-01-15) Compared with Issue 02 (2014-12-30) of GBSS16.0, Draft A (2015-01-15) of GBSS17.1 includes the following changes. Change Type
Change Description
Parameter Change
Feature change
Modified 3.2 DTM Channel Allocation Algorithm.
Added the following parameters: DtmTCHAllocOptSw(BSC6 900,BSC6910) BssLsOptInDtmSw(BSC69 00,BSC6910)
Editorial change
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None
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None
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GSM BSS DTM Feature Parameter Description
2 Overview
2
Overview
In UMTS networks, circuit switched (CS) and packet switched (PS) services are processed in parallel, such as web browsing during a call. As defined in 3GPP Technical Specifications, DTM is used to support simultaneous CS and PS services in GSM or Enhanced Data rates for GSM Evolution (EDGE) networks. The DTM feature has been introduced in GSM networks to provide services similar to those provided by UMTS networks (3G-like services), attract more subscribers, and increase the average revenue per user (ARPU) for operators.
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GSM BSS DTM Feature Parameter Description
2 Overview
2.1 Introduction DTM is a standard function defined in 3GPP Technical Specifications and is applicable to class A MSs in GSM networks. DTM supports dual transfer mode in addition to dedicated mode, idle mode, packet idle mode, and packet transfer mode. A DTM-capable MS can have simultaneous CS and PS connections and process CS and PS services simultaneously. Subscribers can therefore send images or browse web pages during a call.
2.2 Benefits In UMTS networks, CS and PS services are processed in parallel. DTM enables GSM subscribers to enjoy services similar to those provided by UMTS networks. In addition, a GSM network can supplement a UMTS network in terms of coverage. Based on common DTM, Class 11 DTM doubles the uplink rate. Based on common DTM, HMC DTM triples the uplink and downlink rates. After DTM is enabled, the following applications can be introduced to create new revenue streams for GSM operators: l
Videophone Subscribers can enjoy uninterrupted data services, for which guaranteed bit rates (GBRs) are ensured, during a speech service.
l
Watching or downloading streaming programs Speech interaction or answering a call is now possible during web browsing. Subscribers may require circuit switched (CS) services while watching streaming programs. With DTM enabled, CS services can be performed without interrupting the streaming programs.
l
Sending images or videos during a call
2.3 NEs Supporting the Feature Table 2-1 NEs supporting the feature Feature
BSC6900
BSC6910
GBTS
eGBTS
DTM
√
√
√
√
Class11 DTM
√
√
√
√
HMC DTM
√
√
√
√
NOTE
√ indicates that the NE supports this feature. × indicates that the NE does not support this feature.
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GSM BSS DTM Feature Parameter Description
3 Technical Description
3
Technical Description
3.1 DTM Multislot Capability The DTM multislot capabilities are independent of the currently defined 3GPP TS 45.002 multislot capabilities. Different MSs may have different DTM capabilities. When EGPRS or EGPRS2 is supported, the DTM multislot capability for EGPRS or EGPRS2 operation is indicated separately from the DTM multislot capability for GPRS operation. According to 3GPP TS 43.055, the DTM multislot classes are classes 5, 6, 9, 10, 11, 31-33, 36-38, and 41-44, and class 31 and higher classes are called HMC DTM. The higher the DTM multislot classes supported by the MSs and network devices, the higher the uplink and downlink data rates that can be supported. Incremental support is defined in the protocol to reduce the length of coding. With this support, an MS that supports a certain multislot class supports the less restrictive DTM multislot classes. Figure 3-1 and Figure 3-2 describes the incremental support of DTM multislot classes and HMC DTM multislot classes, respectively. The blue boxes indicate the DTM multislot classes, and the arrow indicates the compatibility direction. For example, if an MS supports class 11, the MS must support classes 10, 9, 6, and 5. If an MS supports class 33, the MS must support classes 32, 31, 11, 10, 9, 6 and 5. Figure 3-1 Incremental support of DTM multislot classes
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Figure 3-2 Incremental support of HMC DTM multislot classes
NOTE
In Figure 3-1 and Figure 3-2: l Rx: Maximum number of downlink timeslots for a multislot class l Tx: Maximum number of uplink timeslots for a multislot class l Sum: Maximum number of concurrent uplink and downlink timeslots for a multislot class
Huawei BSCs differentiate channel allocation depending on DTM multislot classes: l
DTM channel allocation: intended for classes 5, 6, 9, and 10
l
Class 11 DTM channel allocation
l
HMC DTM channel allocation: intended for classes 31, 32, and 33
DTM Channel Allocation When SUPPORTDTM(BSC6900,BSC6910) is set to SUPPORT(Support), the BSC can allocate channels to MSs of DTM multislot classes 5, 6, 9, and 10. Class 6 maps onto DTM classes 5. Class 10 and higher map onto DTM class 9. For an MS of DTM class 5, the BSC can allocate only one PDCH on the uplink or downlink, that is, TCH + 1 PDCH (uplink) + 1 PDCH (downlink). For an MS of DTM class 9, the BSC can allocate a maximum of two PDCHs on the downlink, that is, TCH + 1 PDCH (uplink) + 2 PDCHs (downlink). TCH refers to traffic channels and PDCH refers to packet data channels. Figure 3-3 shows the DTM multislot models for classes 5, 6, 9, and 10.
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Figure 3-3 DTM Multislot models for classes 5, 6, 9, and 10
Class 11 DTM Channel Allocation When CLASS11DTM(BSC6900,BSC6910) is set to SUPPORT(Support), the BSC can allocate channels to MSs of DTM multislot class 11. In addition to DTM multislot models for classes 5 and 9, an MS of DTM class 11 supports the following channel combination: TCH + 1 PDCH (downlink) + 2 PDCHs (uplink). An MS of DTM multislot class 11 better supports uplink-preferred services, such as uploading videos for sharing. Figure 3-4 shows the DTM multislot models for class 11. Figure 3-4 DTM multislot models for class 11 (uplink preferred services with the EDA feature enabled)
NOTE
After the EDA feature is enabled, the network allocates multiple uplink timeslots to an MS, and the MS monitors all the PDCHs corresponding to the allocated timeslots. If the MS detects that an uplink state flag (USF) is allocated to itself on an allocated PDCH, the MS can use the uplink blocks corresponding to this PDCH and other allocated PDCHs with larger timeslot numbers.
The DTM multislot models for class 11 are the same as those for classes 9 and 10 when any of the following conditions is met: l
Downlink-preferred services are performed.
l
Neutral services are performed.
l
The EDA feature is disabled.
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3 Technical Description
HMC DTM Channel Allocation Class 31 and higher are called HMC DTM. When HMCDTM(BSC6900,BSC6910) is set to SUPPORT(Support),the BSC can allocate channels to HMC DTM services. An MS in a call can occupy a maximum of three PDCHs on either the uplink or the downlink. That is, the channels allocated to the MS can be TCH + 3 PDCHs (downlink) + 1 PDCH (uplink) or TCH + 1 PDCH (downlink) + 3 PDCHs (uplink). Figure 3-5 shows the DTM multislot models for class 31. Figure 3-5 DTM multislot models for class 31
Figure 3-6 shows the DTM multislot models for classes 32 and 33. Figure 3-6 DTM multislot models for classes 32 and 33 (uplink preferred services with the EDA feature enabled)
The DTM multislot models for classes 32 and 33 are the same as those for class 31 when any of the following conditions is met: l
Downlink-preferred services are performed.
l
Neutral services are performed.
l
The EDA feature is disabled.
3.2 DTM Channel Allocation Algorithm With DTM, the BSC can allocate channels to an MS in the combination TCH/F+PDCH or TCH/H+PDCH, where TCH/H refers to half-rate TCHs, and TCH/F refers to full-rate TCHs. Channel allocation in DTM mode must be in compliance with the DTM multislot capability of an MS. DTM CS services can adopt any of the supported speech coding schemes. Issue 01 (2015-04-20)
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After obtaining the DTM multislot capability of an MS, the BSC allocates channels to the MS based on the following principles: l
The BSC chooses dynamic or static PDCHs and their adjacent TCHs as a candidate channel group according to the DTM multislot capability of the MS. Even if the number of PDCHs in the channel group does not meet the DTM multislot capability, the BSC still regards the channel group as a candidate channel group. TCHs in the candidate channel group can be idle or occupied by MSs that will enter DTM mode.
l
If the BSC finds occupied TCHs and their adjacent available PDCHs, the BSC preferentially allocates these TCHs and PDCHs to the MS.
l
If the BSC finds only idle TCHs and their adjacent PDCHs, the BSC preferentially allocates the channel group with the most PDCHs. If an MS is processing CS services before entering DTM mode, the BSC transfers the ongoing CS services to idle TCHs by using the DTM assignment procedure rather than the handover procedure.
l
If DTMOptiSwitch(BSC6900,BSC6910) is set to ON(On) and adjacent PDCHs do not meet the DTM multislot capability or no PDCH is adjacent to TCHs, the BSC dynamically converts idle TCHs to PDCHs. The BSC then allocates the PDCHs that meet the DTM multislot capability to the MS for DTM services. If multiple channel groups meet the DTM multislot capability, the BSC preferentially allocates the TCH occupied by the MS and PDCHs adjacent to this TCH.
l
l
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When DTMOptiSwitch(BSC6900,BSC6910) is set to ON(On), the BSC allocates channels for DTM services according to the policies specified by the DTMCSAllocPolicy(BSC6900,BSC6910) parameter. The weights of factors indicated by the values of DTMCSAllocPolicy(BSC6900,BSC6910) are as follows: –
DTMMULTI(Allocation): Multislot capability requirement of DTM PS services > Capacity requirement of DTM CS services > Quality requirement of DTM CS services > Management requirement of DTM CS services
–
CAPACITY(Capacity): Capacity requirement of DTM CS services > Multislot capability requirement of DTM PS services > Quality requirement of DTM CS services > Management requirement of DTM CS services
–
QUALITY(Quality): Quality requirement of DTM CS services > Capacity requirement of DTM CS services > Multislot capability requirement of DTM PS services > Management requirement of DTM CS services
–
MANAGEMENT1(Management 1): Management requirement of DTM CS services > Multislot capability requirement of DTM PS services > Capacity requirement of DTM CS services > Quality requirement of DTM CS services
–
MANAGEMENT2(Management 2): Management requirement of DTM CS services > Capacity requirement of DTM CS services > Quality requirement of DTM CS services > Multislot capability requirement of DTM PS services
When DTMOptiSwitch(BSC6900,BSC6910) is set to ON(On), the BSC preferentially allocates TCH/Hs or TCH/Fs for DTM services according to the policies specified by the DTMCSVersionPolicy(BSC6900,BSC6910) parameter. If the BSC preferentially allocates TCH/Hs for DTM services, the DTM service capacity can be improved. If the BSC preferentially allocates TCH/Fs for DTM services, the speech quality of DTM services can be ensured. If the policies specified by DTMCSVersionPolicy(BSC6900,BSC6910) conflict with those specified by other parameters, the BSC follows the policies specified by other parameters. For example, if the core network does not support TCH/Hs but DTMCSVersionPolicy(BSC6900,BSC6910) specifies that TCH/Hs are preferred, the configuration of DTMCSVersionPolicy(BSC6900,BSC6910) does not take effect. If Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
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GSM BSS DTM Feature Parameter Description
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TCH/Hs are required to improve cell capacity but DTMCSVersionPolicy(BSC6900,BSC6910) specifies that TCH/Fs are preferred, the configuration of DTMCSVersionPolicy(BSC6900,BSC6910) does not take effect. l
l
When DTMOptiSwitch(BSC6900,BSC6910) is set to ON(On) in a concentric cell: –
If the BSC expects to allocate channels in the overlaid (or underlaid) subcell for both CS and PS services, the BSC preferentially allocates these channels for DTM services according to the subcell in which TCHs are allocated for CS services.
–
If the BSC expects to allocate channels in the overlaid subcell for CS services and channels in the underlaid subcell for PS services, the BSC rejects the DTM requests from the MS and processes only CS services. This also occurs if the BSC expects to allocate channels in the underlaid subcell for CS services and channels in the overlaid subcell for PS services.
When DTMOptiSwitch(BSC6900,BSC6910) is set to OFF(Off) and IUODTMAccPolicy(BSC6900,BSC6910) is set to CSLayerOnly(CS Layer Only) in a concentric cell: –
If the BSC expects to allocate channels in the overlaid (or underlaid) subcell for both CS and PS services, the BSC preferentially allocates these channels for DTM services according to the subcell in which TCHs are allocated for CS services.
–
If the BSC expects to allocate channels in the overlaid subcell for CS services and channels in the underlaid subcell for PS services, the BSC rejects the DTM requests from the MS and processes only CS services. This also occurs if the BSC expects to allocate channels in the underlaid subcell for CS services and channels in the overlaid subcell for PS services.
l
When DTMOptiSwitch(BSC6900,BSC6910) is set to OFF(Off) and IUODTMAccPolicy(BSC6900,BSC6910) is set to AllLayers(All Layers) in a concentric cell, the BSC allocates channels for DTM services regardless of the subcell where CS services are processed. That is, DTM services can be initiated in the subcell where CS services are not processed. However, when this occurs, CS services must be migrated to the subcell where DTM services are processed.
l
When DTMOptiSwitch(BSC6900,BSC6910) is set to OFF(Off), and when CS services that occupied an SDCCH needs to request a TCH during the DTM procedure and channels adjacent to the idle TCH are not PDCHs, DtmTCHAllocOptSw(BSC6900,BSC6910) specifies whether the BSC is prohibited from allocating the TCH. –
If DtmTCHAllocOptSw(BSC6900,BSC6910) is set to ON(On), the BSC is prohibited from allocating the TCH. If there are PDCHs available, the BSC will initiate a PDCH reclaim procedure to establish DTM services.
–
If DtmTCHAllocOptSw(BSC6900,BSC6910) is set to OFF(Off), the BSC is allowed to allocate the TCH, and the BSC dynamically converts channels adjacent to the TCH to PDCHs for initiating the next DTM procedure.
After a DTM service connection is established, channels occupied by DTM services are processed according to the following principles: l
In DTM mode, a PDCH can be shared by MSs.
l
GPRS/EGPRS services in DTM mode can meet their QoS requirements.
l
If DYNCHNPREEMPTLEV(BSC6900,BSC6910) is set to LEVEL0(Preempt all dynamic TCHFs), LEVEL1(No preempt of CCHs), or LEVEL2(No preempt of service TCHF), channels occupied by DTM services can be preempted. In this case, CS services preferentially preempt non-DTM channels. This has the same impact as preempting other candidate channels or does not affect channel continuity.
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To protect PDCHs for DTM services during PDCH preemption, the DYNCHNPREEMPTLEV(BSC6900,BSC6910) parameter provides the following new policies:
l
–
LEVEL3(No preempt of dynamic PDCHs): CS services cannot preempt dynamic PDCHs that carry DTM services.
–
LEVEL4(No preempt of both dynamic PDCHs and CCHs): CS services cannot preempt dynamic PDCHs that carry DTM services or control channels (CCHs).
If high-priority CS services can preempt TCHs occupied by low-priority CS services and DTM CS services have low priorities, high-priority CS services can preempt TCHs occupied by DTM CS services. If multiple ongoing low-priority CS services in DTM and non-DTM modes have the same priority: –
When DTMOptiSwitch(BSC6900,BSC6910) is set to ON(On), high-priority CS services preferentially preempt TCHs occupied by CS services in non-DTM mode.
–
When DTMOptiSwitch(BSC6900,BSC6910) is set to OFF(Off), high-priority CS services randomly preempt TCHs occupied by CS services in DTM or non-DTM mode.
After a DTM service connection is established, if DTMIMMAPPLYSLAVEABIS(BSC6900,BSC6910) is set to ON(On), the BSC can immediately allocate more Abis bandwidth to the DTM call, improving the encoding performance of the DTM call. In contrast, the BSC allocates more Abis bandwidth to a common call only when the PS coding scheme used by the call changes. When both the DTM and BSS Local Switch features are enabled, set BssLsOptInDtmSw(BSC6900,BSC6910) to ON(On). When this parameter is set to ON(On), the BSS send a HANDOVER IND message to prohibit the peer-end call from changing Abis resources when the BSS Local Switch feature takes effect between a pair of calls and a call attempts to initiate a DTM service. This way, the number of call drops on TCHs due to equipment faults decreases.
3.3 DTM-Related Procedures 3.3.1 GPRS Signaling Transmission on the Main DCCH in Dedicated Mode When DTM is supported, the MS can send or receive GPRS signaling messages, such as GPRS mobility management (GMM) signaling messages generated during cell update or routing area (RA) update in CS dedicated mode. There are two methods of doing this. In the first method, the MS first enters the DTM to establish the uplink and downlink temporary block flows (TBFs). After transmitting GPRS signaling messages, the MS leaves the DTM and enters dedicated mode again. This method is time-consuming and decreases channel resource usage because PS resources must be requested first. In the second method, the main dedicated control channel (DCCH) is used to transmit GRPS signaling messages in dedicated mode, as shown in Figure 3-7. This method can accelerate the GPRS signaling transmission and improve the channel resource usage efficiency. When the MS is in dedicated mode, GPRS signaling messages are encapsulated as logical link control (LLC) protocol data units (PDUs) in compliance with LLC protocols, and then the LLC PDUs are sent to the radio resource (RR) entity for processing. The detailed procedure is as follows: Issue 01 (2015-04-20)
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l
In the uplink, the MS encapsulates an LLC PDU in a new Layer 3 message. The Layer 3 message contains the protocol identifier GPRS Transparent Transport Protocol (GTTP). The MS sends the message using the existing Layer 2 mechanisms to the BSC over the main DCCH. The BSC extracts the Temporary Logical Link Identity (TLLI) and the LLC PDU, which are then encapsulated into a Base Station Subsystem GPRS Protocol (BSSGP) UL-UNITDATA.
l
In the downlink, upon receiving a BSSGP PDU, the BSC can identify whether the PDU contains signaling information. If the length of the LLC PDU meets length requirements and the BSS has an RR connection to the addressed MS with the international mobile subscriber identity (IMSI), the BSC sends the GPRS signaling message over the main DCCH.
Figure 3-7 shows GPRS signaling transmission on the main DCCH in dedicated mode. Figure 3-7 Using the main DCCH to transmit GPRS signaling in dedicated mode
GPRS signaling transmission on the main DCCH in dedicated mode has the following restrictions: l
The MS must be in dedicated mode rather than in DTM mode.
l
The main DCCH can transmit GPRS signaling messages, but not GPRS data.
l
The number of link access procedure on the Dm channel (LAPDm) frames disassembled from a GPRS signaling message must be smaller than the value specified by the network. The value is determined by MAX_LAPDm in SI6. MAX_LAPDm has three bits and its value ranges from 5 to 12. By default, MAX_LAPDm is 5.
3.3.2 DTM Establishment Uplink PS Establishment in Dedicated Mode In dedicated mode, if the BSS and MS support DTM, the MS can send a DTM Request message on the main DCCH to establish an uplink PS connection. If the BSS does not need to re-allocate CS resources (that is, the BSS uses the original TCH to carry speech in DTM mode), it sends a Packet Assignment message to allocate PS resources to the MS. Figure 3-8 shows the procedure. Issue 01 (2015-04-20)
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Figure 3-8 Uplink PS establishment in dedicated mode without reallocating CS resources
If the BSS needs to reallocate the CS resources when allocating PS resources (DTM channel allocation is not applicable due to existing channel distribution), the BSS sends a DTM Assignment Command message on the main DCCH to the MS after reallocating the CS resources. If the MS successfully establishes the new CS connection, it sends an Assignment Complete message on the new main DCCH, as shown in Figure 3-9. If the MS fails to establish the new CS connection, it sends an Assignment Failure message on the old main DCCH, as shown in Figure 3-10. Figure 3-9 Uplink PS connection establishment in dedicated mode with CS resources reallocated and new CS connections established
Figure 3-10 Uplink PS connection establishment in dedicated mode with CS resources reallocated and new CS connections failed
Downlink PS Establishment in Dedicated Mode In dedicated mode, if the MS is in the GMM Ready state, the BSS needs to establish a downlink TBF after receiving a downlink PDU from the SGSN. If the BSS does not need to reallocate CS resources, it sends a Packet Assignment message on the main DCCH to the MS. Figure 3-11 shows the procedure. Issue 01 (2015-04-20)
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Figure 3-11 Downlink PS establishment in dedicated mode and GMM ready state
If the BSS needs to reallocate CS resources when allocating PS resources, the BSS sends a DTM Assignment Command message on the new main DCCH to the MS after reallocating the CS resources. If the MS successfully establishes the new CS connection, it sends an Assignment Complete message on the new main DCCH. If the MS fails to establish the new CS connection, it sends an Assignment Failure message on the old main DCCH. The procedure for reestablishing the downlink PS connection between network elements is the same as the procedure for reestablishing the uplink PS connection. If the MS is in dedicated mode and GMM standby state, the BSS sends a Packet Notification message on the main DCCH to the MS after receiving a packet paging message from the SGSN. The MS then sends an LLC frame as a response to the packet paging. The SGSN starts to send the downlink information after receiving the paging response from the MS. Figure 3-12 shows the procedure. Figure 3-12 Downlink PS establishment in dedicated mode and GMM standby state
CS Establishment in Packet Transfer Mode In packet transfer mode, the packet session must be aborted before the MS or the network initiates a CS connection request. When the CS connection is established, the MS enters dedicated mode. The PS connection is then established over the main DCCH occupied by the CS resources. This PS connection establishment procedure is the same as that for uplink or downlink PS connection establishment in dedicated mode.
3.3.3 DTM Release CS Release in DTM Mode In DTM mode, if the CS connection is released, the MS must release the PS resources. Issue 01 (2015-04-20)
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3 Technical Description
PS Release in DTM Mode The procedure for releasing a TBF by an MS in DTM mode is the same as that for releasing an uplink or downlink TBF for common PS services. During CS services in DTM mode, if the last TBF is released by an MS, the MS enters dedicated mode.
3.3.4 Handover in DTM Mode The decision on when to change the serving cell of a DTM-capable MS is made based on the CS measurement report. In an intra-cell handover, the MS releases the PS resources and leaves DTM with the PS connection interrupted. Then, the MS enters dedicated mode on the new CS resource, reestablishes the PS connection, and enters DTM mode again. In an inter-cell handover, the MS releases the PS resources and leaves DTM with the PS connection interrupted. Then, the MS enters dedicated mode in the new cell, reads the system information messages, makes a cell update or RA update, reestablishes the PS connection, and enters DTM mode again. Figure 3-13 shows the procedure. Figure 3-13 Inter-cell handover in DTM mode
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GSM BSS DTM Feature Parameter Description
3 Technical Description
In DTM mode, more restrictions are imposed on CS handovers to retain the continuity of CS and PS services and to prevent CS handovers from interrupting PS services. When DTMCSHOOPTSW(BSC6900,BSC6910) is set to NO(No), CS handovers in DTM mode must be forced handovers, emergency handovers, or fast movement handovers. When DTMCSHOOPTSW(BSC6900,BSC6910) is set to YES(Yes), CS handovers in DTM mode caused by the following reasons are not allowed: l
Cell load sharing
l
Traffic sharing in a concentric cell or enhanced dual-band network
l
TCH/F-to-TCH/H handovers due to high cell load, TCH/F-to-TCH/H handovers due to insufficient Abis links, and TCH/H-to-TCH/F handovers due to low cell load
l
Handovers due to dynamic adjustment from TCH/F to TCH/H, from TCH/H to TCH/F, from TCH to SDCCH, and from SDCCH to TCH
l
Channel repacking
During establishment of a DTM service connection, links for CS services are established prior to those for PS services. After links for CS services are established and before links for PS services are established, the DTM call is in unstable state. Handovers triggered during this period must be delayed. If links for PS services fail to be established, DtmChOccupySupplyStatSw(BSC6900,BSC6910) controls whether to measure handoverrelated counters for CS services.
3.3.5 Cell Update, RA Update, and LA Update in DTM Mode If a DTM-capable MS is in dedicated mode, it can perform cell updates, RA updates, and location area (LA) updates on the main DCCH to reduce the load of packet resources. If LLC PDUs cannot be transmitted on the main DCCH, they are transmitted on TBFs. If both the RA and LA of a DTM-capable MS in idle mode change, the parallel RA and LA updates are performed. During the parallel RA and LA updates, either the RA update or the LA update can be complete first. l
If DTMUPDATEOPTITYPE(BSC6900,BSC6910) is set to SDCCH_REL_DELAY(SDCCH Release Delay), the BSC sends an RA Update Accept message to the MS on the SDCCH. If the BSC receives a DTM Request message on the SDCCH, the BSC delays releasing the SDCCH, as shown in Figure 3-14.
l
If DTMUPDATEOPTITYPE(BSC6900,BSC6910) is set to RAU_ACC_SEND_DELAY(RAU ACC Send Delay), the BSC sends an RA Update Accept message to the MS in downlink packet immediate assignment only after the SDCCH is released, as shown in Figure 3-15.
l
If DTMUPDATEOPTITYPE(BSC6900,BSC6910) is set to NO_DELAY(No Delay), the BSC releases the SDCCH and delivers the RA Update Accept message in a timely manner.
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GSM BSS DTM Feature Parameter Description
3 Technical Description
Figure 3-14 Mobility management procedure when an RA update is complete before an LA update
Figure 3-15 Mobility management procedure when an LA update is complete before an RA update
3.3.6 Paging Coordination The BSC can control the paging response of an MS using the paging coordination function rather than based on the setting of the NMO(BSC6900,BSC6910) parameter. This enables the MS to enter the DTM to establish CS and PS connections simultaneously. l
When an MS is in packet transfer mode, the BSC can send a CS Paging message on the PACCH even if the NMO(BSC6900,BSC6910) parameter is set to NMOII(Network Operation Mode II) or NMOIII(Network Operation Mode III). Therefore, the MS does not miss any CS Paging messages.
l
When an MS is in dedicated mode and the system supports DTM, the BSC sends a Packet Notification message on the main DCCH after receiving a PS Paging message. Therefore, the MS does not miss any PS Paging messages.
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GSM BSS DTM Feature Parameter Description
4 Related Features
4
Related Features
4.1 GBFD-114151 DTM Prerequisite Features Feature ID
Feature Name
Description
GBFD-119305
BSS Paging Coordination
When Network Operation Mode is set to NMOII(Network Operation Mode II) or NMOIII(Network Operation Mode III), the DTM feature requires the GBFD-119305 BSS Paging Coordination feature.
Feature ID
Feature Name
Description
GBFD-114001
Extended Cell
-
GBFD-116201
Network-Controlled Cell Reselection (NC2)
-
Mutually Exclusive Features
Impacted Features
Issue 01 (2015-04-20)
Feature ID
Feature Name
Description
GBFD-115830
VAMOS
l If VAMOS or VAMOS FR is enabled, it is recommended that the base station color code (BCC), frequency hopping (FH) group TSC, and the primary TSC of VAMOS be set to the same value to
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GSM BSS DTM Feature Parameter Description
4 Related Features
Feature ID
Feature Name
GBFD-160201
VAMOS FR
Description
l
l
l
l
l
GBFD-119405
Issue 01 (2015-04-20)
14.4kbits Circuit Switched Data
prevent an exception in DTM services. The VamosMainTsc(BSC6900,BSC6910) parameter specifies the primary TSC. Modifying an FH group TSC will reset a cell. If the FH group TSC is inconsistent with the primary TSC of VAMOS in the preceding scenario, the BSC uses the primary TSC as the TSC for the cell and automatically changes the FH group TSC to the primary TSC. This will cause the cell to automatically reset and therefore will cause CS and PS call drops. After the cell resets, the BSC allocates the primary TSC to all CS and PS services during initial access. To prevent VAMOS channel multiplexing on a DTM call (that is, the CS part of a DTM service), the BSC imposes the following constraints: VAMOS channel multiplexing can only be performed on a common CS call and on a DTM call. VAMOS channel multiplexing can be performed in only one direction, that is, the BSC assigns or hands over the common CS call to the channel occupied by the DTM call. If the call using the primary TSC is released during VAMOS channel multiplexing and the MS using the secondary TSC initiates a DTM service, since the packet data channel (PDCH) corresponds to the primary TSC, the MS using the secondary TSC needs to perform an intra-cell handover so that it can use the primary TSC before processing DTM services. This is because an MS using a new TSC cannot process DTM services, as stipulated in 3GPP TS 24.008 V9.7.0. For details about the VAMOS feature, see VAMOS Feature Parameter Description.
14.4 kbit/s circuit switched data services and high speed circuit switched data
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GSM BSS DTM Feature Parameter Description
4 Related Features
Feature ID
Feature Name
Description
GBFD-119406
High Speed Circuit Switched Data
services cannot simultaneously establish DTM connection. For details about the 14.4kbits Circuit Switched Data and High Speed Circuit Switched Data features, see 14.4kbits Circuit Switched Data Feature Parameter Description and High Speed Circuit Switched Data Feature Parameter Description.
GBFD-117002
IBCA
If IBCA is enabled, the BSC allocates only channels on the non-FH TRX to DTM services because the IBCA allows the BSC to allocate only these channels to PS services.
GBFD-119511
IBCA II
If IBCA II is enabled, the BSC can allocate channels on any TRX to DTM services only if DTMOptiSwitch(BSC6900,BSC6910) and IBCAPDDYNTRENHANCE(BSC6900,B SC6910) are set to ON(On). If the two parameters are set to other values, the processing is the same as that for IBCA.
4.2 GBFD-119403 Class11 DTM Prerequisite Features Feature ID
Feature Name
Description
GBFD-114151
DTM
-
GBFD-119401
Extended Dynamic Allocation (EDA)
-
Mutually Exclusive Features None
Impacted Features
Issue 01 (2015-04-20)
Feature ID
Feature Name
Description
GBFD-115830
VAMOS
l If VAMOS or VAMOS FR is enabled, it is recommended that the base station
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GSM BSS DTM Feature Parameter Description
4 Related Features
Feature ID
Feature Name
GBFD-160201
VAMOS FR
Description
l
l
l
l
l
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color code (BCC), frequency hopping (FH) group TSC, and the primary TSC of VAMOS be set to the same value to prevent an exception in DTM services. The VamosMainTsc(BSC6910,BSC6900) parameter specifies the primary TSC. Modifying an FH group TSC will reset a cell. If the FH group TSC is inconsistent with the primary TSC of VAMOS in the preceding scenario, the BSC uses the primary TSC as the TSC for the cell and automatically changes the FH group TSC to the primary TSC. This will cause the cell to automatically reset and therefore will cause CS and PS call drops. After the cell resets, the BSC allocates the primary TSC to all CS and PS services during initial access. To prevent VAMOS channel multiplexing on a DTM call (that is, the CS part of a DTM service), the BSC imposes the following constraints: VAMOS channel multiplexing can only be performed on a common CS call and on a DTM call. VAMOS channel multiplexing can be performed in only one direction, that is, the BSC assigns or hands over the common CS call to the channel occupied by the DTM call. If the call using the primary TSC is released during VAMOS channel multiplexing and the MS using the secondary TSC initiates a DTM service, since the packet data channel (PDCH) corresponds to the primary TSC, the MS using the secondary TSC needs to perform an intra-cell handover so that it can use the primary TSC before processing DTM services. This is because an MS using a new TSC cannot process DTM services, as stipulated in 3GPP TS 24.008 V9.7.0. For details about the VAMOS feature, see VAMOS Feature Parameter Description.
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GSM BSS DTM Feature Parameter Description
4 Related Features
Feature ID
Feature Name
Description
GBFD-119405
14.4kbits Circuit Switched Data
GBFD-119406
High Speed Circuit Switched Data
14.4 kbit/s circuit switched data services and high speed circuit switched data services cannot simultaneously establish DTM connection. For details about the 14.4kbits Circuit Switched Data and High Speed Circuit Switched Data features, see 14.4kbits Circuit Switched Data Feature Parameter Description and High Speed Circuit Switched Data Feature Parameter Description.
GBFD-117002
IBCA
If IBCA is enabled, the BSC allocates only channels on the non-FH TRX to DTM services because the IBCA allows the BSC to allocate only these channels to PS services.
GBFD-119511
IBCA II
If IBCA II is enabled, the BSC can allocate channels on any TRX to DTM services only if DTMOptiSwitch(BSC6910,BSC6900) and IBCAPDDYNTRENHANCE(BSC6910,B SC6900) are set to ON(On). If the two parameters are set to other values, the processing is the same as that for IBCA.
4.3 GBFD-119404 HMC DTM Prerequisite Features Feature ID
Feature Name
Description
GBFD-114151
DTM
-
GBFD-119401
Extended Dynamic Allocation (EDA)
-
GBFD-119402
MS High multislot classes
-
Mutually Exclusive Features None
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GSM BSS DTM Feature Parameter Description
4 Related Features
Impacted Features
Issue 01 (2015-04-20)
Feature ID
Feature Name
Description
GBFD-115830
VAMOS
l If VAMOS or VAMOS FR is enabled, it is recommended that the base station color code (BCC), frequency hopping (FH) group TSC, and the primary TSC of VAMOS be set to the same value to prevent an exception in DTM services. The VamosMainTsc(BSC6910,BSC6900) parameter specifies the primary TSC. l Modifying an FH group TSC will reset a cell. If the FH group TSC is inconsistent with the primary TSC of VAMOS in the preceding scenario, the BSC uses the primary TSC as the TSC for the cell and automatically changes the FH group TSC to the primary TSC. This will cause the cell to automatically reset and therefore will cause CS and PS call drops. After the cell resets, the BSC allocates the primary TSC to all CS and PS services during initial access. l To prevent VAMOS channel multiplexing on a DTM call (that is, the CS part of a DTM service), the BSC imposes the following constraints: l VAMOS channel multiplexing can only be performed on a common CS call and on a DTM call. VAMOS channel multiplexing can be performed in only one direction, that is, the BSC assigns or hands over the common CS call to the channel occupied by the DTM call. l If the call using the primary TSC is released during VAMOS channel multiplexing and the MS using the secondary TSC initiates a DTM service, since the packet data channel (PDCH) corresponds to the primary TSC, the MS using the secondary TSC needs to perform an intra-cell handover so that it can use the primary TSC before processing DTM services. This is because an MS using a new TSC cannot process DTM services, as stipulated in 3GPP TS 24.008 V9.7.0.
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GSM BSS DTM Feature Parameter Description
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4 Related Features
Feature ID
Feature Name
Description
GBFD-160201
VAMOS FR
l For details about the VAMOS feature, see VAMOS Feature Parameter Description.
GBFD-119405
14.4kbits Circuit Switched Data
GBFD-119406
High Speed Circuit Switched Data
14.4 kbit/s circuit switched data services and high speed circuit switched data services cannot simultaneously establish DTM connection. For details about the 14.4kbits Circuit Switched Data and High Speed Circuit Switched Data features, see 14.4kbits Circuit Switched Data Feature Parameter Description and High Speed Circuit Switched Data Feature Parameter Description.
GBFD-117002
IBCA
If IBCA is enabled, the BSC allocates only channels on the non-FH TRX to DTM services because the IBCA allows the BSC to allocate only these channels to PS services.
GBFD-119511
IBCA II
If IBCA II is enabled, the BSC can allocate channels on any TRX to DTM services only if DTMOptiSwitch(BSC6910,BSC6900) and IBCAPDDYNTRENHANCE(BSC6910,B SC6900) are set to ON(On). If the two parameters are set to other values, the processing is the same as that for IBCA.
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GSM BSS DTM Feature Parameter Description
5 Network Impact
5
Network Impact
5.1 System Capability None
5.2 Network Performance l
Enabling DTM has no impacts on the performance of non-DTM PS services. The following KPIs remain unchanged after DTM is enabled except in case of many DTM users: Uplink TBF establishment success rate (non-DTM call) Downlink TBF establishment success rate (non-DTM call) Uplink TBF congestion rate (non-DTM call) Downlink TBF congestion rate (non-DTM call) Uplink TBF drop rate (non-DTM call) Downlink TBF drop rate (non-DTM call) TX.UP.GPRS.LLC.PDU.THRPUT.RATE.AVG and TX.UP.EGPRS.LLC.PDU.THRPUT.RATE.AVG for non-DTM calls TX.DOWN.GPRS.LLC.PDU.THRPUT.RATE.AVG and TX.DOWN.EGPRS.LLC.PDU.THRPUT.RATE.AVG for non-DTM calls
l
Enabling DTM has the following impacts on the performance of DTM PS services: –
In DTM mode, MSs must be allocated consecutive TCHs and PDCHs during channel allocation for DTM PS services. In addition, DTM calls are affected by users' behaviors. For example, when a CS release or CS handover occurs in DTM mode, the DTM service fails. The following KPIs deteriorate after DTM is enabled compared with those for non-DTM PS services: Uplink TBF establishment success rate (DTM call) Downlink TBF establishment success rate (DTM call) Uplink TBF congestion rate (DTM call) Downlink TBF congestion rate (DTM call) Uplink TBF drop rate (DTM call)
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GSM BSS DTM Feature Parameter Description
5 Network Impact
Downlink TBF drop rate (DTM call) TX.UP.GPRS.LLC.PDU.THRPUT.RATE.AVG and TX.UP.EGPRS.LLC.PDU.THRPUT.RATE.AVG for DTM calls TX.DOWN.GPRS.LLC.PDU.THRPUT.RATE.AVG and TX.DOWN.EGPRS.LLC.PDU.THRPUT.RATE.AVG for DTM calls –
When DTMOptiSwitch(BSC6900,BSC6910) is set to ON(On), using the optimized channel allocation algorithm for DTM services decreases the DTM TBF congestion rate. If the penetration rate of DTM-capable MSs is no more than 30% on a network, setting DTMOptiSwitch(BSC6900,BSC6910) is set to ON(On) has the following impacts: The TBF congestion rate for DTM services approaches that for non-DTM services. Both the uplink and downlink DTM TBF congestion rates relatively decrease by more than 50%. If the impacts of CS releases or CS handovers and the scenarios with many DTM users are not considered, the performance of other DTM services is similar to that of non-DTM services.
–
l
l
When DTMOptiSwitch(BSC6900,BSC6910) is set to ON(On), PDCH conversion may be required to meet the DTM multislot capability of an MS. As a result, the delay in establishing DTM PS connections may be prolonged.
Enabling DTM has the following impacts on the performance of CS services: –
Establishing DTM services will cause an increase in the number of PDCHs. The proportion of half-rate traffic increases and the high quality indicator (HQI) decreases with the increase in the number of PDCHs. If the DTM traffic volume is large, the number of PDCHs increases significantly. As a result, the proportion of half-rate traffic increases and the HQI decreases significantly.
–
When DTMOptiSwitch(BSC6900,BSC6910) is set to ON(On), PDCH conversion may be required to meet the DTM multislot capability of an MS. As a result, the delay in establishing DTM CS connections may be prolonged.
Enabling DTM has the following impacts on the BSC processing capability: The CPU usages of the DPU board with the GPCU logical type, and of the XPU board, both increase by a maximum of 5%. NOTE
The DPUc and DPUf boards are supported only by BSC6900.
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GSM BSS DTM Feature Parameter Description
6 Engineering Guidelines
6
Engineering Guidelines
6.1 When to Use DTM Use DTM on networks where DTM-capable MSs exist.
6.2 Required Information DTM requires the support of MSs. Therefore, before deploying the DTM feature, collect the following counters to check whether MSs on the network support DTM, Class 11 DTM, and HMC DTM, respectively: l
CELL.SPT.DTM.CALL.NUM
l
DTM.EGPRS.MULTISLOT.CLASS11
l
HIGH.MULTISLOT.CAPABILITY.CLASS30TO45
6.3 Planning RF Planning N/A
Network Planning N/A
Hardware Planning N/A
6.4 Deploying DTM Issue 01 (2015-04-20)
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GSM BSS DTM Feature Parameter Description
6 Engineering Guidelines
6.4.1 Deploying Requirements Table 6-1 Deploying requirements Aspect
Requirement
Related features
See 4 Related Features.
BSC
A built-in PCU, PS service processing boards, and Gb interface boards have been configured.
BTS
None
GSM networking
None
MS
MSs support DTM.
MSC
The MSC supports: l DTM l COMMON ID message
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
l If network operation mode II or III is configured, BSS paging coordination has been configured so that CS paging can be performed successfully in packet transfer mode. NOTE For details about how to configure BSS paging coordination, see BSS paging coordination Feature Parameter Description.
l Early Classmark Sending Control (ECSC) has been configured so that the MS can automatically send the classmark control message to the network as early as possible after the immediate assignment. NOTE To configure ECSC, run the SET GCELLCCBASIC command with ECSC set to YES(Yes) on the BSC LMT.
6.4.2 Activation Using MML Commands On the BSC LMT, run the SET GCELLGPRS command with GPRS set to SupportAsInnPcu(Support as built-in PCU) and Support DTM set to SUPPORT(Support).
MML Command Examples SET GCELLGPRS: IDTYPE=BYID, CELLID=0, GPRS=SupportAsInnPcu, SUPPORTDTM=SUPPORT; Issue 01 (2015-04-20)
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GSM BSS DTM Feature Parameter Description
6 Engineering Guidelines
Using the CME NOTE
When configuring the DTM 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 6-2. For the method of performing the CME single configuration, see CME Single Configuration Operation Guide. Step 2 (Optional) Modify objects in batches on the CME. (CME batch modification center) To modify objects, such as BSCs, BTSs, cells, and TRXs, in batches, click the icon on 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 6-2 Configuring parameters on the CME SN
Managed Object (MO)
NE
Paramete r Name
Parameter ID
Configurabl e in CME Batch Modification Center
1
GCELLGPR S
BSC6900/ BSC6910
GPRS
GPRS
Yes
Support DTM
SUPPORTD TM
6.4.3 Activation Observation Step 1 Use an MS to make a CS call. Step 2 On the BSC LMT, start single-subscriber CS message tracing for the MS by referring to the BSC6900 GSM LMT User Guide or BSC6910 GSM LMT User Guide. Step 3 Use the MS to download data. Step 4 View the CS message tracing result. Expected result: Data is downloaded successfully without affecting the CS call.
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GSM BSS DTM Feature Parameter Description
6 Engineering Guidelines
NOTE
The following messages are traced during the CS message tracing: l DTM Request l DTM Assignment Command or Packet Assignment
----End
6.4.4 Deactivation Using MML Commands On the BSC LMT, run the SET GCELLGPRS command with GPRS set to SupportAsInnPcu(Support as built-in PCU) and Support DTM set to UNSUPPORT(Not Support).
MML Command Examples SET GCELLGPRS: IDTYPE=BYID, CELLID=0, GPRS=SupportAsInnPcu, SUPPORTDTM=UNSUPPORT;
Using the CME NOTE
When configuring the DTM 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 6-3. For the method of performing the CME single configuration, see 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 Table 6-3 Configuring parameters on the CME
Issue 01 (2015-04-20)
SN
MO
NE
Parameter Name
Parameter ID
Configurabl e in CME Batch Modificatio n Center
1
GCELLGPR S
BSC6900/ BSC6910
GPRS
GPRS
Yes
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GSM BSS DTM Feature Parameter Description
SN
6 Engineering Guidelines
MO
NE
Parameter Name
Parameter ID
Support DTM
SUPPORT DTM
Configurabl e in CME Batch Modificatio n Center
6.5 Deploying Class11 DTM 6.5.1 Deploying Requirements Table 6-4 Deploying requirements Aspect
Requirement
Related features
See 4 Related Features.
BSC
A built-in PCU, PS service processing boards, and Gb interface boards have been configured.
BTS
None
GSM networking
None
MS
MSs support Class11 DTM.
MSC
The MSC supports DTM.
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
l If network operation mode II or III is configured, BSS paging coordination has been configured so that CS paging can be performed successfully in packet transfer mode. NOTE For details about how to configure BSS paging coordination, see BSS paging coordination Feature Parameter Description .
l ECSC has been configured so that the MS can automatically send the classmark control message to the network as early as possible after the immediate assignment. NOTE To configure ECSC, run the SET GCELLCCBASIC command with ECSC set to YES(Yes) on the BSC LMT.
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6 Engineering Guidelines
6.5.2 Activation Using MML Commands On the BSC LMT, run the SET GCELLGPRS command with its parameters set as follows: l
Set GPRS to SupportAsInnPcu(Support as built-in PCU).
l
Set SUPPORT DTM to SUPPORT(Support).
l
Set Support Class11 DTM to SUPPORT(Support).
l
Set Support EDA to SUPPORT(Support).
MML Command Examples SET GCELLGPRS: IDTYPE=BYID, CELLID=0, GPRS=SupportAsInnPcu, SUPPORTDTM=SUPPORT, CLASS11DTM=SUPPORT, SUPPORTEDA=SUPPORT;
Using the CME NOTE
When configuring the Class11 DTM 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 6-5. For the method of performing the CME single configuration, see 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 Table 6-5 Configuring parameters on the CME
Issue 01 (2015-04-20)
SN
MO
NE
Parameter Name
Parameter ID
Configurabl e in CME Batch Modificatio n Center
1
GCELLGPR S
BSC6900/ BSC6910
GPRS
GPRS
Yes
Support DTM
SUPPORT DTM
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GSM BSS DTM Feature Parameter Description
SN
6 Engineering Guidelines
MO
NE
Parameter Name
Parameter ID
Support Class11 DTM
CLASS11 DTM
Support EDA
SUPPORT EDA
Configurabl e in CME Batch Modificatio n Center
6.5.3 Activation Observation Step 1 Use an MS to make a CS call. Step 2 On the BSC LMT, start single-subscriber CS message tracing for the MS by referring to the BSC6900 GSM LMT User Guide or BSC6910 GSM LMT User Guide. Step 3 On the BSC LMT, start single-subscriber PS message tracing for the MS by referring to the BSC6900 GSM LMT User Guide or BSC6910 GSM LMT User Guide. Step 4 Use the MS to upload data. Step 5 View the CS message tracing result. Step 6 View the PS message tracing result. Expected result: Data is uploaded successfully without affecting the CS call. NOTE
The following messages are traced during the CS message tracing: l DTM Request l DTM Assignment Command or Packet Assignment The PS message tracing result shows that the DTM UE occupies two uplink PDCHs.
----End
6.5.4 Deactivation Using MML Commands On the BSC LMT, run the SET GCELLGPRS command with its parameters set as follows: l
Set GPRS to SupportAsInnPcu(Support as built-in PCU).
l
Set SUPPORT DTM to SUPPORT(Support).
l
Set Support Class11 DTM to UNSUPPORT(Not Support).
MML Command Examples SET GCELLGPRS: IDTYPE=BYID, CELLID=0, GPRS=SupportAsInnPcu, SUPPORTDTM=SUPPORT, CLASS11DTM=UNSUPPORT; Issue 01 (2015-04-20)
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Using the CME NOTE
When configuring the Class11 DTM 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 6-6. For the method of performing the CME single configuration, see CME Single Configuration Operation Guide. Step 2 (Optional) Modify objects in batches on the CME. (CME batch modification center) To modify objects, such as BSCs, BTSs, cells, and TRXs, in batches, click the icon on 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 6-6 Configuring parameters on the CME SN
MO
NE
Parameter Name
Parameter ID
Configurabl e in CME Batch Modificatio n Center
1
GCELLGPR S
BSC6900/ BSC6910
GPRS
GPRS
Yes
Support DTM
SUPPORT DTM
Support Class11 DTM
CLASS11 DTM
6.6 Deploying HMC DTM 6.6.1 Deploying Requirements Table 6-7 Deploying requirements
Issue 01 (2015-04-20)
Aspect
Requirement
Related features
See 4 Related Features.
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GSM BSS DTM Feature Parameter Description
6 Engineering Guidelines
Aspect
Requirement
BSC
A built-in PCU, PS service processing boards, and Gb interface boards have been configured.
BTS
None
GSM networking
None
MS
MSs support HMC DTM.
MSC
The MSC supports DTM.
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
l If network operation mode II or III is configured, BSS paging coordination has been configured so that CS paging can be performed successfully in packet transfer mode. NOTE For details about how to configure BSS paging coordination, see BSS paging coordination Feature Parameter Description
l ECSC has been configured so that the MS can automatically send the classmark control message to the network as early as possible after the immediate assignment. NOTE To configure ECSC, run the SET GCELLCCBASIC command with ECSC set to YES(Yes) on the BSC LMT.
6.6.2 Activation Using MML Commands On the BSC LMT, perform the following steps: Step 1 Run the SET BSCPSSOFTPARA command with Support High Multislot Class set to SUPPORT(Support). Step 2 Run the SET GCELLGPRS command with its parameters set as follows: l
Set GPRS to SupportAsInnPcu(Support as built-in PCU).
l
Set Support DTM to SUPPORT(Support).
l
Set Support HMC DTM to SUPPORT(Support).
----End
MML Command Examples SET BSCPSSOFTPARA: SUPPORTDL5TS=SUPPORT; SET GCELLGPRS: IDTYPE=BYID, CELLID=0, GPRS=SupportAsInnPcu, SUPPORTDTM=SUPPORT, HMCDTM=SUPPORT; Issue 01 (2015-04-20)
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GSM BSS DTM Feature Parameter Description
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Using the CME NOTE
When configuring the HMC DTM 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 6-8. For the method of performing the CME single configuration, see CME Single Configuration Operation Guide. Step 2 (Optional) Modify objects in batches on the CME. (CME batch modification center) To modify objects, such as BSCs, BTSs, cells, and TRXs, in batches, click the icon on 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 6-8 Configuring parameters on the CME SN
MO
NE
Parameter Name
Parameter ID
Configurabl e in CME Batch Modificatio n Center
1
BSCPSSOF TPARA
BSC6900/ BSC6910
Support High Multislot Class
SUPPORT DL5TS
Yes
2
GCELLGPR S
BSC6900/ BSC6910
GPRS
GPRS
Yes
Support DTM
SUPPORT DTM
Support HMC DTM
HMCDTM
6.6.3 Activation Observation Step 1 Use an MS to make a CS call. Step 2 On the BSC LMT, start single-subscriber CS message tracing for the MS by referring to the BSC6900 GSM LMT User Guide or BSC6910 GSM LMT User Guide. Step 3 On the BSC LMT, start single-subscriber PS message tracing for the MS by referring to the BSC6900 GSM LMT User Guide or BSC6910 GSM LMT User Guide. Issue 01 (2015-04-20)
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GSM BSS DTM Feature Parameter Description
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Step 4 Use the MS to download data. Step 5 View the CS message tracing result. Step 6 View the PS message tracing result. Expected result: Data is downloaded successfully without affecting the CS call. NOTE
The following messages are traced during the CS message tracing: l DTM Request l DTM Assignment Command or Packet Assignment The PS message tracing result shows that the DTM UE occupies three downlink PDCHs.
----End
6.6.4 Deactivation Using MML Commands On the BSC LMT, run the SET GCELLGPRS command with its parameters set as follows: l
Set GPRS to SupportAsInnPcu(Support as built-in PCU).
l
Set Support DTM to SUPPORT(Support).
l
Set Support HMC DTM to UNSUPPORT(Not Support).
MML Command Examples SET GCELLGPRS: IDTYPE=BYID, CELLID=0, GPRS=SupportAsInnPcu, SUPPORTDTM=SUPPORT, HMCDTM=UNSUPPORT;
Using the CME NOTE
When configuring the HMC DTM 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 6-9. For the method of performing the CME single configuration, see CME Single Configuration Operation Guide. Step 2 (Optional) Modify objects in batches on the CME. (CME batch modification center) To modify objects, such as BSCs, BTSs, cells, and TRXs, in batches, click the icon on 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 (2015-04-20)
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GSM BSS DTM Feature Parameter Description
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Table 6-9 Configuring parameters on the CME SN
MO
NE
Parameter Name
Parameter ID
Configurabl e in CME Batch Modificatio n Center
1
GCELLGPR S
BSC6900/ BSC6910
GPRS
GPRS
Yes
Support DTM
SUPPORT DTM
Support HMC DTM
HMCDTM
6.7 Performance Monitoring Monitor the KPIs listed in Table 6-10 to check the changes after the DTM feature is enabled. Table 6-10 KPIs and formulas
Issue 01 (2015-04-20)
KPI
Formula
Expected Result
Uplink TBF establishment success rate (non-DTM call)
(UP.EGPRS.TBF.ESTB.S UCC +UP.GPRS.TBF.ESTABL ISH.SUCCDTM.UP.TBF.ESTB.SUC C)/ (UP.GPRS.TBF.ESTB.AT MP +UP.EGPRS.TBF.ESTB. ATMPDTM.UP.TBF.ESTB.AT MP)
Remain unchanged
Downlink TBF establishment success rate (non-DTM call)
(DOWN.EGPRS.TBF.ES TB.SUCC +DOWN.GPRS.TBF.EST B.SUCCDTM.DOWN.TBF.ESTB. SUCC)/ (DOWN.GPRS.TBF.EST B.ATMP +DOWN.EGPRS.TBF.ES TB.ATMP DTM.DOWN.TBF.ESTB. ATMP)
Remain unchanged
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KPI
Formula
Expected Result
Uplink TBF congestion rate (nonDTM call)
(UP.EGPRS.TBF.ESTB.F AIL.NO.CHAN.RES +UP.GPRS.TBF.ESTB.FA IL.NO.CHAN.RESDTM.UP.TBF.ESTB.FAI L.NO.CHAN.RES)/ (UP.GPRS.TBF.ESTB.AT MP +UP.EGPRS.TBF.ESTB. ATMPDTM.UP.TBF.ESTB.AT MP)
Remain unchanged
Downlink TBF congestion rate (non-DTM call)
(DOWN.EGPRS.TBF.ES TB.FAIL.NO.CHAN.RES +DOWN.GPRS.TBF.EST B.FAIL.NO.CHAN.RESDTM.DOWN.TBF.ESTB. FAIL.NO.CHAN.RES)/ (DOWN.GPRS.TBF.EST B.ATMP +DOWN.EGPRS.TBF.ES TB.ATMP DTM.DOWN.TBF.ESTB. ATMP)
Remain unchanged
Uplink TBF drop rate (non-DTM call)
(UP.GPRS.TBF.ABNOR M.REL.N3101.OVERFL OW +UP.GPRS.TBF.ABNOR M.REL.N3103.OVERFL OW +UP.EGPRS.TBF.ABNO RM.REL.N3103.OVERF LOW +UP.EGPRS.TBF.ABNO RM.REL.N3101.OVERF LOWDTM.UP.TBF.ABNORM. REL.N3101.OVERFLO WDTM.UP.TBF.ABNORM. REL.N3103.OVERFLO W)/ (UP.GPRS.TBF.ESTABLI SH.SUCC +UP.EGPRS.TBF.ESTB.S UCCDTM.UP.TBF.ESTB.SUC C)
Remain unchanged
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6 Engineering Guidelines
KPI
Formula
Expected Result
Downlink TBF drop rate (nonDTM call)
(DOWN.EGPRS.TBF.AB NORM.REL.N3105.OVE RFLOW +DOWN.GPRS.TBF.AB NORM.REL.N3105.OVE RFLOWDTM.DOWN.TBF.ABN ORM.REL.N3105.OVER FLOW)/ (DOWN.EGPRS.TBF.ES TB.SUCC +DOWN.GPRS.TBF.EST B.SUCCDTM.DOWN.TBF.ESTB. SUCC)
Remain unchanged
TX.UP.GPRS.LLC.PDU.THRPUT. RATE.AVG(non-DTM call) and TX.UP.EGPRS.LLC.PDU.THRPU T.RATE.AVG(non-DTM call)
-
Remain unchanged
TX.UP.GPRS.LLC.PDU.THRPUT. RATE.AVG(non-DTM call) and TX.UP.EGPRS.LLC.PDU.THRPU T.RATE.AVG(non-DTM call)
-
Remain unchanged
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GSM BSS DTM Feature Parameter Description
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KPI
Formula
Expected Result
Uplink TBF establishment success rate (DTM call)
Formula 1:
Using formula 1:
DTM.UP.TBF.ESTB.SUC C/ DTM.UP.TBF.ESTB.AT MP
The uplink TBF establishment success rate (DTM call) is lower than the uplink TBF establishment success rate (non-DTM call). The difference between the two values depends on the proportion of DTM calls initiated during short message services (SMSs) or mobile management (MM) services and the proportion of handovers performed during the initiation of DTM calls.
Formula 2: 1(DTM.UP.TBF.ESTB.FAI L.NO.CHAN.RES +DTM.UP.TBF.ESTB.FA IL.MS.NO.RESP)/ DTM.UP.TBF.ESTB.AT MP
Using formula 2: When DTMOptiSwitch(BSC6 900,BSC6910) is set to ON(On), the uplink TBF establishment success rate (DTM call) approaches the uplink TBF establishment success rate (non-DTM call).
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GSM BSS DTM Feature Parameter Description
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KPI
Formula
Expected Result
Downlink TBF establishment success rate (DTM call)
Formula 1:
Using formula 1:
DTM.DOWN.TBF.ESTB. SUCC/ DTM.DOWN.TBF.ESTB. ATMP
The downlink TBF establishment success rate (DTM call) is lower than the downlink TBF establishment success rate (non-DTM call). The difference between the two values depends on the proportion of DTM calls initiated during short message services (SMSs) or mobile management (MM) services and the proportion of handovers performed during the initiation of DTM calls.
Formula 2: 1(DTM.DOWN.TBF.ESTB .FAIL.NO.CHAN.RES +DTM.DOWN.TBF.EST B.FAIL.MS.NO.RESP)/ DTM.DOWN.TBF.ESTB. ATMP
Using formula 2: When DTMOptiSwitch(BSC6 900,BSC6910) is set to ON(On), the downlink TBF establishment success rate (DTM call) approaches the downlink TBF establishment success rate (non-DTM call).
Issue 01 (2015-04-20)
Uplink TBF congestion rate (DTM call)
DTM.UP.TBF.ESTB.FAI L.NO.CHAN.RES/ DTM.UP.TBF.ESTB.AT MP
When DTMOptiSwitch(BSC6 900,BSC6910) is set to ON(On), the uplink TBF congestion rate (DTM call) approaches the uplink TBF congestion rate (nonDTM call).
Downlink TBF congestion rate (DTM call)
DTM.DOWN.TBF.ESTB. FAIL.NO.CHAN.RES/ DTM.DOWN.TBF.ESTB. ATMP
When DTMOptiSwitch(BSC6 900,BSC6910) is set to ON(On), the downlink TBF congestion rate (DTM call) approaches the downlink TBF congestion rate (nonDTM call).
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GSM BSS DTM Feature Parameter Description
6 Engineering Guidelines
KPI
Formula
Expected Result
Uplink TBF drop rate (DTM call)
(DTM.UP.TBF.ABNORM .REL.N3101.OVERFLO W +DTM.UP.TBF.ABNOR M.REL.N3103.OVERFL OW)/ DTM.UP.TBF.ESTB.SUC C
The uplink TBF drop rate (DTM call) approaches the uplink TBF drop rate (nonDTM call).
Downlink TBF drop rate (DTM call)
DTM.DOWN.TBF.ABN ORM.REL.N3105.OVER FLOW/ DTM.DOWN.TBF.ESTB. SUCC
The downlink TBF drop rate (DTM call) approaches the downlink TBF drop rate (non-DTM call).
TX.UP.GPRS.LLC.PDU.THRPUT. RATE.AVG(DTM call) and TX.UP.EGPRS.LLC.PDU.THRPU T.RATE.AVG(DTM call)
-
The number of PDCHs allocated to a DTM call is at least one fewer than that allocated to a non-DTM call. Therefore, the value of each KPI is approximately 50% to 80% of that for nonTDM calls.
TX.DOWN.GPRS.LLC.PDU.THR PUT.RATE.AVG(DTM call) and TX.DOWN.EGPRS.LLC.PDU.TH RPUT.RATE.AVG(DTM call)
-
The number of PDCHs allocated to a DTM call is at least one fewer than that allocated to a non-DTM call. Therefore, the value of each KPI is approximately 50% to 80% of that for nonTDM calls.
Proportion of TCH/Hs
CELL.KPI.TCHH.TRAF. ERL/ (CELL.KPI.TCHH.TRAF. ERL +CELL.KPI.TCH.TRAF. ERL.TRAF)
Slightly increase
6.8 Parameter Optimization l
Issue 01 (2015-04-20)
If the BSC separately allocates PDCHs for EGPRS and GPRS services, configure some dynamic or static EGPRS PDCHs on multiple nonconsecutive TRXs to increase the throughput of EGPRS DTM LLC PDUs. If the EGPRS PDCHs are configured on one TRX or multiple consecutive TRXs, idle TCHs may be adjacent to fewer EGPRS Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
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PDCHs. If there are no consecutive PDCHs, EGPRS subscribers cannot perform DTM PS services and EGPRS services are degraded to GPRS services. This decreases the throughput of EGPRS services. l
When GPRS dedicated channels are configured, it is recommended that GprsPdchSynMode(BSC6900,BSC6910) be set to ON(On) so that the synchronization of GPRS PDCHs is accelerated. This avoids DTM establishment failures when no PDCHs are available due to low synchronization of GPRS PDCHs, thereby improving the DTM access success rate. You do not need to configure this parameter for EGPRS channels.
NOTICE The cell processing PS services resets when you adjust the GprsPdchSynMode(BSC6900,BSC6910) parameter. l
When DTMOptiSwitch(BSC6900,BSC6910) is set to OFF(Off) in a concentric cell, do not set IUOCHNTRAN(BSC6900,BSC6910) to CONVERT0(Only convert at UL) or CONVERT1(Only convert at OL) because these settings allow DTM PS services to be performed either in only the underlaid or overlaid subcell. However, DTM CS services may be performed only or preferentially in a subcell different from that specified by IUOCHNTRAN(BSC6900,BSC6910). This causes ping-pong handovers.
l
To increase the DTM establishment success rate and the LLC throughput rate of DTM services, set DTMOptiSwitch(BSC6900,BSC6910) to ON(On).
l
To increase the DTM CS service capacity, set DTMCSAllocPolicy(BSC6900,BSC6910) to CAPACITY(Capacity), in which case the DTM multislot capability and speech quality will not be optimal. To improve the speech quality of DTM CS services, set DTMCSAllocPolicy(BSC6900,BSC6910) to QUALITY(Quality), in which case the DTM CS service capacity and DTM multislot capability will not be optimal. To improve the DTM multislot capability and further increase the DTM PS service rate, set DTMCSAllocPolicy(BSC6900,BSC6910) to DTMMULTI(Allocation), in which case the DTM CS service capacity and speech quality of DTM CS services will not be optimal. NOTE
Modifying DTMCSAllocPolicy affects channel allocation for only DTM services.
l
To increase the usage efficiency of DTM channels and the DTM establishment success rate, set DTMCSVersionPolicy(BSC6900,BSC6910) to HRfirst(HalfRate first) so that DTM CS services are carried by TCH/Hs. To improve the speech quality of DTM CS services, set DTMCSVersionPolicy(BSC6900,BSC6910) to FRfirst(FullRate first) so that DTM CS services are carried by TCH/Fs. However, in this situation, the DTM access success rate and DTM establishment success rate decrease.
l
In DTM mode, it is recommended that DTMIMMAPPLYSLAVEABIS(BSC6900,BSC6910) be set to ON(On) to improve the encoding performance of DTM calls.
6.9 Troubleshooting None Issue 01 (2015-04-20)
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GSM BSS DTM Feature Parameter Description
7 Parameters
7
Parameters
Table 7-1 Parameters Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
DtmTC HAlloc OptSw
BSC690 0
SET GCELL GPRS
GBFD-1 14151
DTM
Meaning: Whether to allocate an idle TCH for a CS service in the DTM procedure when the CS service occupies an SDCCH before applying for the TCH and the idle TCH has no adjacent PDCHs. When this parameter is set to ON, the BSC does not allocate the idle TCH for the CS service in the preceding scenario. Instead, the BSC requests PDCHs from the PCU when PDCHs are available in a cell and uses these PDCHs for DTM establishment. When this parameter is set to OFF, the BSC allocates the idle TCH for the CS service in the preceding scenario and dynamically converts the adjacent channels of the idle TCH into PDCHs for the next DTM procedure. GUI Value Range: OFF(Off), ON(On) Unit: None Actual Value Range: OFF, ON Default Value: OFF(Off)
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GSM BSS DTM Feature Parameter Description
7 Parameters
Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
DtmTC HAlloc OptSw
BSC691 0
SET GCELL GPRS
GBFD-1 14151
DTM
Meaning: Whether to allocate an idle TCH for a CS service in the DTM procedure when the CS service occupies an SDCCH before applying for the TCH and the idle TCH has no adjacent PDCHs. When this parameter is set to ON, the BSC does not allocate the idle TCH for the CS service in the preceding scenario. Instead, the BSC requests PDCHs from the PCU when PDCHs are available in a cell and uses these PDCHs for DTM establishment. When this parameter is set to OFF, the BSC allocates the idle TCH for the CS service in the preceding scenario and dynamically converts the adjacent channels of the idle TCH into PDCHs for the next DTM procedure. GUI Value Range: OFF(Off), ON(On) Unit: None Actual Value Range: OFF, ON Default Value: OFF(Off)
BssLsO ptInDt mSw
BSC690 0
SET BSCEX SOFTP ARA
GBFD-1 14151
DTM
Meaning: Whether to send a HANDOVER IND message to prohibit the peer-end call from changing Abis resources when the BSS Local Switch feature takes effect between a pair of calls and a call attempts to initiate a Dual Transfer Mode (DTM) service. ON: Send OFF: Not send GUI Value Range: OFF(Off), ON(On) Unit: None Actual Value Range: OFF, ON Default Value: OFF(Off)
BssLsO ptInDt mSw
BSC691 0
SET BSCEX SOFTP ARA
GBFD-1 14151
DTM
Meaning: Whether to send a HANDOVER IND message to prohibit the peer-end call from changing Abis resources when the BSS Local Switch feature takes effect between a pair of calls and a call attempts to initiate a Dual Transfer Mode (DTM) service. ON: Send OFF: Not send GUI Value Range: OFF(Off), ON(On) Unit: None Actual Value Range: OFF, ON Default Value: OFF(Off)
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GSM BSS DTM Feature Parameter Description
7 Parameters
Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
SUPPO RTDT M
BSC690 0
SET GCELL GPRS
GBFD-1 14151
DTM
Meaning: Whether to support dual transfer mode (DTM). If this parameter is set to "SUPPORT",it means the cell enables an MS to process CS and PS services simultaneously.If this parameter is set to "UNSUPPORT",it means the cell disables an MS to process CS and PS services simultaneously. GUI Value Range: UNSUPPORT(Not Support), SUPPORT(Support) Unit: None Actual Value Range: UNSUPPORT, SUPPORT Default Value: UNSUPPORT(Not Support)
SUPPO RTDT M
BSC691 0
SET GCELL GPRS
GBFD-1 14151
DTM
Meaning: Whether to support dual transfer mode (DTM). If this parameter is set to "SUPPORT",it means the cell enables an MS to process CS and PS services simultaneously.If this parameter is set to "UNSUPPORT",it means the cell disables an MS to process CS and PS services simultaneously. GUI Value Range: UNSUPPORT(Not Support), SUPPORT(Support) Unit: None Actual Value Range: UNSUPPORT, SUPPORT Default Value: UNSUPPORT(Not Support)
CLASS 11DTM
BSC690 0
SET GCELL GPRS
GBFD-1 19403
Class11 DTM
Meaning: Whether the cell supports the MS with the DTM multi-timeslot capability of class 11. When this parameter is set to SUPPORT, the MS with DTM multi-timeslot capability of the class 11 allocates channel resources based on class 11 capability when performing DTM services. When this parameter is set to UNSUPPORT, the MS with DTM multi-timeslot capability of the class 11 allocates channel resources based on class 9 capability when performing DTM services. GUI Value Range: UNSUPPORT(Not Support), SUPPORT(Support) Unit: None Actual Value Range: UNSUPPORT, SUPPORT Default Value: UNSUPPORT(Not Support)
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GSM BSS DTM Feature Parameter Description
7 Parameters
Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
CLASS 11DTM
BSC691 0
SET GCELL GPRS
GBFD-1 19403
Class11 DTM
Meaning: Whether the cell supports the MS with the DTM multi-timeslot capability of class 11. When this parameter is set to SUPPORT, the MS with DTM multi-timeslot capability of the class 11 allocates channel resources based on class 11 capability when performing DTM services. When this parameter is set to UNSUPPORT, the MS with DTM multi-timeslot capability of the class 11 allocates channel resources based on class 9 capability when performing DTM services. GUI Value Range: UNSUPPORT(Not Support), SUPPORT(Support) Unit: None Actual Value Range: UNSUPPORT, SUPPORT Default Value: UNSUPPORT(Not Support)
HMCD TM
BSC690 0
SET GCELL GPRS
GBFD-1 19404
HMC DTM
Meaning: Whether the cell supports the MS with the DTM multi-timeslot capability. GUI Value Range: UNSUPPORT(Not Support), SUPPORT(Support) Unit: None Actual Value Range: UNSUPPORT, SUPPORT Default Value: UNSUPPORT(Not Support)
HMCD TM
BSC691 0
SET GCELL GPRS
GBFD-1 19404
HMC DTM
Meaning: Whether the cell supports the MS with the DTM multi-timeslot capability. GUI Value Range: UNSUPPORT(Not Support), SUPPORT(Support) Unit: None Actual Value Range: UNSUPPORT, SUPPORT Default Value: UNSUPPORT(Not Support)
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GSM BSS DTM Feature Parameter Description
7 Parameters
Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
DTMO ptiSwitc h
BSC690 0
SET GCELL GPRS
GBFD-1 14151
DTM
Meaning: Whether to enable the DTM performance optimization. After this function is enabled, the BSC can allocate PS resources for DTM services over idle PDCHs. At that time, the BSC triggers the PDCH conversion first and then allocates PS resources. This function provides the following enhancements: PDCH resource protection after the DTM mode is disabled DTM resource allocation policy selection DTM resource allocation optimization in the concentric cell scenario Policy GUI Value Range: OFF(Off), ON(On) Unit: None Actual Value Range: OFF, ON Default Value: OFF(Off)
DTMO ptiSwitc h
BSC691 0
SET GCELL GPRS
GBFD-1 14151
DTM
Meaning: Whether to enable the DTM performance optimization. After this function is enabled, the BSC can allocate PS resources for DTM services over idle PDCHs. At that time, the BSC triggers the PDCH conversion first and then allocates PS resources. This function provides the following enhancements: PDCH resource protection after the DTM mode is disabled DTM resource allocation policy selection DTM resource allocation optimization in the concentric cell scenario Policy GUI Value Range: OFF(Off), ON(On) Unit: None Actual Value Range: OFF, ON Default Value: OFF(Off)
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GSM BSS DTM Feature Parameter Description
7 Parameters
Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
DTMC SAllocP olicy
BSC690 0
SET GCELL GPRS
GBFD-1 14151
DTM
Meaning: CS channel assignment priority during DTM call establishment When this parameter is set to different values, the priorities of the factors that affect CS channel assignment are as follows: CAPACITY(Capacity): capacity factors > DTM comprehensive factors > quality factors > management factors QUALITY(Quality): quality factors > capacity factors > DTM comprehensive factors > management factors DTMMULTI(Allocation): DTM comprehensive factors > capacity factors > quality factors > management factors MANAGEMENT1(Management 1): management factors > DTM comprehensive factors > capacity factors > quality factors MANAGEMENT2(Management 2): management factors > capacity factors > quality factors > DTM comprehensive factors GUI Value Range: CAPACITY(Capacity), QUALITY(Quality), DTMMULTI(Allocation), MANAGEMENT1(Management 1), MANAGEMENT2(Management 2) Unit: None Actual Value Range: CAPACITY, QUALITY, DTMMULTI, MANAGEMENT1, MANAGEMENT2 Default Value: CAPACITY(Capacity)
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GSM BSS DTM Feature Parameter Description
7 Parameters
Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
DTMC SAllocP olicy
BSC691 0
SET GCELL GPRS
GBFD-1 14151
DTM
Meaning: CS channel assignment priority during DTM call establishment When this parameter is set to different values, the priorities of the factors that affect CS channel assignment are as follows: CAPACITY(Capacity): capacity factors > DTM comprehensive factors > quality factors > management factors QUALITY(Quality): quality factors > capacity factors > DTM comprehensive factors > management factors DTMMULTI(Allocation): DTM comprehensive factors > capacity factors > quality factors > management factors MANAGEMENT1(Management 1): management factors > DTM comprehensive factors > capacity factors > quality factors MANAGEMENT2(Management 2): management factors > capacity factors > quality factors > DTM comprehensive factors GUI Value Range: CAPACITY(Capacity), QUALITY(Quality), DTMMULTI(Allocation), MANAGEMENT1(Management 1), MANAGEMENT2(Management 2) Unit: None Actual Value Range: CAPACITY, QUALITY, DTMMULTI, MANAGEMENT1, MANAGEMENT2 Default Value: CAPACITY(Capacity)
DTMC SVersio nPolicy
BSC690 0
SET GCELL GPRS
GBFD-1 14151
DTM
Meaning: Policy for selecting a CS speech version during the DTM TBF establishment. GUI Value Range: FRfirst(FullRate first), HRfirst(HalfRate first) Unit: None Actual Value Range: FRfirst, HRfirst Default Value: HRfirst(HalfRate first)
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GSM BSS DTM Feature Parameter Description
7 Parameters
Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
DTMC SVersio nPolicy
BSC691 0
SET GCELL GPRS
GBFD-1 14151
DTM
Meaning: Policy for selecting a CS speech version during the DTM TBF establishment. GUI Value Range: FRfirst(FullRate first), HRfirst(HalfRate first) Unit: None Actual Value Range: FRfirst, HRfirst Default Value: HRfirst(HalfRate first)
IUODT MAccP olicy
BSC690 0
SET GCELL GPRS
GBFD-1 14151
DTM
Meaning: Whether to allocate channels only in the subcell where the CS call is processed for the DTM service after a DTM service request is initiated in a concentric cell. When this parameter is set to CSLayerOnly, the BSC allocates channels only in the subcell where the CS call is processed for the DTM service. When this parameter is set to AllLayers, the BSC allocates channels in the overlaid or underlaid cell for the DTM service. GUI Value Range: AllLayers(All Layers), CSLayerOnly(CS Layer Only) Unit: None Actual Value Range: CSLayerOnly, AllLayers Default Value: CSLayerOnly(CS Layer Only)
IUODT MAccP olicy
BSC691 0
SET GCELL GPRS
GBFD-1 14151
DTM
Meaning: Whether to allocate channels only in the subcell where the CS call is processed for the DTM service after a DTM service request is initiated in a concentric cell. When this parameter is set to CSLayerOnly, the BSC allocates channels only in the subcell where the CS call is processed for the DTM service. When this parameter is set to AllLayers, the BSC allocates channels in the overlaid or underlaid cell for the DTM service. GUI Value Range: AllLayers(All Layers), CSLayerOnly(CS Layer Only) Unit: None Actual Value Range: CSLayerOnly, AllLayers Default Value: CSLayerOnly(CS Layer Only)
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GSM BSS DTM Feature Parameter Description
7 Parameters
Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
DYNC HNPRE EMPTL EV
BSC690 0
SET GCELL PSCH M
GBFD-1 19501
Adaptiv e Adjustm ent of Uplink and Downlin k Channel s
Meaning:
GPRS
"No preempt of service TCHF" indicates the circuit domain cannot preempt all the dynamic channels of bearer services.
GBFD-1 14101 GBFD-1 19303 GBFD-1 13101
Load Sharing PDCH Dynami c Adjustm ent
Mode of preempting dynamic PDCHs converted from TCHFs by CS services. Only the channel configured in the TCH/F mode can be preempted. "Preempt all dynamic TCHFs" indicates the circuit domain can preempt all the dynamic channels. "No preempt of CCHs" indicates the circuit domain can preempt all the dynamic channels except the CCHs.
"No preempt of DTM dynamic PDCHs" indicates the circuit domain can preempt all dynamic channels except those carrying DTM services. "No preempt of both DTM dynamic PDCHs and CCCHs" indicates the circuit domain cannot preempt the CCHs or the dynamic channels of DTM services. GUI Value Range: LEVEL0(Preempt all dynamic TCHFs), LEVEL1(No preempt of CCHs), LEVEL2(No preempt of service TCHF), LEVEL3(No preempt of DTM dynamic PDCHs), LEVEL4(No preempt of both DTM dynamic PDCHs and CCCHs) Unit: None Actual Value Range: LEVEL0, LEVEL1, LEVEL2, LEVEL3, LEVEL4 Default Value: LEVEL0(Preempt all dynamic TCHFs)
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GSM BSS DTM Feature Parameter Description
7 Parameters
Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
DYNC HNPRE EMPTL EV
BSC691 0
SET GCELL PSCH M
GBFD-1 19501
Adaptiv e Adjustm ent of Uplink and Downlin k Channel s
Meaning:
GPRS
"No preempt of service TCHF" indicates the circuit domain cannot preempt all the dynamic channels of bearer services.
GBFD-1 14101 GBFD-1 19303 GBFD-1 13101
Load Sharing PDCH Dynami c Adjustm ent
Mode of preempting dynamic PDCHs converted from TCHFs by CS services. Only the channel configured in the TCH/F mode can be preempted. "Preempt all dynamic TCHFs" indicates the circuit domain can preempt all the dynamic channels. "No preempt of CCHs" indicates the circuit domain can preempt all the dynamic channels except the CCHs.
"No preempt of DTM dynamic PDCHs" indicates the circuit domain can preempt all dynamic channels except those carrying DTM services. "No preempt of both DTM dynamic PDCHs and CCCHs" indicates the circuit domain cannot preempt the CCHs or the dynamic channels of DTM services. GUI Value Range: LEVEL0(Preempt all dynamic TCHFs), LEVEL1(No preempt of CCHs), LEVEL2(No preempt of service TCHF), LEVEL3(No preempt of DTM dynamic PDCHs), LEVEL4(No preempt of both DTM dynamic PDCHs and CCCHs) Unit: None Actual Value Range: LEVEL0, LEVEL1, LEVEL2, LEVEL3, LEVEL4 Default Value: LEVEL0(Preempt all dynamic TCHFs)
DTMI MMAP PLYSL AVEAB IS
BSC690 0
SET BSCPS SOFTP ARA
GBFD-1 14151
DTM
Meaning: Whether to request secondary links after the BSC allocates a channel to an MS in dual transfer mode (DTM).If this parameter is set to OFF(Off), the BSC does not request secondary links immediately after allocating a channel to the MS in DTM mode. If this parameter is set to ON(On), the BSC requests secondary links immediately after allocating a channel to the MS in DTM mode. GUI Value Range: OFF(Off), ON(On) Unit: None Actual Value Range: OFF, ON Default Value: ON(On)
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GSM BSS DTM Feature Parameter Description
7 Parameters
Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
DTMI MMAP PLYSL AVEAB IS
BSC691 0
SET BSCPS SOFTP ARA
GBFD-1 14151
DTM
Meaning: Whether to request secondary links after the BSC allocates a channel to an MS in dual transfer mode (DTM).If this parameter is set to OFF(Off), the BSC does not request secondary links immediately after allocating a channel to the MS in DTM mode. If this parameter is set to ON(On), the BSC requests secondary links immediately after allocating a channel to the MS in DTM mode. GUI Value Range: OFF(Off), ON(On) Unit: None Actual Value Range: OFF, ON Default Value: ON(On)
DTMC SHOOP TSW
BSC690 0
SET OTHSO FTPAR A
GBFD-1 14151
DTM
Meaning: Whether to allow the BSC to initiate handovers other than load-based handovers on MSs in dual transfer mode (DTM). If this parameter is set to NO(No), only emergency handovers, forced handovers and fast movement handovers are allowed for MSs in DTM mode. If this parameter is set to YES(Yes), handovers except load-based handovers are allowed for MSs in DTM mode. GUI Value Range: NO(No), YES(Yes) Unit: None Actual Value Range: NO, YES Default Value: NO(No)
DTMC SHOOP TSW
BSC691 0
SET OTHSO FTPAR A
GBFD-1 14151
DTM
Meaning: Whether to allow the BSC to initiate handovers other than load-based handovers on MSs in dual transfer mode (DTM). If this parameter is set to NO(No), only emergency handovers, forced handovers and fast movement handovers are allowed for MSs in DTM mode. If this parameter is set to YES(Yes), handovers except load-based handovers are allowed for MSs in DTM mode. GUI Value Range: NO(No), YES(Yes) Unit: None Actual Value Range: NO, YES Default Value: NO(No)
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GSM BSS DTM Feature Parameter Description
7 Parameters
Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
DtmCh Occupy SupplyS tatSw
BSC690 0
SET BSCEX SOFTP ARA
GBFD-1 14151
DTM
Meaning: Whether to measure handover related counters during DTM assignment. When this parameter is set to ON, if the MS fails to occupy the PDCH during DTM assignment, the BSC processes services following the normal handover procedure and measures the number of handover requests. If the BSC receives a Clear Command message from the MSC during DTM assignment, the BSC does not measure the number of handover requests, handover commands, and handover detection times. When this parameter is set to OFF, if the MS fails to occupy the PDCH during DTM assignment, the BSC does not measure handover requests. If the BSC receives a Clear Command message from the MSC during DTM assignment, the BSC measures the number of handover requests, handover commands, and handover detection times. GUI Value Range: OFF(Off), ON(On) Unit: None Actual Value Range: OFF, ON Default Value: ON(On)
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GSM BSS DTM Feature Parameter Description
7 Parameters
Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
DtmCh Occupy SupplyS tatSw
BSC691 0
SET BSCEX SOFTP ARA
GBFD-1 14151
DTM
Meaning: Whether to measure handover related counters during DTM assignment. When this parameter is set to ON, if the MS fails to occupy the PDCH during DTM assignment, the BSC processes services following the normal handover procedure and measures the number of handover requests. If the BSC receives a Clear Command message from the MSC during DTM assignment, the BSC does not measure the number of handover requests, handover commands, and handover detection times. When this parameter is set to OFF, if the MS fails to occupy the PDCH during DTM assignment, the BSC does not measure handover requests. If the BSC receives a Clear Command message from the MSC during DTM assignment, the BSC measures the number of handover requests, handover commands, and handover detection times. GUI Value Range: OFF(Off), ON(On) Unit: None Actual Value Range: OFF, ON Default Value: ON(On)
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GSM BSS DTM Feature Parameter Description
7 Parameters
Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
DTMU PDATE OPTIT YPE
BSC690 0
SET OTHSO FTPAR A
GBFD-1 14151
DTM
Meaning: Mode for processing the messages such as RAU Accept received before the LAU is complete during the parallel RA and LA updates in DTM mode. If this parameter is set to RAU_ACC_SEND_DELAY, the BSC sends the messages such as Routing Area Updating Accept to an MS using the PS immediate assignment procedure only after an SDCCH is released. If this parameter is set to SDCCH_REL_DELAY, the BSC sends the messages such as Routing Area Updating Accept to the MS by sending the downlink GPRS Information message. If the DTM Request message is received on an SDCCH, the BSC delays releasing the SDCCH. If this parameter is set to NO_DELAY, the BSC does not take any delay measures. GUI Value Range: RAU_ACC_SEND_DELAY(RAU ACC Send Delay), SDCCH_REL_DELAY(SDCCH Release Delay), NO_DELAY(No Delay) Unit: None Actual Value Range: RAU_ACC_SEND_DELAY, SDCCH_REL_DELAY, NO_DELAY Default Value: RAU_ACC_SEND_DELAY(RAU ACC Send Delay)
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GSM BSS DTM Feature Parameter Description
7 Parameters
Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
DTMU PDATE OPTIT YPE
BSC691 0
SET OTHSO FTPAR A
GBFD-1 14151
DTM
Meaning: Mode for processing the messages such as RAU Accept received before the LAU is complete during the parallel RA and LA updates in DTM mode. If this parameter is set to RAU_ACC_SEND_DELAY, the BSC sends the messages such as Routing Area Updating Accept to an MS using the PS immediate assignment procedure only after an SDCCH is released. If this parameter is set to SDCCH_REL_DELAY, the BSC sends the messages such as Routing Area Updating Accept to the MS by sending the downlink GPRS Information message. If the DTM Request message is received on an SDCCH, the BSC delays releasing the SDCCH. If this parameter is set to NO_DELAY, the BSC does not take any delay measures. GUI Value Range: RAU_ACC_SEND_DELAY(RAU ACC Send Delay), SDCCH_REL_DELAY(SDCCH Release Delay), NO_DELAY(No Delay) Unit: None Actual Value Range: RAU_ACC_SEND_DELAY, SDCCH_REL_DELAY, NO_DELAY Default Value: RAU_ACC_SEND_DELAY(RAU ACC Send Delay)
NMO
BSC690 0
SET GCELL PSBAS E
GBFD-1 19108
Network Operatio n Mode Support
Meaning: This parameter is related to the paging channel of the system. There are three network operation modes: network operation mode I, network operation mode II, and network operation mode III. Network operation mode I is used when the system is configured with the Gs interface. Network operation mode II is used when the system is not configured with the Gs interface and the PCCCH is not configured. Network operation mode III is used when the system is not configured with the Gs interface and the PCCCH is configured. GUI Value Range: NMOI(Network Operation Mode I), NMOII(Network Operation Mode II), NMOIII(Network Operation Mode III) Unit: None Actual Value Range: NMOI, NMOII, NMOIII Default Value: NMOII(Network Operation Mode II)
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GSM BSS DTM Feature Parameter Description
7 Parameters
Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
NMO
BSC691 0
SET GCELL PSBAS E
GBFD-1 19108
Network Operatio n Mode Support
Meaning: This parameter is related to the paging channel of the system. There are three network operation modes: network operation mode I, network operation mode II, and network operation mode III. Network operation mode I is used when the system is configured with the Gs interface. Network operation mode II is used when the system is not configured with the Gs interface and the PCCCH is not configured. Network operation mode III is used when the system is not configured with the Gs interface and the PCCCH is configured. GUI Value Range: NMOI(Network Operation Mode I), NMOII(Network Operation Mode II), NMOIII(Network Operation Mode III) Unit: None Actual Value Range: NMOI, NMOII, NMOIII Default Value: NMOII(Network Operation Mode II)
Vamos MainTs c
BSC690 0
SET GCELL VAMO S
GBFD-1 60201
VAMOS FR
GBFD-1 15830
VAMOS
Meaning: Primary Training Sequence Code (TSC) used in the network when the VAMOS function is enabled in a cell. Before all calls enter the VAMOS mode, the primary TSC is assigned preferentially; after a pair of VAMOS calls are multiplexed, the TSC that is not used by the call that accesses the timeslot first is assigned to the other call. GUI Value Range: 0~7 Unit: None Actual Value Range: 0~7 Default Value: 0
Vamos MainTs c
BSC691 0
SET GCELL VAMO S
GBFD-1 60201
VAMOS FR
GBFD-1 15830
VAMOS
Meaning: Primary Training Sequence Code (TSC) used in the network when the VAMOS function is enabled in a cell. Before all calls enter the VAMOS mode, the primary TSC is assigned preferentially; after a pair of VAMOS calls are multiplexed, the TSC that is not used by the call that accesses the timeslot first is assigned to the other call. GUI Value Range: 0~7 Unit: None Actual Value Range: 0~7 Default Value: 0
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GSM BSS DTM Feature Parameter Description
7 Parameters
Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
IBCAP DDYNT RENH ANCE
BSC690 0
SET GCELL CHMG AD
GBFD-1 17002
IBCA (Interfer ence Based Channel Allocati on)
Meaning: Whether to use the MAIO configured for the TRX during TCH-to-PDCH conversion when the IBCA algorithm is used. If this parameter is set to ON(On), dynamic PDCHs use the MAIO configured for the TRX. If this parameter is set to OFF(Off), dynamic PDCHs use an MAIO selected from the planned MAIO list. GUI Value Range: OFF(Off), ON(On) Unit: None Actual Value Range: ON, OFF Default Value: OFF(Off)
IBCAP DDYNT RENH ANCE
BSC691 0
SET GCELL CHMG AD
GBFD-1 17002
IBCA (Interfer ence Based Channel Allocati on)
Meaning: Whether to use the MAIO configured for the TRX during TCH-to-PDCH conversion when the IBCA algorithm is used. If this parameter is set to ON(On), dynamic PDCHs use the MAIO configured for the TRX. If this parameter is set to OFF(Off), dynamic PDCHs use an MAIO selected from the planned MAIO list. GUI Value Range: OFF(Off), ON(On) Unit: None Actual Value Range: ON, OFF Default Value: OFF(Off)
GprsPd chSynM ode
BSC690 0
SET GCELL PSOTH ERPAR A
GBFD-1 14101
GPRS
Meaning: Whether GPRS channels applies the Abis synchronization for EGPRS channels in Abis over TDM. Setting this parameter to ON(On) enables the GPRS channel to use the Abis synchronization for EGPRS channels. Setting this parameter to OFF(Off) allows the GPRS channel to use only the Abis synchronization for GPRS channels. GUI Value Range: OFF(Off), ON(On) Unit: None Actual Value Range: OFF, ON Default Value: OFF(Off)
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GSM BSS DTM Feature Parameter Description
7 Parameters
Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
GprsPd chSynM ode
BSC691 0
SET GCELL PSOTH ERPAR A
GBFD-1 14101
GPRS
Meaning: Whether GPRS channels applies the Abis synchronization for EGPRS channels in Abis over TDM. Setting this parameter to ON(On) enables the GPRS channel to use the Abis synchronization for EGPRS channels. Setting this parameter to OFF(Off) allows the GPRS channel to use only the Abis synchronization for GPRS channels. GUI Value Range: OFF(Off), ON(On) Unit: None Actual Value Range: OFF, ON Default Value: OFF(Off)
IUOCH NTRAN
BSC690 0
SET GCELL PSCH M
GBFD-1 19501 GBFD-1 19303 GBFD-1 13201 GBFD-1 13101
Adaptiv e Adjustm ent of Uplink and Downlin k Channel s
Meaning:
Load Sharing
CONVERT3: TCHs in the TRX of the overlaid subcell are preferentially converted to PDCHs.
Concent ric Cell
This parameter is configured based on the congestion conditions of CS services in the concentric cell. If the congestion occurs in the underlaid subcell, convert TCHs preferentially in the overlaid subcell to PDCHs. If the congestion occurs in the overlaid subcell, convert TCHs preferentially in the underlaid subcell to PDCHs.
PDCH Dynami c Adjustm ent
Policy for converting dynamic PDCHs in a concentric cell. CONVERT0: Only TCHs in the TRX of the underlaid subcell can be converted to PDCHs. CONVERT1: Only TCHs in the TRX of the overlaid subcell can be converted to PDCHs. CONVERT2: TCHs in the TRX of the underlaid subcell are preferentially converted to PDCHs.
GUI Value Range: CONVERT0(Only convert at UL), CONVERT1(Only convert at OL), CONVERT2(UL first and convert allowed), CONVERT3(OL first and convert allowed) Unit: None Actual Value Range: CONVERT0, CONVERT1, CONVERT2, CONVERT3 Default Value: CONVERT2(UL first and convert allowed)
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GSM BSS DTM Feature Parameter Description
7 Parameters
Parame ter ID
NE
MML Comma nd
Feature ID
Feature Name
Description
IUOCH NTRAN
BSC691 0
SET GCELL PSCH M
GBFD-1 19501
Adaptiv e Adjustm ent of Uplink and Downlin k Channel s
Meaning:
Load Sharing
CONVERT3: TCHs in the TRX of the overlaid subcell are preferentially converted to PDCHs.
Concent ric Cell
This parameter is configured based on the congestion conditions of CS services in the concentric cell. If the congestion occurs in the underlaid subcell, convert TCHs preferentially in the overlaid subcell to PDCHs. If the congestion occurs in the overlaid subcell, convert TCHs preferentially in the underlaid subcell to PDCHs.
GBFD-1 19303 GBFD-1 13201 GBFD-1 13101
PDCH Dynami c Adjustm ent
Policy for converting dynamic PDCHs in a concentric cell. CONVERT0: Only TCHs in the TRX of the underlaid subcell can be converted to PDCHs. CONVERT1: Only TCHs in the TRX of the overlaid subcell can be converted to PDCHs. CONVERT2: TCHs in the TRX of the underlaid subcell are preferentially converted to PDCHs.
GUI Value Range: CONVERT0(Only convert at UL), CONVERT1(Only convert at OL), CONVERT2(UL first and convert allowed), CONVERT3(OL first and convert allowed) Unit: None Actual Value Range: CONVERT0, CONVERT1, CONVERT2, CONVERT3 Default Value: CONVERT2(UL first and convert allowed)
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GSM BSS DTM Feature Parameter Description
8 Counters
8
Counters
Table 8-1 Counters Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1278474452
CELL.DTM.C HAN.ALLOC. REQ.TIMES
R3100:DTM Channel Assignments Times
BSC6900
GBFD-114151
DTM
1278474452
CELL.DTM.C HAN.ALLOC. REQ.TIMES
R3100:DTM Channel Assignments Times
BSC6910
GBFD-114151
DTM
1278474453
CELL.DTM.C HAN.ALLOC. SUCC.TIMES. TCHF
R3141A:DTM Channel Assignments Successful Times (TCHF)
BSC6900
GBFD-114151
DTM
1278474453
CELL.DTM.C HAN.ALLOC. SUCC.TIMES. TCHF
R3141A:DTM Channel Assignments Successful Times (TCHF)
BSC6910
GBFD-114151
DTM
1278474454
CELL.DTM.C HAN.ALLOC. SUCC.TIMES. TCHH
R3142A:DTM Channel Assignments Successful Times (TCHH)
BSC6900
GBFD-114151
DTM
1278474454
CELL.DTM.C HAN.ALLOC. SUCC.TIMES. TCHH
R3142A:DTM Channel Assignments Successful Times (TCHH)
BSC6910
GBFD-114151
DTM
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GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1279171423
DCCH.PACKE T.NOTIFICAT ION.PAGING. MSG
A9607:Number of Packet Notification Sent on DCCH
BSC6900
GBFD-114151
DTM
GBFD-119112
PS Paging
DCCH.PACKE T.NOTIFICAT ION.PAGING. MSG
A9607:Number of Packet Notification Sent on DCCH
BSC6910
GBFD-114151
DTM
GBFD-119112
PS Paging
1279173455
UP.GPRS.TBF. ABNORM.RE L.CS.HO
A9039:Number of Abnormal Uplink GPRS TBF Releases due to CS Handover
BSC6900
GBFD-114151
DTM
1279173455
UP.GPRS.TBF. ABNORM.RE L.CS.HO
A9039:Number of Abnormal Uplink GPRS TBF Releases due to CS Handover
BSC6910
GBFD-114151
DTM
1279174453
DOWN.GPRS. TBF.ABNOR M.REL.CS.HO
A9137:Number of Abnormal downlink GPRS TBF Releases due to CS Handover
BSC6900
GBFD-114151
DTM
1279174453
DOWN.GPRS. TBF.ABNOR M.REL.CS.HO
A9137:Number of Abnormal downlink GPRS TBF Releases due to CS Handover
BSC6910
GBFD-114151
DTM
1279175453
UP.EGPRS.TB F.ABNORM.R EL.CS.HO
A9237:Number of Abnormal Uplink EGPRS TBF Releases due to CS Handover
BSC6900
GBFD-114151
DTM
1279175453
UP.EGPRS.TB F.ABNORM.R EL.CS.HO
A9237:Number of Abnormal Uplink EGPRS TBF Releases due to CS Handover
BSC6910
GBFD-114151
DTM
1279171423
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GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1279176451
DOWN.EGPR S.TBF.ABNOR M.REL.CS.HO
A9335:Number of Abnormal downlink EGPRS TBF Releases due to CS Handover
BSC6900
GBFD-114151
DTM
1279176451
DOWN.EGPR S.TBF.ABNOR M.REL.CS.HO
A9335:Number of Abnormal downlink EGPRS TBF Releases due to CS Handover
BSC6910
GBFD-114151
DTM
1279183473
UPLINK.GPR S.INFO
L9457:Number of Received Uplink GPRS Information Messages
BSC6900
GBFD-114151
DTM
1279183473
UPLINK.GPR S.INFO
L9457:Number of Received Uplink GPRS Information Messages
BSC6910
GBFD-114151
DTM
1279183474
UPLINK.GPR S.INFO.TOTA L.BYTE
L9458:Total Bytes of Received Uplink GPRS Information Messages
BSC6900
GBFD-114151
DTM
1279183474
UPLINK.GPR S.INFO.TOTA L.BYTE
L9458:Total Bytes of Received Uplink GPRS Information Messages
BSC6910
GBFD-114151
DTM
1279184477
DOWNLINK. GPRS.INFO
L9561:Number of Sent Downlink GPRS Information Messages
BSC6900
GBFD-114151
DTM
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66
GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1279184477
DOWNLINK. GPRS.INFO
L9561:Number of Sent Downlink GPRS Information Messages
BSC6910
GBFD-114151
DTM
1279184478
DOWNLINK. GPRS.INFO.T OTAL.BYTE
L9562:Total Bytes of Sent Downlink GPRS Information Messages
BSC6900
GBFD-114151
DTM
1279184478
DOWNLINK. GPRS.INFO.T OTAL.BYTE
L9562:Total Bytes of Sent Downlink GPRS Information Messages
BSC6910
GBFD-114151
DTM
1279187424
SINGLE.SLO T.DTM
A9708:Processi ng Times of PS Services by MSs Supporting Single Slot DTM
BSC6900
GBFD-114151
DTM
1279187424
SINGLE.SLO T.DTM
A9708:Processi ng Times of PS Services by MSs Supporting Single Slot DTM
BSC6910
GBFD-114151
DTM
1279187425
DTM.GPRS.M ULTISLOT.CL ASS5
A9709:Processi ng Times of PS Services by MSs Supporting Multislot Class 5 in DTM GPRS
BSC6900
GBFD-114151
DTM
1279187425
DTM.GPRS.M ULTISLOT.CL ASS5
A9709:Processi ng Times of PS Services by MSs Supporting Multislot Class 5 in DTM GPRS
BSC6910
GBFD-114151
DTM
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67
GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1279187426
DTM.GPRS.M ULTISLOT.CL ASS6
A9710:Processi ng Times of PS Services by MSs Supporting Multislot Class 6 in DTM GPRS
BSC6900
GBFD-114151
DTM
1279187426
DTM.GPRS.M ULTISLOT.CL ASS6
A9710:Processi ng Times of PS Services by MSs Supporting Multislot Class 6 in DTM GPRS
BSC6910
GBFD-114151
DTM
1279187427
DTM.GPRS.M ULTISLOT.CL ASS9
A9711:Processi ng Times of PS Services by MSs Supporting Multislot Class 9 in DTM GPRS
BSC6900
GBFD-114151
DTM
1279187427
DTM.GPRS.M ULTISLOT.CL ASS9
A9711:Processi ng Times of PS Services by MSs Supporting Multislot Class 9 in DTM GPRS
BSC6910
GBFD-114151
DTM
1279187428
DTM.GPRS.M ULTISLOT.CL ASS10
A9712:Processi ng Times of PS Services by MSs Supporting Multislot Class 10 in DTM GPRS
BSC6900
GBFD-114151
DTM
1279187428
DTM.GPRS.M ULTISLOT.CL ASS10
A9712:Processi ng Times of PS Services by MSs Supporting Multislot Class 10 in DTM GPRS
BSC6910
GBFD-114151
DTM
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GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1279187429
DTM.GPRS.M ULTISLOT.CL ASS11
A9713:Processi ng Times of PS Services by MSs Supporting Multislot Class 11 in DTM GPRS
BSC6900
GBFD-119403
Class11 DTM
1279187429
DTM.GPRS.M ULTISLOT.CL ASS11
A9713:Processi ng Times of PS Services by MSs Supporting Multislot Class 11 in DTM GPRS
BSC6910
GBFD-119403
Class11 DTM
1279187430
DTM.EGPRS. MULTISLOT. CLASS5
A9714:Processi ng Times of PS Services by MSs Supporting Multislot Class 5 in DTM EGPRS
BSC6900
GBFD-114151
DTM
1279187430
DTM.EGPRS. MULTISLOT. CLASS5
A9714:Processi ng Times of PS Services by MSs Supporting Multislot Class 5 in DTM EGPRS
BSC6910
GBFD-114151
DTM
1279187431
DTM.EGPRS. MULTISLOT. CLASS6
A9715:Processi ng Times of PS Services by MSs Supporting Multislot Class 6 in DTM EGPRS
BSC6900
GBFD-114151
DTM
1279187431
DTM.EGPRS. MULTISLOT. CLASS6
A9715:Processi ng Times of PS Services by MSs Supporting Multislot Class 6 in DTM EGPRS
BSC6910
GBFD-114151
DTM
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69
GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1279187432
DTM.EGPRS. MULTISLOT. CLASS9
A9716:Processi ng Times of PS Services by MSs Supporting Multislot Class 9 in DTM EGPRS
BSC6900
GBFD-114151
DTM
1279187432
DTM.EGPRS. MULTISLOT. CLASS9
A9716:Processi ng Times of PS Services by MSs Supporting Multislot Class 9 in DTM EGPRS
BSC6910
GBFD-114151
DTM
1279187433
DTM.EGPRS. MULTISLOT. CLASS10
A9717:Processi ng Times of PS Services by MSs Supporting Multislot Class 10 in DTM EGPRS
BSC6900
GBFD-114151
DTM
1279187433
DTM.EGPRS. MULTISLOT. CLASS10
A9717:Processi ng Times of PS Services by MSs Supporting Multislot Class 10 in DTM EGPRS
BSC6910
GBFD-114151
DTM
1279187434
DTM.EGPRS. MULTISLOT. CLASS11
A9718:Processi ng Times of PS Services by MSs Supporting Multislot Class 11 in DTM EGPRS
BSC6900
GBFD-119403
Class11 DTM
1279187434
DTM.EGPRS. MULTISLOT. CLASS11
A9718:Processi ng Times of PS Services by MSs Supporting Multislot Class 11 in DTM EGPRS
BSC6910
GBFD-119403
Class11 DTM
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GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1279187437
DTM.GPRS.H IGH.MULTIS LOT.CLASS31 .36
A9721:Processi ng Times of PS Services by MSs Supporting Multislot Class 31 or 36 in DTM GPRS
BSC6900
GBFD-119404
HMC DTM
1279187437
DTM.GPRS.H IGH.MULTIS LOT.CLASS31 .36
A9721:Processi ng Times of PS Services by MSs Supporting Multislot Class 31 or 36 in DTM GPRS
BSC6910
GBFD-119404
HMC DTM
1279187438
DTM.GPRS.H IGH.MULTIS LOT.CLASS32 .37
A9722:Processi ng Times of PS Services by MSs Supporting Multislot Class 32 or 37 in DTM GPRS
BSC6900
GBFD-119404
HMC DTM
1279187438
DTM.GPRS.H IGH.MULTIS LOT.CLASS32 .37
A9722:Processi ng Times of PS Services by MSs Supporting Multislot Class 32 or 37 in DTM GPRS
BSC6910
GBFD-119404
HMC DTM
1279187439
DTM.GPRS.H IGH.MULTIS LOT.CLASS33 .38
A9723:Processi ng Times of PS Services by MSs Supporting Multislot Class 33 or 38 in DTM GPRS
BSC6900
GBFD-119404
HMC DTM
1279187439
DTM.GPRS.H IGH.MULTIS LOT.CLASS33 .38
A9723:Processi ng Times of PS Services by MSs Supporting Multislot Class 33 or 38 in DTM GPRS
BSC6910
GBFD-119404
HMC DTM
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GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1279187440
DTM.GPRS.H IGH.MULTIS LOT.CLASS41
A9724:Processi ng Times of PS Services by MSs Supporting Multislot Class 41 in DTM GPRS
BSC6900
GBFD-119404
HMC DTM
1279187440
DTM.GPRS.H IGH.MULTIS LOT.CLASS41
A9724:Processi ng Times of PS Services by MSs Supporting Multislot Class 41 in DTM GPRS
BSC6910
GBFD-119404
HMC DTM
1279187441
DTM.GPRS.H IGH.MULTIS LOT.CLASS42
A9725:Processi ng Times of PS Services by MSs Supporting Multislot Class 42 in DTM GPRS
BSC6900
GBFD-119404
HMC DTM
1279187441
DTM.GPRS.H IGH.MULTIS LOT.CLASS42
A9725:Processi ng Times of PS Services by MSs Supporting Multislot Class 42 in DTM GPRS
BSC6910
GBFD-119404
HMC DTM
1279187442
DTM.GPRS.H IGH.MULTIS LOT.CLASS43
A9726:Processi ng Times of PS Services by MSs Supporting Multislot Class 43 in DTM GPRS
BSC6900
GBFD-119404
HMC DTM
1279187442
DTM.GPRS.H IGH.MULTIS LOT.CLASS43
A9726:Processi ng Times of PS Services by MSs Supporting Multislot Class 43 in DTM GPRS
BSC6910
GBFD-119404
HMC DTM
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GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1279187443
DTM.GPRS.H IGH.MULTIS LOT.CLASS44
A9727:Processi ng Times of PS Services by MSs Supporting Multislot Class 44 in DTM GPRS
BSC6900
GBFD-119404
HMC DTM
1279187443
DTM.GPRS.H IGH.MULTIS LOT.CLASS44
A9727:Processi ng Times of PS Services by MSs Supporting Multislot Class 44 in DTM GPRS
BSC6910
GBFD-119404
HMC DTM
1279187444
DTM.EGPRS. HIGH.MULTI SLOT.CLASS3 1.36
A9728:Processi ng Times of PS Services by MSs Supporting Multislot Class 31 or 36 in DTM EGPRS
BSC6900
GBFD-119404
HMC DTM
1279187444
DTM.EGPRS. HIGH.MULTI SLOT.CLASS3 1.36
A9728:Processi ng Times of PS Services by MSs Supporting Multislot Class 31 or 36 in DTM EGPRS
BSC6910
GBFD-119404
HMC DTM
1279187445
DTM.EGPRS. HIGH.MULTI SLOT.CLASS3 2.37
A9729:Processi ng Times of PS Services by MSs Supporting Multislot Class 32 or 37 in DTM EGPRS
BSC6900
GBFD-119404
HMC DTM
1279187445
DTM.EGPRS. HIGH.MULTI SLOT.CLASS3 2.37
A9729:Processi ng Times of PS Services by MSs Supporting Multislot Class 32 or 37 in DTM EGPRS
BSC6910
GBFD-119404
HMC DTM
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GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1279187446
DTM.EGPRS. HIGH.MULTI SLOT.CLASS3 3.38
A9730:Processi ng Times of PS Services by MSs Supporting Multislot Class 33 or 38 in DTM EGPRS
BSC6900
GBFD-119404
HMC DTM
1279187446
DTM.EGPRS. HIGH.MULTI SLOT.CLASS3 3.38
A9730:Processi ng Times of PS Services by MSs Supporting Multislot Class 33 or 38 in DTM EGPRS
BSC6910
GBFD-119404
HMC DTM
1279187447
DTM.EGPRS. HIGH.MULTI SLOT.CLASS4 1
A9731:Processi ng Times of PS Services by MSs Supporting Multislot Class 41 in DTM EGPRS
BSC6900
GBFD-119404
HMC DTM
1279187447
DTM.EGPRS. HIGH.MULTI SLOT.CLASS4 1
A9731:Processi ng Times of PS Services by MSs Supporting Multislot Class 41 in DTM EGPRS
BSC6910
GBFD-119404
HMC DTM
1279187448
DTM.EGPRS. HIGH.MULTI SLOT.CLASS4 2
A9732:Processi ng Times of PS Services by MSs Supporting Multislot Class 42 in DTM EGPRS
BSC6900
GBFD-119404
HMC DTM
1279187448
DTM.EGPRS. HIGH.MULTI SLOT.CLASS4 2
A9732:Processi ng Times of PS Services by MSs Supporting Multislot Class 42 in DTM EGPRS
BSC6910
GBFD-119404
HMC DTM
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74
GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1279187449
DTM.EGPRS. HIGH.MULTI SLOT.CLASS4 3
A9733:Processi ng Times of PS Services by MSs Supporting Multislot Class 43 in DTM EGPRS
BSC6900
GBFD-119404
HMC DTM
1279187449
DTM.EGPRS. HIGH.MULTI SLOT.CLASS4 3
A9733:Processi ng Times of PS Services by MSs Supporting Multislot Class 43 in DTM EGPRS
BSC6910
GBFD-119404
HMC DTM
1279187450
DTM.EGPRS. HIGH.MULTI SLOT.CLASS4 4
A9734:Processi ng Times of PS Services by MSs Supporting Multislot Class 44 in DTM EGPRS
BSC6900
GBFD-119404
HMC DTM
1279187450
DTM.EGPRS. HIGH.MULTI SLOT.CLASS4 4
A9734:Processi ng Times of PS Services by MSs Supporting Multislot Class 44 in DTM EGPRS
BSC6910
GBFD-119404
HMC DTM
1279189417
DTM.DCCH.U PLINK.DTM. REQUEST
A9801:Number of DTM Request Received on DCCH
BSC6900
GBFD-114151
DTM
1279189417
DTM.DCCH.U PLINK.DTM. REQUEST
A9801:Number of DTM Request Received on DCCH
BSC6910
GBFD-114151
DTM
1279189418
DTM.DCCH.U PLINK.DTM. ASS
A9802:Number of Uplink DTM Assignments Sent on DCCH
BSC6900
GBFD-114151
DTM
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GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1279189418
DTM.DCCH.U PLINK.DTM. ASS
A9802:Number of Uplink DTM Assignments Sent on DCCH
BSC6910
GBFD-114151
DTM
1279189419
DTM.SUCC.D CCH.UPLINK. DTM.ASS
A9803:Number of Successful Uplink DTM Assignments Received on DCCH
BSC6900
GBFD-114151
DTM
1279189419
DTM.SUCC.D CCH.UPLINK. DTM.ASS
A9803:Number of Successful Uplink DTM Assignments Received on DCCH
BSC6910
GBFD-114151
DTM
1279189420
DTM.FAIL.DC CH.UPLINK.D TM.ASS
A9804:Number of Failed Uplink DTM Assignments Received on DCCH
BSC6900
GBFD-114151
DTM
1279189420
DTM.FAIL.DC CH.UPLINK.D TM.ASS
A9804:Number of Failed Uplink DTM Assignments Received on DCCH
BSC6910
GBFD-114151
DTM
1279189421
DTM.DCCH.U PLINK.PACK ET.ASS
A9805:Number of Packet Uplink Assignments Sent on DCCH
BSC6900
GBFD-114151
DTM
1279189421
DTM.DCCH.U PLINK.PACK ET.ASS
A9805:Number of Packet Uplink Assignments Sent on DCCH
BSC6910
GBFD-114151
DTM
1279189422
DTM.SUCC.D CCH.UPLINK. PACKET.ASS
A9806:Number of Successful Packet Uplink Assignments Sent on DCCH
BSC6900
GBFD-114151
DTM
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GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1279189422
DTM.SUCC.D CCH.UPLINK. PACKET.ASS
A9806:Number of Successful Packet Uplink Assignments Sent on DCCH
BSC6910
GBFD-114151
DTM
1279189423
DTM.DCCH.U PLINK.DTM. REJ
A9807:Number of Uplink DTM Rejects Sent on DCCH
BSC6900
GBFD-114151
DTM
1279189423
DTM.DCCH.U PLINK.DTM. REJ
A9807:Number of Uplink DTM Rejects Sent on DCCH
BSC6910
GBFD-114151
DTM
1279189424
DTM.DCCH.D OWNLINK.D TM.ASS
A9808:Number of Downlink DTM Assignments Sent on DCCH
BSC6900
GBFD-114151
DTM
1279189424
DTM.DCCH.D OWNLINK.D TM.ASS
A9808:Number of Downlink DTM Assignments Sent on DCCH
BSC6910
GBFD-114151
DTM
1279189425
DTM.SUCC.D CCH.DOWNL INK.DTM.ASS
A9809:Number of Successful Downlink DTM Assignments Received on DCCH
BSC6900
GBFD-114151
DTM
1279189425
DTM.SUCC.D CCH.DOWNL INK.DTM.ASS
A9809:Number of Successful Downlink DTM Assignments Received on DCCH
BSC6910
GBFD-114151
DTM
1279189426
DTM.FAIL.DC CH.DOWNLI NK.DTM.ASS
A9810:Number of Failed Downlink DTM Assignments Received on DCCH
BSC6900
GBFD-114151
DTM
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GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1279189426
DTM.FAIL.DC CH.DOWNLI NK.DTM.ASS
A9810:Number of Failed Downlink DTM Assignments Received on DCCH
BSC6910
GBFD-114151
DTM
1279189427
DTM.DCCH.D OWNLINK.PA CKET.ASS
A9811:Number of Packet Downlink Assignments Sent on DCCH
BSC6900
GBFD-114151
DTM
1279189427
DTM.DCCH.D OWNLINK.PA CKET.ASS
A9811:Number of Packet Downlink Assignments Sent on DCCH
BSC6910
GBFD-114151
DTM
1279189428
DTM.SUCC.D CCH.DOWNL INK.PACKET. ASS
A9812:Number of Successful Packet Downlink Assignments Sent on DCCH
BSC6900
GBFD-114151
DTM
1279189428
DTM.SUCC.D CCH.DOWNL INK.PACKET. ASS
A9812:Number of Successful Packet Downlink Assignments Sent on DCCH
BSC6910
GBFD-114151
DTM
1282433000
DTM.UP.TBF. ESTB.ATMP
A9813:Number of Uplink DTM TBF Establishment Attempts
BSC6900
GBFD-114151
DTM
1282433000
DTM.UP.TBF. ESTB.ATMP
A9813:Number of Uplink DTM TBF Establishment Attempts
BSC6910
GBFD-114151
DTM
1282433001
DTM.UP.TBF. ESTB.SUCC
A9814:Number of Successful Uplink DTM TBF Establishments
BSC6900
GBFD-114151
DTM
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78
GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1282433001
DTM.UP.TBF. ESTB.SUCC
A9814:Number of Successful Uplink DTM TBF Establishments
BSC6910
GBFD-114151
DTM
1282433002
DTM.UP.TBF. ESTB.FAIL.N O.CHAN.RES
A9815:Number of Failed Uplink DTM TBF Establishments Due to No Channel
BSC6900
GBFD-114151
DTM
1282433002
DTM.UP.TBF. ESTB.FAIL.N O.CHAN.RES
A9815:Number of Failed Uplink DTM TBF Establishments Due to No Channel
BSC6910
GBFD-114151
DTM
1282433003
DTM.DOWN. TBF.ESTB.AT MP
A9816:Number of Downlink DTM TBF Establishment Attempts
BSC6900
GBFD-114151
DTM
1282433003
DTM.DOWN. TBF.ESTB.AT MP
A9816:Number of Downlink DTM TBF Establishment Attempts
BSC6910
GBFD-114151
DTM
1282433004
DTM.DOWN. TBF.ESTB.SU CC
A9817:Number of Successful Downlink DTM TBF Establishments
BSC6900
GBFD-114151
DTM
1282433004
DTM.DOWN. TBF.ESTB.SU CC
A9817:Number of Successful Downlink DTM TBF Establishments
BSC6910
GBFD-114151
DTM
1282433005
DTM.DOWN. TBF.ESTB.FAI L.NO.CHAN.R ES
A9818:Number of Failed Downlink DTM TBF Establishments Due to No Channel
BSC6900
GBFD-114151
DTM
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79
GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1282433005
DTM.DOWN. TBF.ESTB.FAI L.NO.CHAN.R ES
A9818:Number of Failed Downlink DTM TBF Establishments Due to No Channel
BSC6910
GBFD-114151
DTM
1282433006
DTM.UP.TBF. ABNORM.RE L.N3101.OVE RFLOW
A9819:Number of Uplink DTM TBF Abnormal Releases Due to N3101 Overflow
BSC6900
GBFD-114151
DTM
1282433006
DTM.UP.TBF. ABNORM.RE L.N3101.OVE RFLOW
A9819:Number of Uplink DTM TBF Abnormal Releases Due to N3101 Overflow
BSC6910
GBFD-114151
DTM
1282433007
DTM.UP.TBF. ABNORM.RE L.N3103.OVE RFLOW
A981A:Number of Uplink DTM TBF Abnormal Releases Due to N3103 Overflow
BSC6900
GBFD-114151
DTM
1282433007
DTM.UP.TBF. ABNORM.RE L.N3103.OVE RFLOW
A981A:Number of Uplink DTM TBF Abnormal Releases Due to N3103 Overflow
BSC6910
GBFD-114151
DTM
1282433008
DTM.DOWN. TBF.ABNOR M.REL.N3105. OVERFLOW
A981B:Number of Downlink DTM TBF Abnormal Releases Due to N3105 Overflow
BSC6900
GBFD-114151
DTM
1282433008
DTM.DOWN. TBF.ABNOR M.REL.N3105. OVERFLOW
A981B:Number of Downlink DTM TBF Abnormal Releases Due to N3105 Overflow
BSC6910
GBFD-114151
DTM
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80
GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1282433009
DTM.DOWN. TBF.TRANS.I NTERRUPT.T IMES
A981C:Number of Downlink DTM Intermit Transfers
BSC6900
GBFD-114151
DTM
1282433009
DTM.DOWN. TBF.TRANS.I NTERRUPT.T IMES
A981C:Number of Downlink DTM Intermit Transfers
BSC6910
GBFD-114151
DTM
1282433010
DTM.UP.TBF. ABNORM.RE L.CS.HANGU P.AND.HO
A981D:Number of Abnormal Uplink DTM TBF Releases Due to CS Hangup or Handover
BSC6900
GBFD-114151
DTM
1282433010
DTM.UP.TBF. ABNORM.RE L.CS.HANGU P.AND.HO
A981D:Number of Abnormal Uplink DTM TBF Releases Due to CS Hangup or Handover
BSC6910
GBFD-114151
DTM
1282433011
DTM.DOWN. TBF.ABNOR M.REL.CS.HA NGUP.AND.H O
A981E:Number of Abnormal Downlink DTM TBF Releases Due to CS Hangup or Handover
BSC6900
GBFD-114151
DTM
1282433011
DTM.DOWN. TBF.ABNOR M.REL.CS.HA NGUP.AND.H O
A981E:Number of Abnormal Downlink DTM TBF Releases Due to CS Hangup or Handover
BSC6910
GBFD-114151
DTM
1282434150
DTM.UP.TBF. ESTB.FAIL.M S.NO.RESP
A9820:Number of Failed Uplink DTM TBF Establishments due to MS No Response
BSC6900
GBFD-114151
DTM
Issue 01 (2015-04-20)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
81
GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1282434150
DTM.UP.TBF. ESTB.FAIL.M S.NO.RESP
A9820:Number of Failed Uplink DTM TBF Establishments due to MS No Response
BSC6910
GBFD-114151
DTM
1282434151
DTM.DOWN. TBF.ESTB.FAI L.MS.NO.RES P
A9821:Number of Failed Downlink DTM TBF Establishments due to MS No Response
BSC6900
GBFD-114151
DTM
1282434151
DTM.DOWN. TBF.ESTB.FAI L.MS.NO.RES P
A9821:Number of Failed Downlink DTM TBF Establishments due to MS No Response
BSC6910
GBFD-114151
DTM
1282434152
DTM.PACCH. DOWN.ASS
A9822:Number of Downlink DTM TBF Assignments on PACCH
BSC6900
GBFD-114151
DTM
1282434152
DTM.PACCH. DOWN.ASS
A9822:Number of Downlink DTM TBF Assignments on PACCH
BSC6910
GBFD-114151
DTM
1282434153
DTM.PACCH. UPLINK.ASS
A9823:Number of Uplink DTM TBF Assignments on PACCH
BSC6900
GBFD-114151
DTM
1282434153
DTM.PACCH. UPLINK.ASS
A9823:Number of Uplink DTM TBF Assignments on PACCH
BSC6910
GBFD-114151
DTM
Issue 01 (2015-04-20)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
82
GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1282434154
DTM.ASS.SU CC.PACCH.D OWN.ASS
A9824:Number of Successful Downlink DTM TBF Assignments on PACCH
BSC6900
GBFD-114151
DTM
1282434154
DTM.ASS.SU CC.PACCH.D OWN.ASS
A9824:Number of Successful Downlink DTM TBF Assignments on PACCH
BSC6910
GBFD-114151
DTM
1282434155
DTM.ASS.SU CC.PACCH.U PLINK.ASS
A9825:Number of Successful Uplink DTM TBF Assignments on PACCH
BSC6900
GBFD-114151
DTM
1282434155
DTM.ASS.SU CC.PACCH.U PLINK.ASS
A9825:Number of Successful Uplink DTM TBF Assignments on PACCH
BSC6910
GBFD-114151
DTM
1282434156
TX.DTM.UP.E GPRS.STRM. LLC.PDU.TO TAL.BYTE
L9580:Total Bytes of Uplink EGPRS Streaming Service DTM LLC PDUs
BSC6900
GBFD-114201
EGPRS
GBFD-114151
DTM
GBFD-119901
Streaming QoS(GBR)
TX.DTM.UP.E GPRS.STRM. LLC.PDU.TO TAL.BYTE
L9580:Total Bytes of Uplink EGPRS Streaming Service DTM LLC PDUs
BSC6910
GBFD-114201
EGPRS
GBFD-114151
DTM
GBFD-119901
Streaming QoS(GBR)
TX.DTM.UP.G PRS.STRM.LL C.PDU.TOTA L.BYTE
L9581:Total Bytes of Uplink GPRS Streaming Service DTM LLC PDUs
BSC6900
GBFD-114101
GPRS
GBFD-114151
DTM
GBFD-119901
Streaming QoS(GBR)
1282434156
1282434157
Issue 01 (2015-04-20)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
83
GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1282434157
TX.DTM.UP.G PRS.STRM.LL C.PDU.TOTA L.BYTE
L9581:Total Bytes of Uplink GPRS Streaming Service DTM LLC PDUs
BSC6910
GBFD-114101
GPRS
GBFD-114151
DTM
GBFD-119901
Streaming QoS(GBR)
TX.DTM.UP.E GPRS.BKGND .INTACT.LLC. PDU.TOTAL. BYTE
L9582:Total Bytes of Uplink EGPRS Background and Interactive Services DTM LLC PDUs
BSC6900
GBFD-114201
EGPRS
GBFD-119902
QoS ARP&THP
TX.DTM.UP.E GPRS.BKGND .INTACT.LLC. PDU.TOTAL. BYTE
L9582:Total Bytes of Uplink EGPRS Background and Interactive Services DTM LLC PDUs
BSC6910
TX.DTM.UP.G PRS.BKGND.I NTACT.LLC.P DU.TOTAL.B YTE
L9583:Total Bytes of Uplink GPRS Background and Interactive Services DTM LLC PDUs
BSC6900
TX.DTM.UP.G PRS.BKGND.I NTACT.LLC.P DU.TOTAL.B YTE
L9583:Total Bytes of Uplink GPRS Background and Interactive Services DTM LLC PDUs
BSC6910
TX.DTM.UP.E GPRS.LLC.PD U.THRPUT.R ATE
L9584:Through put of Uplink EGPRS Users DTM LLC PDUs
BSC6900
TX.DTM.UP.E GPRS.LLC.PD U.THRPUT.R ATE
L9584:Through put of Uplink EGPRS Users DTM LLC PDUs
BSC6910
1282434158
1282434158
1282434159
1282434159
1282434160
1282434160
Issue 01 (2015-04-20)
GBFD-114151
DTM
GBFD-114201
EGPRS
GBFD-119902
QoS ARP&THP
GBFD-114151
DTM
GBFD-114101
GPRS
GBFD-119902
QoS ARP&THP
GBFD-114151
DTM
GBFD-114101
GPRS
GBFD-119902
QoS ARP&THP
GBFD-114151
DTM
GBFD-114201
EGPRS
GBFD-114151
DTM
GBFD-114201
EGPRS
GBFD-114151
DTM
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
84
GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1282434161
TX.DTM.UP.G PRS.LLC.PDU .THRPUT.RA TE
L9585:Through put of Uplink GPRS Users DTM LLC PDUs
BSC6900
GBFD-114101
GPRS
GBFD-114151
DTM
TX.DTM.UP.G PRS.LLC.PDU .THRPUT.RA TE
L9585:Through put of Uplink GPRS Users DTM LLC PDUs
BSC6910
GBFD-114101
GPRS
GBFD-114151
DTM
TX.DTM.DO WN.EGPRS.S TRM.LLC.PD U.TOTAL.BY TE
L9586:Total Bytes of Downlink EGPRS Streaming Service DTM LLC PDUs
BSC6900
GBFD-114201
EGPRS
GBFD-114151
DTM
GBFD-119901
Streaming QoS(GBR)
TX.DTM.DO WN.EGPRS.S TRM.LLC.PD U.TOTAL.BY TE
L9586:Total Bytes of Downlink EGPRS Streaming Service DTM LLC PDUs
BSC6910
GBFD-114201
EGPRS
GBFD-114151
DTM
GBFD-119901
Streaming QoS(GBR)
TX.DTM.DO WN.GPRS.ST RM.LLC.PDU. TOTAL.BYTE
L9587:Total Bytes of Downlink GPRS Streaming Service DTM LLC PDUs
BSC6900
GBFD-114101
GPRS
GBFD-114151
DTM
GBFD-119901
Streaming QoS(GBR)
TX.DTM.DO WN.GPRS.ST RM.LLC.PDU. TOTAL.BYTE
L9587:Total Bytes of Downlink GPRS Streaming Service DTM LLC PDUs
BSC6910
GBFD-114101
GPRS
GBFD-114151
DTM
GBFD-119901
Streaming QoS(GBR)
1282434161
1282434162
1282434162
1282434163
1282434163
Issue 01 (2015-04-20)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
85
GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1282434164
TX.DTM.DO WN.EGPRS.B KGND.INTAC T.LLC.PDU.T OTAL.BYTE
L9588:Total Bytes of Downlink EGPRS Background and Interactive Services DTM LLC PDUs
BSC6900
GBFD-114201
EGPRS
GBFD-114151
DTM
GBFD-119902
QoS ARP&THP
TX.DTM.DO WN.EGPRS.B KGND.INTAC T.LLC.PDU.T OTAL.BYTE
L9588:Total Bytes of Downlink EGPRS Background and Interactive Services DTM LLC PDUs
BSC6910
GBFD-114201
EGPRS
GBFD-114151
DTM
GBFD-119902
QoS ARP&THP
TX.DTM.DO WN.GPRS.BK GND.INTACT. LLC.PDU.TO TAL.BYTE
L9589:Total Bytes of Downlink GPRS Background and Interactive Services DTM LLC PDUs
BSC6900
GBFD-114101
GPRS
GBFD-114151
DTM
GBFD-119902
QoS ARP&THP
TX.DTM.DO WN.GPRS.BK GND.INTACT. LLC.PDU.TO TAL.BYTE
L9589:Total Bytes of Downlink GPRS Background and Interactive Services DTM LLC PDUs
BSC6910
GBFD-114101
GPRS
GBFD-114151
DTM
GBFD-119902
QoS ARP&THP
TX.DTM.DO WN.EGPRS.L LC.PDU.THR PUT.RATE
L958A:Through put of Downlink EGPRS Users DTM LLC PDUs
BSC6900
GBFD-114201
EGPRS
GBFD-114151
DTM
TX.DTM.DO WN.EGPRS.L LC.PDU.THR PUT.RATE
L958A:Through put of Downlink EGPRS Users DTM LLC PDUs
BSC6910
GBFD-114201
EGPRS
GBFD-114151
DTM
1282434164
1282434165
1282434165
1282434166
1282434166
Issue 01 (2015-04-20)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
86
GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1282434167
TX.DTM.DO WN.GPRS.LL C.PDU.THRP UT.RATE
L958B:Through put of Downlink GPRS Users DTM LLC PDUs
BSC6900
GBFD-114101
GPRS
GBFD-114151
DTM
TX.DTM.DO WN.GPRS.LL C.PDU.THRP UT.RATE
L958B:Through put of Downlink GPRS Users DTM LLC PDUs
BSC6910
GBFD-114101
GPRS
GBFD-114151
DTM
1282434168
DTM.DOWNL INK.MULTIS LOT.SATISFA CTION.RATE
S935A:Downlin k MultiTimeslot Satisfaction Rate for DTM MSs
BSC6900
GBFD-114151
DTM
1282434168
DTM.DOWNL INK.MULTIS LOT.SATISFA CTION.RATE
S935A:Downlin k MultiTimeslot Satisfaction Rate for DTM MSs
BSC6910
GBFD-114151
DTM
1282434169
DTM.UPLINK .MULTISLOT. SATISFACTI ON.RATE
S935B:Uplink Multi-Timeslot Satisfaction Rate for DTM MSs
BSC6900
GBFD-114151
DTM
1282434169
DTM.UPLINK .MULTISLOT. SATISFACTI ON.RATE
S935B:Uplink Multi-Timeslot Satisfaction Rate for DTM MSs
BSC6910
GBFD-114151
DTM
1282434315
DTM.DCCH.A SS.TIMEOUT. BACK.FAIL
A9826:Number of Failed Reconnections to Old Channels due to DTM Assignment Timeout on DCCH
BSC6900
GBFD-114151
DTM
1282434167
Issue 01 (2015-04-20)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
87
GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1282434315
DTM.DCCH.A SS.TIMEOUT. BACK.FAIL
A9826:Number of Failed Reconnections to Old Channels due to DTM Assignment Timeout on DCCH
BSC6910
GBFD-114151
DTM
1282434322
DTM.TX.DO WN.LLC.PDU. TOTAL.BYTE
L9594:Total Bytes of Downlink DTM User LLC PDUs
BSC6900
GBFD-114151
DTM
GBFD-119403
Class11 DTM
GBFD-119404
HMC DTM
DTM.TX.DO WN.LLC.PDU. TOTAL.BYTE
L9594:Total Bytes of Downlink DTM User LLC PDUs
BSC6910
GBFD-114151
DTM
GBFD-119403
Class11 DTM
GBFD-119404
HMC DTM
DTM.TX.UP.L LC.PDU.TOT AL.BYTE
L959R:Total Bytes of Uplink DTM User LLC PDUs
BSC6900
GBFD-114151
DTM
GBFD-119403
Class11 DTM
GBFD-119404
HMC DTM
DTM.TX.UP.L LC.PDU.TOT AL.BYTE
L959R:Total Bytes of Uplink DTM User LLC PDUs
BSC6910
GBFD-114151
DTM
GBFD-119403
Class11 DTM
GBFD-119404
HMC DTM
UP.GPRS.TBF. ABNORM.RE L.DTM.ESTB
A904A:Number of Uplink GPRS TBF Abnormal Releases due to DTM Establishment
BSC6900
GBFD-114101
GPRS
GBFD-114151
DTM
UP.GPRS.TBF. ABNORM.RE L.DTM.ESTB
A904A:Number of Uplink GPRS TBF Abnormal Releases due to DTM Establishment
BSC6910
GBFD-114101
GPRS
GBFD-114151
DTM
DOWN.GPRS. TBF.ABNOR M.REL.DTM. ESTB
A9143:Number of Downlink GPRS TBF Abnormal Releases due to DTM Establishment
BSC6900
GBFD-114101
GPRS
GBFD-114151
DTM
1282434322
1282434323
1282434323
1282434353
1282434353
1282434354
Issue 01 (2015-04-20)
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88
GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1282434354
DOWN.GPRS. TBF.ABNOR M.REL.DTM. ESTB
A9143:Number of Downlink GPRS TBF Abnormal Releases due to DTM Establishment
BSC6910
GBFD-114101
GPRS
GBFD-114151
DTM
UP.EGPRS.TB F.ABNORM.R EL.DTM.EST B
A9242:Number of Uplink EGPRS TBF Abnormal Releases due to DTM Establishment
BSC6900
GBFD-114201
EGPRS
GBFD-114151
DTM
UP.EGPRS.TB F.ABNORM.R EL.DTM.EST B
A9242:Number of Uplink EGPRS TBF Abnormal Releases due to DTM Establishment
BSC6910
GBFD-114201
EGPRS
GBFD-114151
DTM
DOWN.EGPR S.TBF.ABNOR M.REL.DTM. ESTB
A9347:Number of Downlink EGPRS TBF Abnormal Releases due to DTM Establishment
BSC6900
GBFD-114201
EGPRS
GBFD-114151
DTM
DOWN.EGPR S.TBF.ABNOR M.REL.DTM. ESTB
A9347:Number of Downlink EGPRS TBF Abnormal Releases due to DTM Establishment
BSC6910
GBFD-114201
EGPRS
GBFD-114151
DTM
DTM.UP.TBF. ESTB.FAIL.C S.REL.AND.H O
A9827:Number of Failed Uplink TBF Establishments for DTM Due to CS Releases and Handovers
BSC6900
GBFD-114151
DTM
GBFD-119403
Class11 DTM
GBFD-119404
HMC DTM
1282434355
1282434355
1282434356
1282434356
1282436937
Issue 01 (2015-04-20)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
89
GSM BSS DTM Feature Parameter Description
8 Counters
Counter ID
Counter Name
Counter Description
NE
Feature ID
Feature Name
1282436937
DTM.UP.TBF. ESTB.FAIL.C S.REL.AND.H O
A9827:Number of Failed Uplink TBF Establishments for DTM Due to CS Releases and Handovers
BSC6910
GBFD-114151
DTM
GBFD-119403
Class11 DTM
GBFD-119404
HMC DTM
DTM.DOWN. TBF.ESTB.FAI L.CS.REL.AN D.HO
A9828:Number of Failed Downlink TBF Establishments for DTM Due to CS Releases and Handovers
BSC6900
GBFD-114151
DTM
GBFD-119403
Class11 DTM
GBFD-119404
HMC DTM
DTM.DOWN. TBF.ESTB.FAI L.CS.REL.AN D.HO
A9828:Number of Failed Downlink TBF Establishments for DTM Due to CS Releases and Handovers
BSC6910
GBFD-114151
DTM
GBFD-119403
Class11 DTM
GBFD-119404
HMC DTM
1282436938
1282436938
Issue 01 (2015-04-20)
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90
GSM BSS DTM Feature Parameter Description
9 Glossary
9
Glossary
For the acronyms, abbreviations, terms, and definitions, see Glossary.
Issue 01 (2015-04-20)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
91
GSM BSS DTM Feature Parameter Description
10 Reference Documents
10
Reference Documents
1.
3GPP TS 43.055 Dual Transfer Mode (DTM); Stage 2
2.
3GPP TS 44.018 Mobile radio interface layer 3 specification; Radio Resource Control (RRC) protocol
3.
3GPP TS 44.060 General Packet Radio Service (GPRS); Mobile Station (MS) - Base Station System (BSS) interface; Radio Link Control / Medium Access Control (RLC/ MAC) protocol
4.
3GPP TS 45.002 Multiplexing and multiple access on the radio path
5.
3GPP TS 24.008 Mobile radio interface Layer 3 specification; Core network protocols; Stage 3
6.
3GPP TS 24.007 Mobile radio interface signaling layer 3; General Aspects
Issue 01 (2015-04-20)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
92