IV.
避开2G侧的最差小区,例如高干扰、高质差和高拥塞小区等。
3. 2G侧配置
1) CSFB通话结束后,LTE终端从2G侧返回4G的主要方式:
方式一:2G重选到3G再重选到4G
? 对于某些不支持TDS的4G终端,将滞留在2G;
? 如果4G终端在2G或3G网络发生PS业务,如果2G侧或3G侧不支持或者
没有配置切换或重定向等功能,则需要等到PS侧业务结束后才能返回4G网络。
方式二:2G直接重选到4G
? 2G侧需要支持BSS21353 “LTE System Information”功能;
? 由于2G侧SYSTEM INFORNATION 2QUATER分段广播,且3G和4G的消息都
在SI2Q消息里,某些手机由于芯片支持原因,还是先重选到3G再到4G。
方式三:2G FAST RETURN 到4G
? 2G侧需要升级到RG30,且支持RG301854 Feature: Fast Return to LTE。
我们推荐第三种方式。另外某些终端支持自主FR功能,也可以实现第三种方式返回。据说在系统FR和终端自主FR共存时,以系统FR为主。 系统FR只支持TDD或者FDD一种LTE制式。
2) 2G侧FR配置
LTE21353“LTE System Information”功能是系统侧RG301854 FR功能的基础,BSC侧需要同时激活这两个功能的license.
检查LTE system information 功能是否开启:ZW7I:FEA,FULL:FEA=1965; 检查Fast Return to LTE 功能是否开启:ZW7I: FEA,FULL:FEA=4367; 检查LTE模式 ZEEO;
BSC只能支持一个模式,要么FDD,要么TDD
4G邻区配置; 打开小区的开关
ZEQF:BTS=
ZEAN:BTS=56:INDEX=0:MCC=460,MNC=0,TAC=4122:FREQ=37900;
输出效果如下:
BSC BSC-LAB
LTE ADJACENCY CREATED INTO THE DATABASE
SEG-0006 CITY10 HAS LTE ADJACENT CELL :
LTE CELL INDEX......................... (INDEX).. 0 MOBILE COUNTRY CODE.................... (MCC).... 460 MOBILE NETWORK CODE.................... (MNC).... 0 TRACKING AREA CODE..................... (TAC).... 4122
LTE DOWNLINK CARRIER FREQUENCY......... (FREQ)... 37900 LTE CELL MIN BANDWITH.................. (LTEMB).. 0 LTE CELL PRIORITY...................... (LTECP).. 0
LTE CELL RESELECTION UPPER THRESHOLD... (LTERUT). 32 dB LTE CELL RESELECTION LOWER THRESHOLD... (LTERLT). 32 dB LTE CELL MIN RX LEVEL.................. (LTERXM). -140 dB BARRED LTE CELL LIST................... (LTEBCL). – BARRED LTE CELL GROUP.................. (LTEBCG). 0 BARRED LTE CELL PATTERN................ (LTEBCP). 255 BARRED LTE CELL PATTERN SENSE.......... (LTEPS).. 0
COMMAND EXECUTED
II. 2G 侧系统优先级配置
EQM:BTS=400::::::::WPRIO=4
输出效果如下:
LTE CELL RESELECTION PARAMETERS:
GSM PRIORITY.........................(GPRIO). 1 WCDMA PRIORITY.......................(WPRIO). 4
PRIORITY SEARCH THRESHOLD............(PSTHR). -98 dBm LOW PRIORITY THRESHOLD...............(LPTHR). ALWAYS
RESELECTION ALGORITHM HYSTERESIS.....(HPRIO). RULE DISABLED TIME HYSTERESIS......................(TIMEH). 5 s
UTRAN ADJ CELL THRESHOLD ............(UTTR).. 12 dB UTRAN QUAL RX MIN ...................(UQRL).. -119 dBm III.
2G侧相关参数
参数英文功能描述(参数功能原理简介)名称INDEX该参数为GSM的LTE邻区定义了邻区指示MCCMNCTACFREQLTEMB该参数为GSM的LTE邻区定义了MCC号该参数为GSM的LTE邻区定义了MNC号建议参数设置参数中文名称LTE邻区指示LTE邻区移动通信国家代码LTE邻区移动通信网代码LTE邻区TA识别号LTE邻区绝对频点号LTE邻区最小带宽值该参数为GSM的LTE邻区定义了它所属的TA识别号该参数为GSM的LTE邻区定义了绝对频点号该参数为GSM的LTE邻区定义了信道带宽的最小值该参数为GSM的LTE邻区定义了优先级(0为最低,7为LTE邻区优先级LTECP最高)LTE高优先级邻区最小该参数为比服务小区优先级高的LTE邻区定义了最小的LTERUT小区重选门限重选门限 (RSRP-lterxm>lterut)LTE低优先级邻区最小该参数为比服务小区优先级低的LTE邻区定义了最小的LTERLT小区重选门限重选门限LTE邻区最小接入电平LTERXM该参数为GSM小区定义了接入LTE小区最小的电平门限该参数为GSM小区定义了不允许重选接入的LTE小区PCILTE邻区禁止重选清单LTEBCL清单LTE邻区禁止接入组LTEBCG该参数为GSM小区定义了不允许接入的LTE小区PCI组LTE邻区PCID对应字符该参数为GSM小区定义了一个与其LTE邻区PCID对应的LTEBCP组字符组LTE邻区禁止接入PCID该参数为GSM小区定义了是否使用PCID与字符组的对LTEPS对应字符组启用应关系20MHz71032-130
Parameter name参数DescriptionWith this parameter, you can define anabsolute priority of the serving GSM cell.Value 0 is the lowest and value 7 is thehighest priority. The value cannot be thesame as WCDMA priority.With this parameter, you can define thethreshold for the serving cell thatcontrols the measurement of the lowerpriority inter-RAT cells or frequencies.With this parameter, you can define athreshold for the serving cell below whichthe MS is allowed to reselect to lowerpriority cells.With this parameter, you can define ahysteresis in the priority reselectionalgorithm.With this parameter, you can define a timehysteresis in priority based cellreselection algorithm in the serving cell.With this parameter, you can define anabsolute priority of the WCDMA neigborcells.The value of this parameter cannotbe the same as GSM priority.With this parameter you can define UtranThreshold Reselection. Parameter is usedby MS in priority-based cell reselectionalgorithm.With this parameter you can define UtranQuality Rx Level Margin. Parameter is usedby MS in priority-based cell reselectionRangeDefault解释GSM priorityGPRIO0-77PrioritysearchthresholdLow prioritythresholdPSTHR-98...-56?dB, step3?dB-90启动测量跨系统低优先级小区的门限LPTHR0...28?dB, step 2?dBRule disabled (0),5 dB (1), 4dB (2),3 dB (3)5 sec (0), 10 sec(1), 15 sec (2), 20sec (3)0-710重选到低优先级小区的门限Priority basedreselectionHPRIOhysteresisTimehysteresisTIMEH0重选电平磁滞1重选时间磁滞WCDMA priorityWPRIO6WCDMA 或者3G小区的绝对优先级UtranThresholdReselectionUtran QualityRx LevelMarginUTTR0-62?dB, step2?dB-119 ..-57dBmstep 2?dBm12:DEFAULT_UTRAN_QRXLEUQRL-119p: DEFAULT_THRESH_UT
4. 回落时延和返回时延
1. 4G回落到2G的时延统计,测试终端为不带自主FR的iphone5S.
测试场景6测试场景7测试场景8选最佳的1个2G邻4G配2G全配现网所有的4G配2G邻区选周围合适的15选周围合适的10选周围合适的6选周围合适的3区配置(优先选同只配一个错误2G邻区900M的BCCH(21不配2G邻区个2G邻区配置个2G邻区配置个2G邻区配置个2G邻区配置站同向的2G主邻邻区个)区)测量接通时间测试手段测试手段被叫时延:(CSFB手机在4G网络时,2G手机打4G CSFB手机,拨打立即计时,每个场景拨打20次,观察手机被叫响铃时停止计时)。主叫时延:(CSFB手机在4G网络时,4G CSFB手机手机打2G手机,拨打立即计时,每个场景拨打20次,观察手机被叫响铃时停止计时)。最大值被叫结果最小值(S)平均10.910.9109.510.29.811.2测试场景1测试场景2测试场景3测试场景4测试场景55.87.57.57.47.26.27.49.149.088.718.378.458.48最大值主叫结果最小值(S)平均10.59.99.810.49.89.8系统不支持,至少需要一个2G频点9.19107.47.37.27.67.57.87.99.308.308.578.648.548.638.91 2. 2G经过3G桥接重选回4G的时延,测试终端为不带自主FR的iphone5S.
测试场景6测试场景7选最佳的1个2G邻4G配2G全配现网所有的选周围合适的15选周围合适的10选周围合适的6选周围合适的34G配2G邻区区配置(优先选同不配2G邻区---邻区900M的BCCH(21个2G邻区配置--个2G邻区配置--个2G邻区配置个2G邻区配置-站同向的2G主邻40次个)---40次-40次-40次---40次--40次区)---40次测量重选回4G时间测试手段测试手段1、2G到3G:4G手机按下end键到手机显示驻留在3G小区;2、2G到4G:4G手机按下end键到手机显示驻留在4G小区;最大值结果(S)10299.970.776.765.972测试场景1测试场景2测试场景3测试场景4测试场景5测试场景8只配一个错误2G邻区---40次102最小值34.233.423.626.229.728.833.2平均59.252.347.250.145.644.950.3平均50.0 FR关闭RR Channel RelLTE-Sys Info 返回时延(S)14:42:00.60914:42:41.35900:41.17214:43:13.20314:43:47.35900:34.57814:44:10.64014:47:08.10902:57.90614:48:01.64014:48:55.17100:53.95314:49:18.59314:49:19.00000:01.03214:50:48.90614:50:51.31200:02.82814:51:25.79614:51:28.10900:02.53114:53:04.50014:53:04.75000:00.89114:54:48.31214:54:51.00000:03.11014:55:42.85914:55:43.21800:00.73414:57:19.85914:57:22.10900:02.46914:57:55.81214:57:57.85900:02.45315:00:50.62515:01:09.01500:18.79715:01:37.28115:03:39.57802:02.71915:04:11.95315:05:48.82801:37.29715:06:50.46815:08:26.95301:36.90715:09:16.90615:10:32.37501:15.68815:11:29.43715:11:59.48400:30.25015:12:51.54615:13:14.34300:23.21815:13:39.67115:15:12.73401:33.484100D.1013. FR开关之间的时延差异,测试终端为I9308C。
FR开启成功(Y/N)Disconnect(sRR Channel RLTE-Sys In返回时延(S)成功(Y/N)1Y(14:28)57.87558.29658.4680.593Y2Y(14:29)17.96818.51518.7650.797Y3Y(14:29)36.14036.54636.8120.672Y4Y(14:29)54.39054.81255.1560.766Y5Y(14:30)13.00013.42113.6560.656Y6Y(14:30)31.59332.01532.2500.657Y7Y(14:30)51.25051.67152.0000.750Y8Y(14:31)10.46810.89011.2340.766Y9Y(14:31)28.46828.87529.1400.672Y10Y(14:31)48.54648.73449.1090.563Y11Y(14:32)25.21825.42125.8120.594Y12Y(14:32)49.35949.57849.9530.594Y13Y(14:33)11.25011.67111.8430.593Y14Y(14:33)32.35932.65633.0150.656Y15Y(14:34)3.7344.1714.3750.641Y16Y(14:35)18.89019.10919.2960.406Y17Y(14:35)44.46844.67145.0460.578Y18Y(14:36)15.48415.70316.0310.547Y19Y(14:36)46.17146.39046.7180.547Y20Y(14:38)11.70311.90612.2650.562Y100%成功率0.631平均时延次数Disconnect14:42:00.18714:43:12.78114:44:10.20314:48:01.21814:49:17.96814:50:48.48414:51:25.57814:53:03.85914:54:47.89014:55:42.48414:57:19.64014:57:55.40615:00:50.21815:01:36.85915:04:11.53115:06:50.04615:09:16.68715:11:29.23415:12:51.12515:13:39.250
二. RRC_idle态重选
重选主要是保持终端在空闲状态下业务的连续性。从频率和系统的角度讲,重选可以分为以下几种:
同频重选
同系统异频重选(多种场景) ? 宏蜂窝之间
? 两层网之间(D+F)
? 单层网和异频插花站之间(D+F插花) ? 宏蜂窝重选到微蜂窝(D到E) ? 微蜂窝重选到宏蜂窝 (E到D) 异系统重选
重选的基本原则是先同频,再异频,然后异系统。 重选主要考虑的因素:
LTE首先是一个同频自干扰系统,同频小区之间终端最好驻留在SINR最好或者RSRP最大的小区;
从高优先级的小区重选到低优先级的异频或者异系统小区,起测门限和判决门限是由一套参数控制的;
起测门限越大,手机空闲态越耗电,起测和耗电之间的平衡; 异频异系统之间的负荷均衡(暂未考虑)。
1. 同频重选
由于LTE系统是同频自干扰系统,同频小区之间终端最好驻留在SINR最好或者RSRP最大的小区,建议同频起测门限不低于-80dBm。在R8同频重选采用S准则判决。相关参数:
MO Class Parameter Name Abbreviated Name 3GPP name Intra-frequency reselection LNCEL timer EUTRA celResTiF t-ReselectionEUTRA-SF