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1、LTE掉线场景及参数优化中国联合网络通信有限公司2016年10月目录1背景32LTE掉线流程和指标定义32.1 掉线信令流程32.2 掉线指标分类42.3 常用Counter43LTE掉线判断机制与参数43.1 RLC AM重发次数超限(Acknowledged Mode RLC Configuration)53.2 Uplink OUT-Synchronization(物理层上行失步)63.3 DL link OUT-Synchronization(物理层下行失步)73.4 呼叫重建流程85参数调整与评估95.1 tPollRetr参数调整105.2 RRC Re-establishment
2、参数调整115.3 优化前后掉线指标趋势116 总结121背景在LTE网中非正常UE Context Release释放会导致业务中断影响用户感知,本文主要介绍无线链路失败所导致的UE Context释放机制与参数设置,同时结合保持性参数优化试验给内场KPI指标优化提供参考。2LTE掉线流程和指标定义2.1 掉线信令流程在正常的呼叫释放场景中,MME通过发送UE CONTEXT RELEASE COMMAND消息来释放与UE相应的逻辑连接,并释放S1接口。 在所有的IP网络中,“通话中断”特点是UE与网络间的射频连接中断,当连接由于异常而中断时计为掉话。一般情况认为的“通话中断”是ENB使用携
3、带着相应错误原因的UE CONTEXT RELEASE REQUEST消息释放UE上下文,同时终止RRC层无线连接UE回到空闲模式,如下图所示:2.2 掉线指标分类评估保持性指标通常可分三类,包括RRC conn drop Rate、UE context drop rate和E-RAB drop rate。 RRC conn drop Rate:Radio link fail次数/RRC建立成功次数,无线引起Radio link fail原因分两类:Maximum number of DL RLC retransmissions has been reached(RLC 重传次数超限)或Los
4、s of L1 synchronization(L1失步),由于无线侧有RRC重建机制,因此RLF并不一定引起UE context drop,RRC drop Rate也相较其它掉线高; UE context drop rate:指ENB向MME发送的UE CONTEXT RELEASE REQUEST消息(非正常释放)与ENB向MME发送S1 RESET消息的Context释放(即硬件原因),分母为ENB与MME正常释放Context之数和; E-RAB drop rate:指针对服务类型(per QCI)的保持性分析指标,与UE context不同的是对于multi-service呼叫,如
5、果只有一个E-RAB被异常释放并不会导致UE上下文的释放。2.3 常用Counter日常筛选ERAB掉线失败次数多同时掉线率高的小区进行分析,并通过拆分分子失败原因Counter,确定不同原因所引起的释放比例Counter ID Name in tableNE Counter NameM8013C15ENB_INIT_TO_IDLE_RNLeNB initiated transitions to ECM-IDLE due to Radio Network Layer causeM8013C16ENB_INIT_TO_IDLE_OTHEReNB initiated transitions to
6、ECM-IDLE due to Other causesM8006C12ENB_EPS_BEARER_REL_REQ_RNLeNB initiated EPS Bearer Release requests due to Radio Network Layer causeM8006C13ENB_EPS_BEARER_REL_REQ_OTHeNB initiated EPS Bearer Release requests due to Other causesM8006C14ENB_EPS_BEARER_REL_REQ_TNLeNB initiated EPS Bearer Release re
7、quests due to TransporRadio Network Layer无线原因,Transport传输故障相关,Other causes重点关注切换掉线处理。3LTE掉线判断机制与参数触发无线链路失败原因分可为:RLC重传达到最大数、上行物理层检测失步、下行物理层检测失步;3.1 RLC AM重发次数超限(Acknowledged Mode RLC Configuration)ENB判断无线链路失败的一个条件是RLC重传达到最大数,在RLC确认模式下,RLC PDUs发出后必须得到应答,如果在计时周期(Timer poll retransmit)内没有收到确认将进行重传直到达到最大
8、重传次数,如仍未收到UE的ACK,ENB会认为下行无线链路失败。增大RLC层Poll最大重发次数同样可增加保持性。目前Nokia系统中Timer poll retransmit并不区分上下行,参数值设置更短的时间可减少传输延时,而增大则可降低发生无线链路失败的概率;参数范围5-500ms,default值为120ms;Abbreviated NameFull Name3GPP NameDescriptionDefault ValuetPollRetrTimer poll retransmitt-PollRetransmitThis parameter specifies the paramet
9、er t-pollRetransmit of 36.331This timer is used by the transmitting side of an AM RLC entity in order to retransmit a poll.The used minimum value of the timer shall be larger than the calculated round-trip time with considerations of HARQ retransmissions and out-of-sequence arrival. The value of the
10、 timer shall be larger than twice of the timerReorder.120ms (23)参数按业务QCI区分修改3.2 Uplink OUT-Synchronization(物理层上行失步)上行调度程序检测上行同步状态,防止在上行失步后基站仍然分配资源给呼叫而导致资源浪费,LTE中主要有两种检测机制。 SRS、PUCCH &PUSCH同步检测机制按L1接收到SRS的测量值进行判断上行同步或上行失步状态,不同厂家判断机制可能有所差异,目前已知NOKIA有上行SRS DTX detection和CQI DTX detection for periodic C
11、QI reports in PUCCH and PUSCH两种检测方式,如下为CQI检测:当 ENB连续检测到 nCqiDtx次 CQI DTX则指示后标识CQI_RLF ON并启动定时器 T_RLF;若 T_RLF超时上行调度程序转换UE到MAC RLF状态并释放UE的UE的上下文,计掉话,若 ENB连续收到 nCqiRec(=1)次 CQI停止CQI_RLF 计数。缩略名称备注nSrsDtxThe parameter defines number of consecutive SRS DTX detections causing radio link failure indication.
12、 Special value 0 means that the feature is disabled.nSrsRecThe parameter defines number of consecutive SRS non-DTX detections causing radio link failure recovery indicationnCqiDtxThe parameter defines the number of consecutive CQI DTX detections causing radio link failure indication. Special value 0
13、 means that the feature is disabled.The parameter is vendor-specific.nCqiRecThe parameter defines number of consecutive CQI non-DTX detections causing radio link failure recovery indication.The parameter is vendor-specific. TA Failure timerENB通过RRC信令给UE配置一个Alignment Timer(MAC层),UE使用该Timer来确定上行是否同步,U
14、E需要在TA超时之前接收到Timing Advance Command,否则会被认为上行失步,如上行失步且有上行数据传输,UE将启动Rach过程,Nokia参数如下:Abbreviated NameFull NameDescriptionRange and stepDefault ValuetaTimerTime alignment timerDetermines the number of subframes after which a UE assumes it is out-of-sync in UL if no Time Alignment command was received.5
15、00 (0), 750 (1), 1280 (2), 1920 (3), 2560 (4), 5120 (5), 10240 (6)10240 (6)taTimerMarginTime alignment timer marginThe parameter defines lead with respect to the taTimer expiration time for starting to send the periodic timing advance command.0.2560 subframes, step 1 subframes2000 subframestaTimer:定义了当存在上行数据传输时ENB持续向UE发送TA命令,参数为UE侧定时器定义了当持续N个子帧未收到TA命令UE认为上行失同步;taTimerMargin:ENB收到上行数据包后启动或重启定时器,当距离taTimer超时还有taTimerMargin时仍没有收到上行数据ENB将周期性发送TA命令。目前系统TA timer default值默认
