《日讯GSM切换的优化.ppt》由会员分享,可在线阅读,更多相关《日讯GSM切换的优化.ppt(70页珍藏版)》请在三一办公上搜索。
1、日讯科技,GSM切换的优化,北京日讯在线科技有限公司2006年,日讯科技,GSM的服务区域是由一个个连续的小区组成,为了能使用户在移动的通话过程中,从覆盖区域中得到持续的服务,同时为了使网络性能更优,GSM系统中采用了切换的技术来达到以上的目的。,日讯科技,课程内容,第一章 切换概述第二章 切换算法流程 第三章 切换参数配置 第四章 切换信令流程,日讯科技,第一章 切换概述,切换目的切换分类,日讯科技,切换目的,1.1 切换目的,在移动中保持通话的连续 提高网络服务质量降低掉话率降低拥塞率,日讯科技,切换分类:根据不同的切换判决触发条件,1.2 切换分类,1、紧急切换 TA过大紧急切换 质量差
2、紧急切换2、负荷切换3、正常切换边缘切换 分层分级切换 PBGT切换4、速度敏感性切换(快速移动切换)5、同心圆切换,日讯科技,切换分类:根据范围不同,1.2 切换分类,Intra-cell HOInter-cell HOInter-BSC HOInter-MSC HO,日讯科技,课程内容,第一章 切换概述第二章 切换算法流程 第三章 切换参数配置 第四章 切换信令流程,日讯科技,第二章 切换算法流程,切换总体流程测量报告预处理惩罚处理小区基本排序和网络特征调整切换判决,日讯科技,爱立信切换算法概述,Ericssion的切换算法的核心是往更好小区切换,也就是在排序中排在最前面的小区切换。没有所
3、谓的电平触发门限,也没有边缘切换的概念。当最好小区始终排在服务区前面持续4-5秒钟后,即发生更好小区切换,其中4-5秒钟时间是系统设定的,在参数配置中不能修改时间长度。,日讯科技,爱立信切换算法概述,算法排序的具体实现流程,日讯科技,爱立信切换算法概述,Initiations 当信道要发生改变时(如指配、切换等),一个新的Locating individual将被建立,开始连接的处理,上一个Locating individual将被终止。当一个Locating individual因为切换被建立时,如果先前的Locating individual 是处理相同的连接,Penalty list将会
4、传送到新的Locating individual。当一个Locating individual由于切换开始后,定时器TINIT 将开始计时,在定时器超时以前,不在进行切换,(但是assignment to other cell or own 不受此限制)。,日讯科技,爱立信切换算法概述,Filtering测量准备,日讯科技,爱立信切换算法概述,Filtering测量准备 Rxlev、Rxqual、TA、等测量值通过measurement report提取,周期为SACCH周期(480ms)。MS能够测量32个邻小区的信号强度,但是在measurement report中只会提交6个最强的。测量
5、值分full值和sub值。当服务小区开启功率控制时,在filtering前将会对其值进行补偿。MS会将下行的测量传到BTS,BTS会加上上行的测量传到BSC。MISSNM:最大允许丢失的测量报告数量,对本小区和邻小区同样有效。如果丢失的测量报告在MISSNM内,则可以通过线性补偿进行插补。如果超过该范围,则新的算法重新执行。,日讯科技,Filtering测量准备 当紧急切换发生时,邻小区没有测量报告丢失,则以最后收到的测量报告为依据,如果,丢失的测量报告超过MISSNM,则以前的测量报告也是无效的。如果服务小区的测量报告丢失,则locating算法暂缓,直到服务小区收到新的测量报告。,爱立信切
6、换算法概述,测量报告的插补是如何实现的?,MR,MR,MR,MR,MR,测量报告序号 n,测量报告序号 n+4,连续的测量报告流,日讯科技,爱立信切换算法概述,信号强度和质量Filtering,日讯科技,信号强度和质量FilteringRXLEVEL RXQUAL,爱立信切换算法概述,SSEVALSIType:Numeral.Range:1 to 9.Unit:Default:6.Comments:Signal strength filter for signalling only.,SSLENSIType:Numeral.Range:1 to 20.Unit:SACCH periods(48
7、0 ms).Default:4.Comments:Length of signal strength filter for signalling only.,日讯科技,爱立信切换算法概述,信号强度和质量Filtering,SSRAMPSIType:Numeral.Range:1 to 20.Unit:SACCH periods(480 ms).Default:2.Comments:Ramping length of signal strength filter for signalling only.SSRAMPSI shall be specified only when SSEVALSI
8、is in therange 6 to 9.,日讯科技,爱立信切换算法概述,TA的filtering One single timing advance filter is used for all cells in the BSC.The filter is a straight averaging filter.The timing advance filtering yields the filtered quantity ta.The length of the filter is specified by parameter TAAVELEN.,TAAVELENType:Numera
9、l.Range:1 to 20.Unit:Default:4.,日讯科技,爱立信切换算法概述,Urgency Conditions(紧急切换条件),QLIMDLType:Numeral.Range:0 to 100.Unit:Deci transformed GSM quality units(dtqu).Default:55.Comments:Quality limit downlink for handover.Urgency detection parameter.,TALIMType:Numeral.Range:0 to 63(normal range cell).0 to 219(e
10、xtended range cell).Unit:Bit periods(bp).Default:62.Comments:Timing advance limit for handover.Urgency detection parameter.,日讯科技,爱立信切换算法概述,Basic ranking 基本队列排序的原则:1、Ericssion 1号算法是根据路径损耗和接收电平进行K、L排序 2、Ericssion 3号算法只是根据接收电平进行排序这二种类型,通过参数EVALTYPE来设定,当EVALTYPE=1时采用路径损耗和接收电平做为排序的原则,比较复杂。当EVALTYPE=3时只采用
11、接收电平做为排序的准则,比较简单,目前网上都是采用这种算法进行基本排序。,EVALTYPEType:Numeral.Range:1,3.Unit:Default:1.Comments:Evaluation type.,日讯科技,爱立信切换算法概述,Basic ranking 7个步骤,日讯科技,爱立信切换算法概述,Basic ranking候选列表,日讯科技,爱立信切换算法概述,两种算法的共同点:1)、对基站TCH输出功率的校正 2)、用最小允许接收电平来对小区进行初步的裁剪,把不满足最小允许接收电平的小区去掉。必须满足MSRXMINn和BSRXMINn.SS_DOWNn=MSRXMIN和 S
12、S_UPn=BSRXMIN 3)、有信号电平惩罚的进行信号电平的惩罚,相当于信号电平减去一个惩罚值。P_SS_DOWNn=SS_DOWNp-LOC_PENALTYp-HCS_PENALTYp 其中p为被惩罚的小区LOC_PENALTYp是指Handover fail、Bad quality urgency handover、Excessive timing advance urgency handover。HCS_PENALTYp是指当手机在宏蜂窝上移动时,对进入的微蜂窝小区有一个惩罚值,防止微蜂窝小区进入排序,导致在宏蜂窝上快速移动时会切入微蜂窝。,日讯科技,爱立信切换算法概述,Basic
13、ranking小区参数参考点,日讯科技,爱立信切换算法概述,Basic ranking常用名词解释Rxlev:Filtered downlink signal strength.SS_DOWN:Corrected downlink signal strength in case of different ERP on BCCH and TCHs or OL/UL subcells.SS_UP:Estimated uplink signal strength.It is estimated by calculating the downlink path loss and subtract it
14、 from the maximum MS output power(given by class mark or MSTXPWRp_rxlev:Punished downlink signal strength.p_SS_DOWN:Punished corrected downlink signal strengthp_SS_UP:Punished estimated uplink signal strength.S:indicates serving cell.N:indicates Neighbor cell.M:indicates serving and Neighbour cell.P
15、:indicates punished cell.,日讯科技,爱立信切换算法概述,Basic ranking:修正过后的下行信号强度,BSTXPWRType:Numeral.Range:0 to 80.Unit:dBm.Comments:BSTXPWR is the BTS output power on all frequencies other than the BCCH frequency.BSTXPWR is defined at the reference point used in the locating algorithm.,BSPWRType:Numeral.Range:0
16、to 80.Unit:dBm.Comments:BSPWR is the BTS output power on the BCCH frequency.BSPWR is defined at the reference point used in the locating algorithm.,日讯科技,爱立信切换算法概述,Basic ranking:邻小区的最基本满足条件。,MSRXMINType:Numeral.Range:0 to 150.Unit:dBm(negative).Comments:Minimum required signal strength received at th
17、e MS in a given cell to consider the cell as a possible candidate for handover.,BSRXMINType:Numeral.Range:0 to 150.Unit:dBm(negative).Comments:Minimum required signal strength received at the BTS,at the reference point,to consider the cell as a possible candidate for handover.,日讯科技,爱立信切换算法概述,Basic r
18、anking:惩罚估算,PSSHFType:Numeral.Range:0 to 63.Unit:dB.Default:63.Comments:Signal strength penalty at handover failure.This penalty is valid during PTIMHF.,PTIMHFType:Numeral.Range:0 to 600.Unit:Seconds.Default:5.Comments:Penalty time at handover failure.,日讯科技,爱立信切换算法概述,Basic ranking:K-cell和L-cell小区的概念
19、,日讯科技,爱立信切换算法概述,Basic ranking:K-cell和L-cell小区的边界,日讯科技,爱立信切换算法概述,Basic ranking:K-cell和L-cell小区的滞后和偏置,日讯科技,爱立信切换算法概述,Basic ranking:充分的条件,日讯科技,爱立信切换算法概述,Basic ranking:依据k算法排队,日讯科技,爱立信切换算法概述,Basic ranking:依据L算法排队,日讯科技,爱立信切换算法概述,Basic ranking:Basic Candidate List,日讯科技,爱立信切换算法概述,ERICSSON3算法,日讯科技,爱立信切换算法概述
20、,Auxiliary Radio Network Functions Evaluations(辅助的无线网络功能影响)Six auxiliary radio network functions areincorporated in the locating software:Assignment to another cellHierarchical cell structuresOverlaid and underlaid subcellsIntra-cell handoverExtended range Cell load sharing,日讯科技,爱立信切换算法概述,小区分层,日讯科技,
21、爱立信切换算法概述,Organizing the List 经过基本排序后,小区按照双频网中的HCS的结构进行重新调整。所有的小区均被划分为11种HCS的类别,如果几个小区在同一类别中再按照基本排序中的顺序进行排列。服务小区 s-指服务小区邻近小区 1、Layer:1-3,分为1-3层,其中层1的优先级最高 2、在基本排序中比服务小区高或低 b:(Better than)serving cell with higher ranking w:(Worse than)serving cell with lower ranking 3、信号强度高于或低于层间改变门限 o(Over)表示层间门限已满足
22、 u(Under)表示层间门限不满足 4、对于层1和层2的每一个小区,有一个层间切换门限(LEVTHR)和磁滞(LEVHYST),对层3的 小区没有层间门限和磁滞的设定。5、对于服务小区,LEVTHR-LEVHYST,用来判断服务小区是否高于层间的门限,为后面的综合排序做准备。对邻近小区,LEVTHR+LEVHYST,用来判断邻近小区是否高于层间的门限,为后面的综合排序做准备。,日讯科技,爱立信切换算法概述,Organizing the List,日讯科技,爱立信切换算法概述,最后通过与层间门限与服务小区的比较,得到如下的一张表格。相当于把每个小区都划分成其中的一类,同一类中的小区按照基本排序
23、中的顺序排列,而其中类别的排序结果则依赖于以下的几种情况:服务小区属于哪一层服务小区的信号强度是否高于或低于LEVTHR-LEVHYST如果分配请求达到时,分配到更差小区是否允许是否过大的TA检测到是否有小区内切换请求Overlaid/Underlaid subcell change(同心圆之间的小区变化),日讯科技,爱立信切换算法概述,1、当服务小区在Layer 1,且信号电平高于门限时,类别排序如下,日讯科技,爱立信切换算法概述,对上述情况的总结:1)、当没有直接重试请求、TA、O/U、Intra-cell handover request时,属于正常切换;也就是说,当服务小区在层1且信号
24、高于层间门限时,肯定不会切换到层2上去,只会在同层1更好小区间切换,并且只会切换到比服务小区信号电平更好同时也是高于自己层间切换门限的一个小区1bo。-12)、当服务小区在层1且信号高于层间门限时,并且有Intra-cell Handover request和Overlaid/Underlaid 的小区改变时,由于O/U的优先级比较高,因此会发生O/U的切换,会切换到并且只会切换到比服务小区信号电平更好同时也是高于自己层间切换门限的一个小区1bo或者自己服务小区。-2,3,43)当服务小区在层1且信号高于层间门限时,并且有过大的TA紧急切换时,它的排序小区首先发生TA紧急切换,侯选小区的排序是
25、1bo,1wo,2bo,2wo,3b,3w,2bu,2wu,1bu,1wu,s;也就是说首先切换到层间门限满足的小区,排序时先排层间门限满足的小区,再排层间门限没有满足的小区并且层2的排在层1的前面。-5,6,7,84)9-10相当于有分配请求时包括如直接重试、重试到更好小区或更差小区,并且分配到更差小区(AW)功能没有打开时,它的排序是1bo,s,1bu。也就是会只指配到层1的小区。,日讯科技,爱立信切换算法概述,服务小区在层1,而它的信号强度低于它的门限值,左图排序原则分析如下:当服务小区在层1且信号电平低于门限值时,切换到更高层就被允许了。正常切换时,1bo,2bo,3b,2bu,1bu
26、,日讯科技,爱立信切换算法概述,服务小区在层2,而它的信号强度高于它的门限值,日讯科技,爱立信切换算法概述,服务小区在层2,而它的信号强度低于它的门限值,日讯科技,爱立信切换算法概述,服务小区在层3,日讯科技,爱立信切换算法概述,总结对正常切换时的侯选小区排序原则:服务小区在层1,且高于层间门限 1bo服务小区在层1,且低于层间门限 1bo,2bo,3b,2bu,1bu服务小区在层2,且高于层间门限 1bo,1wo,2bo,1bu服务小区在层2,且低于层间门限 1bo,1wo,2bo,3b,2bu,1bu服务小区在层3 1bo,1wo,2bo,2wo,3b,2bu,1bu1、如果在层1而电平低
27、于本层间门限(-80dBm),就会首先在同层里寻找更好小区1bo;然后引导往高层切换2bo;2、如果在层2而电平高于本层门限,就会首先在层1里面找层1中高于层间门限的小区而不管电平是否比服务小区更好1bo,1wo。3、如果在层2而电平低于本层门限,就会在层1里面找层1中高于层间门限的小区,而不管电平是否比服务小区更好1bo,1wo。然后在同层中找高于门限,电平高于服务小区的小区。,日讯科技,爱立信切换算法概述,Sending the ListIf the candidate list is empty(i.e.serving cell isthe best)the candidate list
28、 is not sent to the central processor.The first cell in the candidate list is the“best”candidate.At congestion the next cell in the candidate list is tried.,日讯科技,爱立信切换算法概述,Allocation Reply in Case of SuccessAt success a penalty list is transferred from the locating individual to the new one.If the h
29、andover reason was due to urgency a penalty for the abandoned cell must be included.The old locating individual is then deleted。At inter-BSC handover it is not possible to send the penalty list.However it is possible indicate if the cause of the handover was due to bad quality or excessive timing ad
30、vance.The penalties of the new cell will then be used.(EXTPEN=ON),EXTPENType:Identifier.Range:ON,OFF.Unit:Default:OFF.Comments:Handover penalty support for external neighbouring cells.,日讯科技,爱立信切换算法概述,Allocation Reply in Case of CongestionAt congestion in all the candidates in the list a new attempt
31、will be made after a certain time specified by the timers TALLOC or TURGEN.,TALLOCType:Numeral.Range:0 to 120.Unit:SACCH periods(480 ms).Default:2.Comments:Minimum time between allocation attempts when there is a better cell condition and when the first allocation attempt has failed.In the case a ha
32、ndover,intra cell handover or overlaid/underlaid subcell change fails due to congestion,the locating process continues but no handover candidate list will be prepared beforethe timer TALLOC has expired,unless an urgency state is detected.,TURGENType:Numeral.Range:0 to 120.Unit:SACCH periods(480 ms).
33、Default:2.Comments:Minimum time between allocation attempts at an urgency condition and when the first allocation attempt has failed.In the case an urgency handover attempt fails due to congestion,the locating process will proceed and even a handover candidate list will be prepared.However the candi
34、date list will not be transferred to the handover function during the time specified by the parameter TURGEN,unless the candidate list contains abetter cell.,日讯科技,爱立信切换算法概述,Disconnection CriteriaDownlink“quality”disconnect。If the MS can not decode a frame successfully a counter,originally set to the
35、 value of RLINKT,is decreased by one unit.When a frame is successfully decoded,it is inreased by two units(up to maximum RLINKT)If the“bucket”goes empty the MS terminates the connection.Uplink“quality”disconnect。The same as downlink but with the controlling parameter RLINKUP.,日讯科技,爱立信切换算法概述,小区内切换 小区
36、内切换是为了提高C/I的载干比,当信号电平足够高,而误码足够大时就发生小区内切换。小区内切换的算法 如果Rxqual_ulQOFFSETUL+FQSS(Rxlev_UL+SSOFFSETUL)或者 Rxqual_dlQOFFSETDL+FQSS(Rxlev_DL+SSOFFSETDL)就发生小区内切换请求。Rxlev_UL和Rxlev_DL是上下行的接收电平值。FQSS是质量与信号强度的函数 SSOFFSETUL和SSOFFSETDL是信号偏移参数 QOFFSETUL和QOFFSETDL是质量偏移参数,日讯科技,爱立信切换算法概述,日讯科技,爱立信切换算法概述,小区内切换,日讯科技,爱立信切换
37、算法概述,对小区内切换的控制当进行连续几次的小区内切换,改变信道时没有得到改善,就认为整个频点受到干扰,再切换就 没有意义,就要对连续的小区内切换进行控制。每一次小区内切换会启动一个定时器TMAXIHO,当第一次小区内切换发生时,小区内切换的记数器就加1,在TMAXIHO前完成的切换都被认为时连续切换。如果时间到期,小区内切换统计记数器会被清零。MAXIHO是小区内连续切换的最大允许次数 如果在TMAXIHO时间里达到了MAXIHO的次数,小区内切换就会被禁止TIHO时间TINIT是在每一次切换(信道改变后的)禁止时间。IHO是激或小区内切换的开关,日讯科技,爱立信切换算法概述,快速移动的切换
38、 临时的信号惩罚电平被用来防止快速移动的手机切换到更低层小区(更高优先级)。PSSTEMP:是作用于Lower layer cell的信号偏移,在PTIMTEMP时间里有效。当邻小区比服务小区更低时,对邻小区有一个惩罚。只有层1和层2的小区才有可能被惩罚。当更低层(比服务区)小区被报告为邻近小区时,如果邻小区的测量报告丢失个数超过MISSNM,任何惩罚会被抛弃,如果邻小区重新出现就又开始重新惩罚。引导在更低层小区中通话的快速移动手机切换到更高层中去。FASTMSREG:是打开的开关 THO:测量切换次数的时间间隔 NHO:如果在THO时间里超过或等于NHO次数,就被认为是快速移动,就执行切换到
39、在更高小区中最强的小区上去。,日讯科技,课程内容,第一章 切换概述第二章 切换算法流程 第三章 切换参数配置 第四章 切换信令流程,日讯科技,MSC,A,BTS,BSC,Intra_Cell HandOver,A-bis,Um,MS,RR(SACCH),RR(FACCH),L2-SABM,L2-UI,ASSIGN COM,MEAS REP,MEAS REP,CHAN ACTIV,(ch typ,Ciph K),(HO Ref),CHAN ACT ACK,DATA REQ,ASSIGN CMD,RR(New FACCH),DATA IND,EST IND,RF CHA REL,(old TCH)
40、,HO PERFOMED(DT1),(Cause:intra_cell),BSSMAP,RF CHA REL ACK,Old channel local end release,RR(FACCH),RR(FACCH),T3107+,T3107-,日讯科技,MSC,A,BTS2,BTS1,BSC,Intra-BSS Handover,A-bis,Um,MS,HO ACCESS,RR(SACCH),HO ACCESS,PHYS INFO,PHYS INFO,RR(FACCH),L2-SABM,L2-UI,RR(New FACCH),HO COMPLET,A-bis,MEAS REP,MEAS RE
41、P,CHAN ACTIV,(ch typ,Ciph K),(HO Ref),CHAN ACT ACK,DATA REQ,HO COMMAND,HO DETECT,ESTA IND,DATA IND,RF CHA REL,(old TCH),HO PERFOMED(DT1),(Cause),BSSMAP,RF CHA REL ACK,RR(FACCH),BSSMAP,RR(FACCH),RR(FACCH),RR(FACCH),RR(FACCH),RR(FACCH),T3103+,T3103-,T3124+,T3124-,日讯科技,CHAN ACTIV,BTS1,A-bis,DATA REQ,BS
42、C2,CC,BSC1,HO REQU(DT1),A,HO CMD(DT1),MSC,HO REQUEST(DT1),A,HO COMMAND,BTS2,MS,MEAS REP,CHA ACT ACK,Intra-MSC Handover,Serving BSS,A-bis,Um,Target BSS,RR(SACCH),MEAS RES,Cell Id lst,Cause,BSSMAP,CR(Ch typ,Clmk),(Cell,Ciph K),BSSMAP,HO REQ ACK(DT1),(Cell,Ch Inf,Ho Ref),BSSMAP,BSSMAP,RR(FACCH),BSSMAP,
43、T7+,T7-T8+,T101+,T101-,T102+,T9113+,日讯科技,HO DETECT,BTS1,A-bis,RF CHAN REL,BSC2,BSC1,A,CLEAR CMD(DT1),MSC,A,BTS2,MS,HO ACCESS,Serving BSS,A-bis,Um,Target BSS,RR(newFACCH),HO COMPLET(DT1),BSSMAP,BSSMAP,(old TCH),Continue 1,HO ACCESS,RR(FACCH),PHYS INFO,PHYS INFO,L2-SABM,L2-UI,ESTA IND,HO COMPLET,DATA
44、IND,CLEAR CMP(DT1),BSSMAP,Intra-MSC Handover,RF CHAN RELACK,RR(FACCH),RR(FACCH),RR(FACCH),RR(FACCH),RR(FACCH),T3124+,T3124-,T9113-,T102-,T8-,TNT3+,TNT3-,日讯科技,Inter-MSC Handover,MSCA,A,BTSA,BSCA,A-bis,Um,MS,RR(SACCH),MEAS REP,MEAS REP,HO REQU(DT1),Cell Id lst,Cause,MSCB,VLRB,E,B,MAP_PREPARE_HANDOVER,
45、MAP_ALLOCATE_HO_NUMBER,MAP_SEND_HO_REPORT,MAP_PREPARE_HANDOVER ACK,MAP_SEND_HO_REPORT ACK,IAM(TUP),ACM(TUP),HO CMD(DT1),(Cell,Ch Inf,Ho Ref),DATA REQ,HO COMMAND,RR(FACCH),BSSMAP,BSSMAP,RF CHA REL,(old TCH),RF CHA REL ACK,After HO Succeed,BSCB,BSSMAP,HO REQ(DT1),CHAN ACTIV,CC,CHA ACT ACK,CR(Ch typ,Cl
46、mk),(Cell,Ciph K),HO REQ ACK(DT1),BSSMAP,BTSB,BTSA,BSCA,CLEAR CMD(DT1),BSSMAP,CLEAR CMP(DT1),BSSMAP,T201+,T201-,T210+,TNT3+,TNT3-,T103+,T204+,T210-,日讯科技,Inter-MSC Handover,Continue 1,MSCB,A,BTSB,BSCB,A-bis,Um,MS,HO COMMPLETE(DT1),(Cause),BSSMAP,MSCA,VLRB,E,B,RR(NewFACCH),HO DETECTION,HO ACCESS,PHYS
47、INFO,PHYS INFO,L2-SABM,L2-UI,ESTA IND,HO COMPLET,DATA IND,HO ACCESS,ANC(TUP),MAP_SEND_END_SIGNAL,RR(FACCH),MAP_PROCESS_ACCESS_SIGNALLING,RR(FACCH),RR(FACCH),RR(FACCH),RR(FACCH),RR(FACCH),HO DETECT(DT1),BSSMAP,T204-,T103-,日讯科技,Subsequent Inter-MSC Handover,MSCB,A,BTSB,BSCB,A-bis,Um,MS,RR(SACCH),MEAS
48、REP,MEAS REP,HO REQU(DT1),Cell Id lst,Cause,MSCA,VLRC,E,B,MAP_PREPARE_HANDOVER,MAP_ALLOCATE_HO_NUMBER,MAP_SEND_HO_REPORT,MAP_PREPARE_HANDOVER ACK,MAP_SEND_HO_REPORT ACK,IAM(TUP),ACM(TUP),HO CMD(DT1),(Cell,Ch Inf,Ho Ref),DATA REQ,HO COMMAND,RR(FACCH),BSSMAP,BSSMAP,RF CHA REL,(old TCH),RF CHA REL ACK,
49、After HO Succeed,BSCC,BSSMAP,HO REQ(DT1),CHAN ACTIV,CC,CHA ACT ACK,CR(Ch typ,Clmk),(Cell,Ciph K),HO REQ ACK(DT1),BSSMAP,BTSC,BTSB,BSCB,CLEAR CMD(DT1),BSSMAP,CLEAR CMP(DT1),BSSMAP,MAP_PREPARE_Subs_HANDOVER,MSCC,MAP_PREPARE_Subs_HANDOVER ACK,E,T201+,T201-,T210+,TNT3+,TNT3-,T210-,T204+,T103+,日讯科技,Conti
50、nue 1,MSCC,A,BTSC,BSCC,A-bis,Um,MS,HO COMMPLETE(DT1),(Cause),BSSMAP,MSCA,MSCB,E,B,RR(NewFACCH),HO DETECTION,HO ACCESS,PHYS INFO,PHYS INFO,L2-SABM,L2-UI,ESTA IND,HO COMPLET,DATA IND,HO ACCESS,ANC(TUP),MAP_SEND_END_SIGNAL,RR(FACCH),MAP_PROCESS_ACCESS_SIGNALLING,RR(FACCH),RR(FACCH),RR(FACCH),RR(FACCH),
