网优文档59：LTE常用MML命令(HW)

华为5G常用MML命令（现场版本）常用命令：1、LST NRCELL 查询NR小区静态参数(频带，下行频点，双工模式，激活状态；2、DSP NRCELL 查询NR小区动态参数（最近一次NR DU小区状态变化的原因等）；3、LST NRDUCELL 查询NR DU小区静态参数（小区标识、PCI、带宽、频点等）；4、DSP NRDUCELL 查询NR DU小区动态参数；5、LST GNODEBFUNCTION 查询gNodeB功能（基站号）；6、LST ALMAF 查询活动告警；7、LST NRCELLRESELCONFIG 查询NR小区重选配置(部分网元版本不支持)；8、LST NRCELLRELATION 查询NR小区关系9、LST NRDUCELLPDSCH查询NR DU小区PDSCH配置10、LST NRDUCELLPUSCH:;查询NR DU小区PUSCH配置11、DSP GNBCUX212、LST NRCELLRELATION查询NR小区邻区13、LST NREXTERNALNCEL 查询NR外部邻区14、LST NRCELLANR查询NR小区ANR15、LST NRCELLEUTRANRELATION 查询NR小区E-UTRAN邻区关系16、LST GNBEUTRAEXTERNALCELL 查询gNodeB EUTRAN外部小区17、LST NRCELLEUTRANNFREQ查询NR小区E-UTRAN相邻频点18、LST OPTLOG查询操作日志19、LST RRU查询RRU配置信息（5G站点RRU为AAU），根据发射通道和接受通道个数可知小区为64T64R20、STR NRDUCELLCHNCALIB启动NR DU小区通道校正21、DSP NRDUCELLCHNCALIB查询NR DU小区通道校正，通道校正通过才能进行单验22、STR VSWRTEST启动驻波比测试23、STP VSWRTEST停止驻波比测试1）当驻波比大于工程质量要求值时，说明连接存在问题，需要检查天馈连线和天馈设备;2）DSP VSWR查询的驻波值是射频模块使用当前运行功率来启动自动驻波测试结果，而STR VSWRTEST是根据单音以最大功率启动驻波测试，并且两种测试精度不同，因此二者结果会有差异3）该命令依次对每个发射通道进行串行测试，因此执行时间会随发射通道的个数成倍增加24、DSP BRD查询单板(5G的单板为AIRU)25、LST NRCELLALGOSWITCH查询NR小区级算法开关26、LST NRDUCELLTRP查询NR DU小区TRP（功率）,目前最高349dBm （200W）NRDUCELLTRPID=201,MAXTRANSMITPOWER=349;（修改发射功率）27、LST GNODEBPARAM gNodeB下所有小区空口帧的起始相对于参考时钟源的延迟时间（用于5G站点与T DD站的帧对齐）28、ACT NRDUCELL激活 ACT NRCELL 激活NSA组网模式下，5G小区需同时激活FDD锚点站、5G小区、5G DU小区，才可将站点完全激活使用户接入29、DEA NRDUCELL去激活 DEA NRCELL 去激活30、DSP ALLUEBASICINFO查询LTE小区下所有UE（User Equipment）的基本信息31、DSP GNBCUX2INTERFACE查询gNodeB CU X2接口状态和信息32、LST SCTPHOST查询SCTP本端配置信息查询5G站PDCP分流模式，避免影响现网，将服务质量等级8和9的“AM 模式PDCP参数组标识”设置为5；将参数组5的“下行数据PDCP分流模式= 动态分流”设置为仅向辅站分流33、LST NRCELLQCIBEA RER34、LST GNBPDCPPARAMGROUP35、锚点站A6主控板不支持NSA组网模式锚点站主控板查询：锚点站主控板型号：WD22UMPTe3运营商信息查询（MCC、MNC）组网配置LST GNBOPERATOR(5G)LST CNOPERATOR(4G)36、FDD站点关闭ANR功能MOD CELLALGOSWITCH小区级算法开关，MOCN改造站的关闭ANR开关37、锚点站关闭DRX MOD CELLDRXPARA:LOCALCELLID=1,DRXALGSWITCH=OFF;38、T AC查询：5G站点LS T G NBT RAC K ING ARE A:;4G站点LS TC NO PE RATO RT A:;查询gNo deB测量公共参数组L ST G NBME AS CO MMP ARAMG RP39、L S T A L M L OG查询告警日志40、LS T C ELL RE SEL查询小区重选信息,调整优先级，小区重选门限等41、LS T C ELL MCP ARA查询测量控制参数信息45、LS T NRDUCEL L RS VDP ARAM:;保留参数15，小区频选开关，接入信号强度最高的小区，其它信号对本小区的干扰影响，应用于n41频段开通100M后，避免周边D1\D2的干扰影响46、LS T RE TP O RT传输口查询47、LS T G NBC IP HE RC AP B:; gNo deB加密算法优先级T UE保障通过关闭加密算法，速率可以进一步提升。

常用MML命令汇集增加（ADD）查询状态(DSP) 查询配置(LST) 删除(RMV) 激活(ACT) 复位(RST) 备份(BKP) 修改(MOD)闭塞（BLK）解闭塞(UBL) 设置(SET) 去激活(DEA) 载波资源(CARRIERRES) 单板(BRD) 扇区(SECTOR)查询光电模块动态信息(DSP SFP)增加单板(ADD BRD)查询单板(DSP BRD)查询CPRI端口动态信息(DSP CPRIPORT)查询RRU状态(DSP TDRRU)显示驻波检测任务(DSP VSWRTEST)查询BBU电源板状态(DSP UPEU)查询单板版本信息(DSP BRDVER)查询网元时间(DSP TIME)查询单板版本信息(DSP BRDVER)激活软件(ACT SOFTWARE)备份配置数据(BKP CFGFILE)激活配置数据(ACT CFGFILE)查询NodeB(LST TDSNODEBFUNCTION)复位单板(RST BRD)修改NodeB(MOD TDSNODEBFUNCTION)查询网元当前状态(DSP MNTMODE)查询基站名称(LST RBSNAME)增加设备IP地址(ADD DEVIP)查询设备IP配置信息(LST DEVIP)查询设备IP地址(DSP DEVIP)查询静态路由配置信息(LST IPRT)增加IP路由(ADD IPRT)增加SCTP链路(ADD SCTPLNK)查询SCTP链路状态(DSP SCTPLNK)查询CP承载状态(DSP CPBEARER)增加CP承载(ADD CPBEARER)查询下一跳VLAN映射配置信息(LST VLANMAP)增加下一跳VLAN的映射(ADD VLANMAP)删除下一跳VLAN映射(RMV VLANMAP)增加远端维护通道(ADD OMCH)查询远端维护通道状态(DSP OMCH)查询远端维护通道配置信息(LST OMCH)增加本地小区设备(ADD LOCELL)删除本地小区设备(RMV LOCELL)增加扇区(ADD SECTOR)查询活动告警(LST ALMAF)闭塞本地小区设备(BLK LOCELL)查询单板制造信息(DSP BRDMFRINFO)。

EEO:ALL:;DX 200 XYBSC3 2006-01-13 15:40:42BASE STATION CONTROLLER DATABACKGROUND DATA STATE .............................. CLEARNUMBER OF PREFERRED CELLS ........................(NPC). (3)GSM MACROCELL THRESHOLD ..........................(GMAC)... 33 dBm GSM MICROCELL THRESHOLD ..........................(GMIC)... 33 dBm DCS MACROCELL THRESHOLD ..........................(DMAC)... 26 dBm DCS MICROCELL THRESHOLD ..........................(DMIC)... 24 dBm MS DISTANCE BEHAVIOUR ............................(DISB) (255)(NO RELEASE, ONLY HANDOVER ATTEMPTS)EMERGENCY CALL ON FACCH ..........................(EEF).... N ANSWER TO PAGING CALL ON FACCH ...................(EPF).... N ORDINARY CALLS ON FACCH ..........................(EOF).... NRE-ESTABLISHMENT ON FACCH ........................(ERF).... N TCH IN HANDOVER ..................................(HRI). (5)(TCH HAS TO BE ALLOCATED PRIMARILY FROM THE BEST BTS)LOWER LIMIT FOR FR TCH RESOURCES .................(HRL).... 20 % UPPER LIMIT FOR FR TCH RESOURCES .................(HRU).... 40 %BSC CALL NUMBER ..................................(BCN). (0000)FREE TSL FOR CS DOWNGRADE ........................(CSD).... 95 % FREE TSL FOR CS UPGRADE ..........................(CSU).... 4 s TRHO GUARD TIME ..................................(TGT).... 30 s PRIORITY HO INTERFERENCE DL ......................(HDL).... INTER PRIORITY HO INTERFERENCE UL ......................(HUL).... INTER LOAD RATE FOR CHANNEL SEARCH .....................(CLR).... 100 %MINIMUM MEAN HOLDING TIME FOR TCHS ...............(MINHTT). 5 s MAXIMUM MEAN HOLDING TIME FOR TCHS ...............(MAXHTT). 120 min MAXIMUM MEAN HOLDING TIME FOR SDCCHS .............(MAXHTS). 30 min ALARM THRESHOLD FOR TCH FAILURE RATE .............(TCHFR).. 30 % ALARM THRESHOLD FOR SDCCH FAILURE RATE ...........(SCHFR).. 50 % ALARM THRESHOLD FOR TCH CONGESTION ...............(CNGT)... 20 % ALARM THRESHOLD FOR SDCCH CONGESTION .............(CNGS)... 20 % ALARM THRESHOLD FOR NUMBER OF CHANNEL SEIZURES ...(CS).. (10)ALARM THRESHOLD FOR NUMBER OF CH SEIZURE REQUESTS (CSR) (100)MEAS PRD FOR TCH MEAN HOLDING TIME SUPERVISION ...(PRDMHT). 240 min MEAS PRD FOR SDCCH MEAN HOLDING TIME SUPERVISION .(PRDMHS). 60 min MEAS PRD FOR SUPERVISION OF CHANNEL FAILURE RATE .(PRDCFR). 60 min MEAS PRD FOR SUPERVISION OF CONGESTION IN BTS ....(PRDCNG). 120 minTHRESHOLD FOR HIGH TCH INTERFERENCE LEVEL ........(HIFLVL). 4ALARM THRESHOLD FOR SHARE OF HIGH TCH INTERFERENCE(HIFSHR). 50 %MEAS PRD FOR HIGH TCH INTERFERENCE SUPERVISION ...(PRDHIF). 120 min MEAS PRD FOR SUPERVISION OF BTS WITH NO TRANSACT .(PRDBNT). 120 min STARTING MOMENT FOR SUPERVISION OF BTS ...........(SMBNT).. 08-00ENDING MOMENT FOR SUPERVISION OF BTS .............(EMBNT).. 18-00GPRS TERRITORY UPDATE GUARD TIME .................(GTUGT).. 5 sBCSU LOAD THRESHOLD ..............................(BCSUL).. 1.50 %LAPD LOAD THRESHOLD ..............................(LAPDL).. 1.50 % UPPER LIMIT OF MS SPEED CLASS 1 ..................(MSSCF).. 10 ( 20 km/h) UPPER LIMIT OF MS SPEED CLASS 2 ..................(MSSCS).. 30 ( 60 km/h) ALARM LIMIT FOR FULL RATE TCH AVAILABILITY .......(ALFRT).. 30 % ALARM LIMIT FOR HALF RATE TCH AVAILABILITY .......(ALHRT).. 30 % ALARM LIMIT FOR SDCCH AVAILABILITY ...............(ALSDC).. 30 % DISABLE INTERNAL HO ..............................(DINHO).. N DISABLE EXTERNAL DR ..............................(DEXDR).. NRX LEVEL BALANCE .................................(RXBAL).. 5 dBRX ANTENNA SUPERVISION PERIOD ....................(RXANT).. 65535 min(RX ANTENNA SUPERVISION IS NOT PERFORMED)NUMBER OF IGNORED TRANSCODER FAILURES ............(ITCF) (3)VARIABLE DL STEP SIZE ............................(VDLS)... Y MAXIMUM NUMBER OF DL TBF .........................(MNDL) (9)MAXIMUM NUMBER OF UL TBF .........................(MNUL) (7)INTRA SEGMENT SDCCH HO GUARD .....................(ISS).... 255 sPRE-EMPTION USAGE IN HANDOVER ...................(PRE).... YDL HIGH PRIORITY SSS..............................(DHP). (3)DL NORMAL PRIORITY SSS............................(DNP). (6)DL LOW PRIORITY SSS...............................(DLP). (12)UL PRIORITY 1 SSS.................................(UP1). (3)UL PRIORITY 2 SSS.................................(UP2). (6)UL PRIORITY 3 SSS.................................(UP3). (9)UL PRIORITY 4 SSS.................................(UP4). (12)PRIORITY LEVEL SUBSCRIBER TYPE1 0 (GSM SUBSCRIBER)2 0 (GSM SUBSCRIBER)3 0 (GSM SUBSCRIBER)4 0 (GSM SUBSCRIBER)5 0 (GSM SUBSCRIBER)6 0 (GSM SUBSCRIBER)7 0 (GSM SUBSCRIBER)8 0 (GSM SUBSCRIBER)9 0 (GSM SUBSCRIBER)10 0 (GSM SUBSCRIBER)11 0 (GSM SUBSCRIBER)12 0 (GSM SUBSCRIBER)13 0 (GSM SUBSCRIBER)14 0 (GSM SUBSCRIBER)COMMAND EXECUTEDBASE STATION CONTROLLER HANDLING COMMAND <EE_>EGO:ALL:;PAGE 1PRESET PARAMETER VALUE VALUE MODIFIABLE ------------------------------------------------------------------------------ T4 60.00 S 60.00 S YEST7 30.00 S 20.00 S YEST8 12.00 S 12.00 S YEST10 14.00 S 8.00 S YEST13 15.00 S 15.00 S YEST17 4.00 S 4.00 S YEST18 12.00 S 12.00 S YEST3101 5.00 S 3.00 S YEST3103 6.00 S 6.00 S YEST3105_D 0.28 S 0.28 S NOT3105_F 0.10 S 0.10 S NOT3107 10.00 S 6.00 S YEST3109 15.00 S 12.00 S YEST3111 0.50 S 0.50 S NOT3121 12.00 S 12.00 S YEST3122 6.00 S 6.00 S YEST3168 1.00 S 1.00 S YEST3192 0.50 S 0.50 S YEST9101 10.00 S 10.00 S NOPAGE 2PRESET PARAMETER VALUE VALUE MODIFIABLE ------------------------------------------------------------------------------T9103 2.00 S 2.00 S NOT9104 15.00 S 15.00 S YEST9105 20.00 S 10.00 S YEST9108 2.00 S 2.00 S NOT9113 13.00 S 13.00 S YES CELL IDENTIFIER LAC+CI LAC+CI YES BLOCK MSG INCOMING GLOBAL RESET YES YES YES BLOCK MSG OUTGOING GLOBAL RESET YES YES YES UNBLOCK MSG IN GLOBAL RESET NO NO YES SEND SYS INFO GLOBAL RESET YES YES YES CELL BARRING INCOMING GLOBAL RESET NO NO YES ALLOW SENDING OF CONFUSION MESSAGES NO NO YES ALLOW CIRCUIT GROUP MESSAGES NO NO YES ALARM LIMIT FOR UNAVAILABLE A-IF CIRCUITS 100 % 100 % YES ALARM DELAY FOR UNAVAILABLE A-IF CIRCUITS 60 S 60 S YES ALARM LIMIT FOR SUCCESSIVE REMOTE TC FAIL 3 3 YES ALLOW SENDING OF UNEQUIPPED CIRCUIT MESSAGES NO NO YES ALLOW SENDING OF TA VALUE TO MSC 0 0 YES PREFERENCE PROCEDURE IN CONFLICT SITUATION ASSIGN ASSIGN YESPAGE 3PRESET PARAMETER VALUE VALUE MODIFIABLE ------------------------------------------------------------------------------ BS_CV_MAX 6 6 YES DECREMENT VALUE FOR COUNTER N3102 1 1 YES INCREMENT VALUE FOR COUNTER N3102 1 1 YES MAXIMUM VALUE FOR COUNTER N3102 1 1 YES DOWNLINK DTX NO NO YES NMO - NETWORK MODE OF OPERATION 01 BIN 01 BIN YES REPEAT COUNT FOR ALARM 3121 10 10 YES FEP CORR WITH RXQUAL IN PC&HO ALGRTHM CL1 2 % 2 % YES FEP CORR WITH RXQUAL IN PC&HO ALGRTHM CL2 4 % 4 % YES FEP CORR WITH RXQUAL IN PC&HO ALGRTHM CL3 6 % 6 % YES FEP CORR WITH RXQUAL IN PC&HO ALGRTHM CL4 8 % 8 % YES FEP CORR WITH RXQUAL IN PC&HO ALGRTHM CL5 10 % 10 % YES FEP CORR WITH RXQUAL IN PC&HO ALGRTHM CL6 12 % 12 % YES FEP CORR WITH RXQUAL IN PC&HO ALGRTHM CL7 14 % 14 % YES SGSN RELEASE 1 1 YES MSC RELEASE 1 1 YES DRX TIMER MAX 0 3 YES TWO-WAY SPEECH PATH CONNECT TRIGGER POINT 0 0 YESCOMMAND EXECUTEDGSM TIMER AND BSC PARAMETERS HANDLING COMMAND <EG_><=============================================================================== EQO:BTS=3:ALL:;DX 200 XYBSC3 2006-01-13 15:20:21BTS PARAMETERS :================SEG-003 PQSHUANGJING3BCF-001 BTS-003 PQSHUANGJING3-------------------------------------BTS ADMINISTRATIVE STATE ... UNLOCKEDBTS OPERATIONAL STATE ...... WOBTS BACKGROUND DATA STATE .. NOT DEFINEDCELL IDENTITY............................(CI).. (35126)FREQUENCY BAND IN USE....................(BAND) (900)BS IDENTITY CODE.........................(BSIC)NETWORK COLOUR CODE...................(NCC). (1)BACKGROUND NETWORK COLOUR CODE........(BNCC)... -BTS COLOUR CODE.......................(BCC). (4)BACKGROUND BTS COLOUR CODE............(BBCC)... -LOCATION AREA ID.........................(LAI)MOBILE COUNTRY CODE...................(MCC). (460)MOBILE NETWORK CODE...................(MNC). (00)LOCATION AREA CODE....................(LAC). (14627)BTS HOPPING MODE.........................(HOP).... NBACKGROUND BTS HOPPING MODE..............(BHOP)... -MOBILE ALLOCATION FREQUENCY LIST......(MAL).... -BACKGROUND MOBILE ALLOC FREQ LIST.....(BMAL)... -HOPPING SEQUENCE NUMBER 1.............(HSN1) 0BACKGROUND HOPPING SEQUENCE NUMBER 1..(BHSN1).. -HOPPING SEQUENCE NUMBER 2.............(HSN2) 0BACKGROUND HOPPING SEQUENCE NUMBER 2..(BHSN2).. -CELL BARRED..............................(BAR).... NCALL RE-ESTABLISHMENT ALLOWED............(RE)..... YEMERGENCY CALL RESTRICTED................(EC)..... NPLMN PERMITTED...........................(PLMN)... 00,01,02,03,04,05,06,07NOT ALLOWED ACCESS CLASSES...............(ACC). (15)DIRECTED RETRY USED......................(DR)..... Y INTELLIGENT DIRECTED RETRY USED..........(IDR).... NCELL TYPE................................(CTY).... GSMMIN TIME LIMIT DIRECTED RETRY............(MIDR) (2)MAX TIME LIMIT DIRECTED RETRY............(MADR) (6)DIRECTED RETRY METHOD....................(DRM). (1)GPRS NOT ALLOWED ACCESS CLASSES..........(GACC)... -GPRS CELL BARRED.........................(GBAR) 0CELL RESELECT HYSTERESIS.................(HYS).... 06 dBMS TXPWR MAX CCH.........................(TXP1)... 33 dBmMS TXPWR MAX CCH 1X00....................(TXP2)... 30 dBmRXLEV ACCESS MIN.........................(RXP)....-098 dBmRADIO LINK TIMEOUT.......................(RLT).... 64 SACCH FRAMES POWER OFFSET.............................(PO)..... 00 dBGPRS RXLEV ACCESS MIN....................(GRXP)...-105 dBmGPRS MS TXPWR MAX CCH....................(GTXP1).. 33 dBmGPRS MS TXPWR MAX CCH 1X00...............(GTXP2).. 30 dBmGPRS CELL RESELECT HYSTERESIS............(GHYS)... 04 dBGPRS NON BCCH LAYER RXLEV UPPER LIMIT....(GPU)....-095 dBmGPRS NON BCCH LAYER RXLEV LOWER LIMIT....(GPL)....-100 dBmDIRECT GPRS ACCESS.......................(DIRE)... 0 dBmRA RESELECT HYSTERESIS...................(RRH).... 4 dBC31 HYSTERESIS...........................(CHYS)... NC32 QUAL.................................(QUAL)... NRANDOM ACCESS RETRY......................(RAR).... N RESELECTION TIME.........................(RES).... 5 SECONDS PRIORITY CLASS...........................(PRC). 0HCS THRESHOLD............................(HCS).... -MAX QUEUE LENGTH.........................(MQL).... 050 %TIME LIMIT CALL..........................(TLC).... 10 SECONDS TIME LIMIT HANDOVER......................(TLH).... 05 SECONDS QUEUE PRIORITY USED......................(QPU).... YQUEUEING PRIORITY CALL................(QPC). (10)QUEUEING PRIORITY URGENT HANDOVER.....(QPH). (09)QUEUEING PRIORITY NON-URGENT HANDOVER.(QPN) (09)MS PRIORITY USED.........................(MPU).... NNUMBER OF BLOCKS FOR ACCESS GRANT MSG....(AG).. (02)NUMBER OF MULTIFRAMES....................(MFR). (05)TIMER FOR PERIODIC MS LOCATION UPDATING..(PER).... 03.0 HOURSALLOW IMSI ATTACH DETACH.................(ATT).... YPBCCH BLOCKS.............................(PBB). (03)PAGCH BLOCKS.............................(PAB). (04)PRACH BLOCKS.............................(PRB). (06)C/N THRESHOLD............................(CNT).... 40 dBAVERAGING PERIOD.........................(AP).. (06)BOUNDARY 0...............................(BO0)....-110 dBmBOUNDARY 1...............................(BO1)....-105 dBmBOUNDARY 2...............................(BO2)....-100 dBmBOUNDARY 3...............................(BO3)....-095 dBmBOUNDARY 4...............................(BO4)....-090 dBmBOUNDARY 5...............................(BO5)....-047 dBmDTX MODE.................................(DTX).... 1 (MS SHALL USE DTX) BTS MEASURE AVERAGE......................(BMA). (01)MS TX PWR MAX GSM........................(PMAX1).. 33 dBmMS TX PWR MAX GSM1X00....................(PMAX2).. 30 dBmMS TX PWR MIN............................(PMIN)... 05 dBmMAX NUMBER OF RETRANSMISSION.............(RET). (07)MAX NUMBER OF REPETITION.................(NY1). (10)NUMBER OF SLOTS SPREAD TRANS.............(SLO). (10)SMS CB USED..............................(CB)..... NBTS LOAD THRESHOLD.......................(BLT).... 085 %MS MAX DISTANCE IN CALL SETUP............(DMAX)... 255 (NO REJECTION) TRX PRIORITY IN TCH ALLOCATION...........(TRP). 0CELL LOAD FOR CHANNEL SEARCH.............(CLC).... 0 %TCH RATE INTRA-CELL HANDOVER.............(TRIH) 0(NO CONSTRAINTS)LOWER LIMIT FOR FR TCH RESOURCES.........(FRL).... 20 %UPPER LIMIT FOR FR TCH RESOURCES.........(FRU).... 40 %NEW ESTABLISHMENT CAUSES SUPPORT.........(NECI)... YEARLY SENDING INDICATION.................(ESI).... NNON BCCH LAYER OFFSET....................(NBL).... 0 dBmCALCULATION OF MINIMUM NUMBER OF SLOTS...(CALC) (30)GPRS NUMBER OF SLOTS SPREAD TRANSMISSION.(GSLO) (10)GPRS MAX NUMBER OF RETRANSMISSION........(GRET)... 4 4 4 4BTS LOAD IN SEG..........................(LSEG)... 70 %C2 RESELECTION PARAMETERS:CELL RESELECTION PARAMETER INDEX......(PI)..... NCELL BAR QUALIFY......................(QUA).... NCELL RESELECT OFFSET..................(REO).... 0 dBTEMPORARY OFFSET......................(TEO).... 0 dBPENALTY TIME..........................(PET).... 20 sTRUNK RESERVATION USED...................(TR)..... NLIMIT FOR FREE TCHS......................(LIMIT).. 16TCHS RESERVED FOR PRIORITY SUBSCRIBERS...(TCRP) 0RESTRICTED USE OF PRIORITY CHANNELS......(RUP).... YRESERVATION METHOD.......................(REM).... DYNTRAFFIC TYPE TABLE1 (GSM CALL SETUP) -2 (MCN CALL SETUP) -3 (GSM HANDOVER) -4 (MCN HANDOVER) -5 (PRIORITY CALL SETUP) -6 (PRIORITY HANDOVER) -7 -8 -9 -10 -ID. OF BCCH FREQUENCY LIST........(IDLE)... 0 (ADJACENT CELL LIST USED) BCCH ALLOC. USAGE FOR ACTIVE MS...(ACT).... ADJ (ADJACENT CELL LIST USED)BTS HOPPING MODE..................(HOP).... N (NOT HOPPING) BACKGROUND BTS HOPPING MODE.......(BHOP)... -HOPPING SEQUENCE NUMBER 1......(HSN1)... 0 *)BACKGROUND HSN1................(BHSN1).. -HOPPING SEQUENCE NUMBER 2......(HSN2)... 0 *)BACKGROUND HSN2................(BHSN2).. -MAIO OFFSET....................(MO)..... 0 *)BACKGROUND MAIO OFFSET.........(BMO).... -MAIO STEP......................(MS)..... 1 *)BACKGROUND MAIO STEP...........(BMS).... -MOBILE ALLOCATION FREQ LIST....(MAL).... - *)BACKGROUND MA FREQ LIST........(BMAL)... -MAIO VALUES PER RADIO TIMESLOT:ADM. OP.STATE STATE FREQ RTSL0 RTSL1 RTSL2 RTSL3 RTSL4 RTSL5 RTSL6 RTSL7TRX-009 U WO 78 BCCH*) NOT RELEVANT IN THIS HOPPING MODEGPRS ENABLED.............................(GENA)... YNETWORK SERVICE ENTITY IDENTIFIER.....(NSEI) (8030)BSSGP VIRTUAL CONNECTION IDENTIFIER...(BVCI) (10003)ROUTING AREA IDENTIFICATION..............(RAI)MOBILE COUNTRY CODE...................(MCC). (460)MOBILE NETWORK CODE...................(MNC). (00)LOCATION AREA CODE....................(LAC). (14627)ROUTING AREA CODE........................(RAC). (1)DEDICATED GPRS CAPACITY..................(CDED)... 1 %DEFAULT GPRS CAPACITY....................(CDEF)... 90 %MAX GPRS CAPACITY........................(CMAX)... 100 %PREFER BCCH FREQUENCY GPRS...............(BFG).... YDL ADAPTION PROBABILITY THRESHOLD........(DLA).... 20 %UL ADAPTION PROBABILITY THRESHOLD........(ULA).... 10 %DL BLER CROSSPOINT CS SELECTION NO HOP...(DLB).... 90 %UL BLER CROSSPOINT CS SELECTION NO HOP...(ULB).... 90 %DL BLER CROSSPOINT CS SELECTION HOP......(DLBH)... 20 %UL BLER CROSSPOINT CS SELECTION HOP......(ULBH)... 24 %CODING SCHEME NO HOP.....................(COD). (2)CODING SCHEME HOP........................(CODH) 0COMMAND EXECUTEDBASE TRANSCEIVER STATION HANDLING IN BSC COMMAND <EQ_><================================================================================= EHO:BTS=3:;DX 200 XYBSC3 2006-01-13 15:46:48HANDOVER CONTROL PARAMETERS OFSEG-003 PQSHUANGJING3BTS-003 PQSHUANGJING3ENABLE INTRA HO INTERF UL ...... Y ENABLE INTRA HO INTERF DL ...... Y ENABLE PWRBUDGET HANDOVER ...... Y ENABLE MS DISTANCE PROCESS ..... N ENABLE SDCCH HANDOVER .......... N ENABLE UMBRELLA HANDOVER ....... N ENABLE FAST AVE CALL SETUP ..... N ENABLE FAST AVE PC ............. N ENABLE FAST AVE HO ............. NMIN INT BETWEEN HO REQ ............. 04 s HO PERIOD UMBRELLA . (06)MIN INT BETWEEN UNSUCC HO ATTEMPT .. 03 s HO PERIOD PBGT (06)AVERAGING WINDOW SIZE ADJ CELL ..... 04 NUMBER OF ZERO RESULTS (2)ALL ADJACENT CELLS AVERAGED ........ NHO AVERAGING LEV DL WINDOW SIZE ............ 06 WEIGHTING . (1)HO AVERAGING LEV UL WINDOW SIZE ............ 06 WEIGHTING . (1)HO AVERAGING QUAL DL WINDOW SIZE ............ 01 WEIGHTING . (1)HO AVERAGING QUAL UL WINDOW SIZE ............ 01 WEIGHTING . (1)MS SPEED AVERAGING (04)HO THRESHOLDS QUAL DL RX QUAL ...... 3.2% - 6.4% PX .. 02 NX .. 03HO THRESHOLDS QUAL UL RX QUAL ...... 3.2% - 6.4% PX .. 01 NX .. 02HO THRESHOLDS LEV DL RX LEVEL ............ -095 dBm PX .. 02 NX .. 03 HO THRESHOLDS LEV UL RX LEVEL ............ -102 dBm PX .. 02 NX .. 03 HO THRESHOLDS LEV UL FOR RAPID FIELD DROP . -110 dBm PX .. 00 (DISABLED) ENABLE ENHANCED RAPID FIELD DROP ........... DIS (DISABLED) THRESHOLD DEEP DROPPING EDGE ............... 10 dB PX .. 02 NX .. 03 DEEP DROPPING EDGE MONITORING WINDOW . (2)MODIFIED AVERAGING WINDOW (2)MODIFIED NUMBER OF ZERO RESULTS (1)ENHANCED RAPID FIELD DROP DURATION ......... 10 sNON BCCH LAYER ACCESS THRESHOLD ............ -090 dBmNON BCCH LAYER EXIT THRESHOLD .............. -095 dBm PX .. 01 NX .. 01HO THRESHOLDS INTERFERENCE DL RX LEVEL ..... -080 dBm PX .. 01 NX .. 01 HO THRESHOLDS INTERFERENCE UL RX LEVEL ..... -080 dBm PX .. 01 NX .. 01MS DISTANCE AVERAGING PARAM WINDOW SIZE (10)MS DISTANCE HO THRESHOLD PARAM MS RANGE MAX .... 63 PX .. 01 NX .. 01USED C/I ESTIMATION METHOD ...... NONE (ESTIMATION METHODS NOT IN USE)LOWER C/I LIMIT 1 ... 30 dB PRIORITY ADJ. STEP FOR BAND 1 (3)LOWER C/I LIMIT 2 ... 25 dB PRIORITY ADJ. STEP FOR BAND 2 (1)LOWER C/I LIMIT 3 ... 20 dB PRIORITY ADJ. STEP FOR BAND 3 0LOWER C/I LIMIT 4 ... 17 dB PRIORITY ADJ. STEP FOR BAND 4 ... - 1 LOWER C/I LIMIT 5 ... 13 dB PRIORITY ADJ. STEP FOR BAND 5 ... - 2 LOWER C/I LIMIT 6 ... 9 dB PRIORITY ADJ. STEP FOR BAND 6 ... - 5PRIORITY ADJ. STEP FOR BAND 7 ... - 8SUPER REUSE ESTIMATION METHOD ............. MAX (MAXIMUM TAKING METHOD) ENABLE INTER FRT HANDOVER ................. DIS (DISABLED) INTERFERING CELL AVERAGING WINDOW SIZE . (8)INTERFERING CELL NUMBER OF ZERO RESULTS (7)ALL INTERFERING CELLS AVERAGED ............ YSUPER REUSE GOOD C/I THRESHOLD ............ 16 dB PX .. 08 NX .. 10 SUPER REUSE BAD C/I THRESHOLD ............ 12 dB PX .. 02 NX .. 04 MINIMUM BSIC DECODE TIME (10)ENABLE TCH ASS SUPER IUO 0MINIMUM INTERVAL BETWEEN UNSUCC IUO HO .... 20 sMINIMUM INTERVAL BETWEEN IUO HO REQ BQ .... 10 sSUPER REUSE GOOD THRESHOLD RX LEVEL ....... -080 dBm PX .. 08 NX .. 10 SUPER REUSE BAD THRESHOLD RX LEVEL ........ -085 dBm PX .. 02 NX .. 06LOWER SPEED LIMIT ......................... 0 ( 0 km/h )UPPER SPEED LIMIT ......................... 0 ( 0 km/h )MS SPEED THRESHOLD PX ......... 3 MS SPEED THRESHOLD NX (6)MS SPEED DETECTION STATE 0COMMAND EXECUTEDHANDOVER CONTROL PARAMETERS HANDLING COMMAND <EH_><ERO:BTS=1,:;DX 200 XYBSC3 2006-01-13 15:50:38TRANSCEIVER DATAADM.STATE OP.STATE--------------------------------------BCF-001 UNLOCKED WOSEG-001 PQSHUANGJING1BTS-001 PQSHUANGJING1 UNLOCKED WOTRX-001 UNLOCKED WOBCSU-1TRA NORM HRS Y PREF NGTRX YFREQ 64 TSC 4 FRT 0 (REGULAR) LEV - 85 dBm BFREQ - BTSC - BFRT - BLEV -DAL N (NOT USED) LEVD - 80 dBm BDAL -SIGN 0D-CH TELECOM LINK SET 5 T0011RTSL PCM-TSL SUB_TSL TYPE I.LEV ADM.STATE OP.STATE CH.STATUS ------------------------------------------------------------------------------0 35 - MBCCH - UNLOCKED WO1 35 - SDCCH - UNLOCKED WO2 35- 1 2 TCHF 0 UNLOCKED WO FR3 35- 1 3 TCHF 0 UNLOCKED WO FR4 35- 2 0 TCHF 0 UNLOCKED WO FR5 35- 2 1 TCHF 0 UNLOCKED WO ID6 35- 2 2 TCHF 0 UNLOCKED WO GP7 35- 2 3 TCHF 0 UNLOCKED WO GPTRANSCEIVER HAS NO INTERFERING CELLSADM.STATE OP.STATE--------------------------------------BCF-001 UNLOCKED WOSEG-001 PQSHUANGJING1BTS-001 PQSHUANGJING1 UNLOCKED WOTRX-002 UNLOCKED WOBCSU-1TRA NORM HRS Y PREF NGTRX YFREQ 59 TSC 4 FRT 0 (REGULAR) LEV - 85 dBm BFREQ - BTSC - BFRT - BLEV -DAL N (NOT USED) LEVD - 80 dBm BDAL -SIGN 0D-CH TELECOM LINK SET 6 T0012RTSL PCM-TSL SUB_TSL TYPE I.LEV ADM.STATE OP.STATE CH.STATUS ------------------------------------------------------------------------------0 35 - SDCCH - UNLOCKED WO1 35- 3 1 TCHD 0 UNLOCKED WO FR2 35-3 2 TCHD 0 UNLOCKED WO FR3 35- 3 3 TCHD 0 UNLOCKED WO FR4 35- 4 0 TCHD 0 UNLOCKED WO ID ID5 35- 4 1 TCHD 0 UNLOCKED WO HR HR6 35- 4 2 TCHD 0 UNLOCKED WO FR7 35- 4 3 TCHD 0 UNLOCKED WO FRTRANSCEIVER HAS NO INTERFERING CELLSCOMMAND EXECUTEDTRANSCEIVER DATA HANDLING COMMAND <ER_><EUO:BTS=1:;DX 200 XYBSC3 2006-01-13 15:52:14POWER CONTROL PARAMETERS OFSEG-001 PQSHUANGJING1BTS-001 PQSHUANGJING1POWER CTRL ENABLED ......... Y POWER CONTROL INTERVAL ..... 01 sBS TX PWR MIN ....PEAK PWR - 30 dB BS TX PWR MAX ....PEAK PWR - 00 dB POWER INCR STEP SIZE ....... 4 dB POWER RED STEP SIZE ........ 2 dB POWER DECR LIMIT BAND 0 .... 10 dB POWER DECR LIMIT BAND 1 .... 8 dB POWER DECR LIMIT BAND 2 .... 2 dB POWER DECR QUAL FACTOR .. (1)ALA ENABLED ................ N MIN INT BETWEEN ALA ........ 10 s POWER LIMIT ALA ............ 6 dBPC AVERAGING LEV DL WINDOW SIZE ............ 04 WEIGHTING . (2)PC AVERAGING LEV UL WINDOW SIZE ............ 04 WEIGHTING . (2)PC AVERAGING QUAL DL WINDOW SIZE ............ 01 WEIGHTING . (2)PC AVERAGING QUAL UL WINDOW SIZE ............ 01 WEIGHTING . (2)PC UPPER THRESHOLDS QUAL DL RX QUAL .. 0.2% - 0.4% PX .. 01 NX .. 02 PC UPPER THRESHOLDS QUAL UL RX QUAL .. 0.2% - 0.4% PX .. 01 NX .. 02 PC LOWER THRESHOLDS QUAL DL RX QUAL .. 1.6% - 3.2% PX .. 01 NX .. 01 PC LOWER THRESHOLDS QUAL UL RX QUAL .. 1.6% - 3.2% PX .. 01 NX .. 01 PC LOWER THRESHOLDS QUAL144 RX QUAL .. 0.8% - 1.6% PX .. 03 NX .. 04PC UPPER THRESHOLDS LEV DL RX LEVEL .. - 77 dBm PX .. 02 NX .. 03 PC UPPER THRESHOLDS LEV UL RX LEVEL .. - 85 dBm PX .. 02 NX .. 03 PC LOWER THRESHOLDS LEV DL RX LEVEL .. - 92 dBm PX .. 01 NX .. 01 PC LOWER THRESHOLDS LEV UL RX LEVEL .. -100 dBm PX .. 01 NX .. 01IDLE MODE SIGNAL STRENGHT FILTER PERIOD (9)TRANSFER MODE SIGNAL STRENGHT FILTER PERIOD (13)BINARY REPRESENTATION ALPHA (7)BINARY REPRESENTATION TAU ....................... 34 dBmCOMMAND EXECUTEDPOWER CONTROL PARAMETER HANDLING COMMAND <EU_><还有EAO，邻区参数。

MML命令_华为TD-LTE后台常⽤MML命令操作MML命令2013年12⽉09⽇ from:https:///koudaidai/article/details/17219821设备类别操作详细 RNC⼩区状态、参数查询命令查询⼩区数据lst cell如查询⼩区名、扰码、最⼤发射功率、时隙配置、所属的NodeB名称、Lac等信息 查询⼩区频点Dsp carrier查询⼀个⼩区下的频点信息，主辅频可选，不选默认为所有频点查询⼩区状态DSP CELL通过该命令查询⼩区状态(5种) cell is setup and enable 正常 cell is setup and disable 异常 cell is not setup 异常 cell is not active 去激活 cell is being blocked RNC上闭塞 查询相应⼩区信息左边命令分别⽤来表⽰ lst ncell查询相邻⼩区 lst gsmncell查询异系统（GSM）相邻⼩区 lst wcdmancell查询异系统（WCDMA）相邻⼩区 ⼩区状态、参数修改命令⼩区状态修改命令左边命令分别⽤来表⽰ act/dea cell激活/去激活⼩区：激活⼩区数据，使⼩区数据可⽤激活⼩区后⽤DSP查看下⼀个⼩区状态，有时NodeB adminsitrativestate=blocked,需要先闭塞blk/ubl cell闭塞/解闭塞⼩区：已有的接⼊⽤户将被释放，新⽤户不能接⼊rmv cell删除⼩区增加各种相邻⼩区关系⼀般运⽤批处理命令⾃动执⾏可以⽤UltraEdit⼯具的列编辑功能进⾏编辑mod ncell修改特定相邻⼩区参数　add ncell增加邻⼩区　rmvneighborcell删除邻⼩区　lst ncell邻⼩区关系查询 修改导频PCCPCH功率 set pccpch修改PCCPCH功率范围 mod cell修改⼩区扰码、时隙配置、最⼤发射功率、⽆线链路失败定时器mod carrier修改频率、载波类型、载波最多⽀持的HS⽤户数等信息 修改和查询定时器参数 lst/setiutimerandnum查询/修改Iu接⼝⽤户⾯的定时器和计数器 lst/set statetime查询修改呼叫流程定时器 lst/setconnmodetimer查询/修改Ue在连接模式时，当UE接⼊⼀些业务时的连接和释放时的定时器/计数器建⽴修改HSDPA⼩区配置命令建⽴HSDPA mod carrier制定载波最⼤⽀持HS⽤户数为8，修改carrierType为HSDPA_Carrier add/modhspdsch增加/修改可以使⽤HS的时隙、可以使⽤的码道及其时隙的发射功率 add/modhscontrolchan增加/修改下⾏的HSSCCH码道配置及其最⼤功率、上⾏的HSSICH RNC的常⽤数据导出导出CFGMML脚本将BAM数据库中配置数据导出为MML脚本⽂件导出⽂件为《CFGMML.TXT》,位置为BAM的服务器的/RNCDataBack/CfMMLScript EXP CFGMML可以在SystemConfiguration将时间设置为1000S导出⽇志 export log⽂件存放在BAM主区⽬录下的FTP⽬录下，存储为⽂本⽂件，主区标志可以通过LST BAMAREA命令获取命令获取接⼝跟踪及性能监测（⽤于问题定位、⽹络优化）单⽤户标注信令接⼝追踪IMSI标准单⽤户信令追踪⽂件保存的默认位置为:LMT安装⽬录\Trace⽬录下单⽤户连接性能追踪常⽤追踪项⽬： UL Sir⽂件保存的默认位置为:LMT安装⽬录\Rth⽬录下⼩区性能追踪PCCPCH RSCP TX Carrier Power DCH User Num CCH User Num Cell Code Tree RTWP UL ISCP 。

LTE后台常⽤操作指导书（华为）LTE后台操作指导书⽬录⼀、常⽤指令： (1)⼆、提取CHR⽂档： (6)三、制作批处理脚本⽂档 (7)3.1加扰测试脚本： (7)3.2⽇常告警全⽹TDL&TDS基站状态&告警查询-XXXX脚本 (8)3.3基站⼩区去激活脚本 (8)3.4基站⼩区邻区数据修改脚本 (8)四、集中任务管理安全操作： (9)4.1⽇常告警全⽹TDL&TDS基站状态&告警查询 (9)4.2基站⼩区去激活 (12)4.3基站⼩区邻区数据修改 (12)五、LTE常⽤信令（问题）跟踪Check List V1.0 (12)5.1 端到端虚⽤户跟踪 (12)5.2 CELL DT (14)5.3 IFTS (15)5.4 ⼀键式⽇志（BRDLOG）采集⽅法 (19)5.5 接⼊类问题分析数据 (19)5.6 切换类问题分析数据 (19)5.7 业务性能问题分析数据 (20)5.8 ⼲扰问题分析数据 (20)六、经验总结 (20)6.1深圳LTE-FTP服务器操作指导书-朱占磊(hw) (20)6.2 LTE站点天线权值添加指引-张海春 (20)6.3 LTE站点在集中任务管理模块实现⼩区级批处理操作-林界滨 (20)6.4 LTE KPI指标监控⽇报撰写-李三明 (21)6.5 LTE虚⽤户跟踪流程及注意事项-马志磊 (21)6.6 LTE灌包操作及问题定位指导-余世坛 (21)⼀、常⽤指令：TDL站点状态查询指令：LST CELL:; 查询⼩区静态参数DSP CELL:; 查询⼩区动态参数LST ALMAF:; 查询当前告警LST BFANT:;查询天线配置信息（静态）DSP BFANT:;查询天线配置信息（动态）LST PDSCHCFG:;(参考信号功率)LST CELLPDCCHALGO:;（公共控制信令聚集级别）LST CELLDLPCPDSCHPA:;（pdsch功率控制PA调整开关）LST EUTRANINTRAFREQNCELL:; （查询EUTRAN同频邻区关系）LST EUTRANEXTERNALCELL:; （查询EUTRAN外部⼩区）LST GPS:; （查询⼩区的经纬度）LST ALMLOG:ALMTP=ALL;（查询历史告警）激活/解闭塞⼩区：ACT CELL:LOCALCELLID=1;ACT CELL:LOCALCELLID=2;ACT CELL:LOCALCELLID=3;UBL CELL:LOCALCELLID=1;UBL CELL:LOCALCELLID=2;UBL CELL:LOCALCELLID=3;去激活/闭塞⼩区：DEA CELL:LOCALCELLID=1;DEA CELL:LOCALCELLID=2;DEA CELL:LOCALCELLID=3;BLK CELL:LOCALCELLID=1,CELLADMINSTATE=CELL_HIGH_BLOCK; BLKCELL:LOCALCELLID=2,CELLADMINSTATE=CELL_HIGH_BLOCK; BLKCELL:LOCALCELLID=3,CELLADMINSTATE=CELL_HIGH_BLOCK;闭塞/解闭塞RRUBLK BRD:CN=0,SRN=200,SN=0,BLKTP=IMMEDIATE;UBL BRD:CN=0,SRN=202,SN=0;修改RRU通道：DSP TXBRANCH:;（发射通道硬件最⼤输出功率、驻波⽐等，或：DSP VSWR：查询驻波⽐）DSP RXBRANCH:;（接收通道状态）MOD TXBRANCH:CN=0,SRN=202,SN=0,TXNO=1,TXSW=OFF;(关)MOD TXBRANCH:CN=0,SRN=202,SN=0,TXNO=1,TXSW=ON; (开)MOD RXBRANCH:CN=0,SRN=202,SN=0,RXNO=1,RXSW=OFF; (关)MOD RXBRANCH:CN=0,SRN=202,SN=0,RXNO=1,RXSW=ON; (开)修改基站⼩区PCI：(注：同时要求修改邻区数据库相应的⼩区的PCI，不然影响切换) MODCELL:LOCALCELLID=3,PHYCELLID=131;MOD CELL:LOCALCELLID=2,PHYCELLID=132;MOD CELL:LOCALCELLID=1,PHYCELLID=133;MODEUTRANEXTERNALCELL:MCC="460",MNC="08",ENODEBID=10072,CELLI D=3,PHYCELLID=131; MODEUTRANEXTERNALCELL:MCC="460",MNC="08",ENODEBID=10072,CELLI D=2,PHYCELLID=132; MODEUTRANEXTERNALCELL:MCC="460",MNC="08",ENODEBID=10072,CELLI D=3,PHYCELLID=133;单验报告需要操作的内容：LST CELL:;LST PDSCHCFG:;LST CELLPDCCHALGO:;LST CELLDLPCPDSCHPA:;DSP CELL:;DSP LICENSE:;LST LICENSE:;LST CELLALGOSWITCH:;LST BFMIMOADAPTIVEPARACFG:;LST MIMOADAPTIVEPARACFG:;LTE加天线权值：LST BFANT:;DSP BFANT:;RMV BFANT: DEVICENO=0;RMV BFANT: DEVICENO=1;RMV BFANT: DEVICENO=2;DLDBFANTDB:IP="188.2.31.4",USR="ftpuser",PWD="Changeme_123",SRCF="O DS-090R15NT.xml";DLDBFANTDB:IP="10.201.127.83",USR="ftpuser",PWD="ftpuser",SRCF="ODS-090R15NT.xml";ACT BFANTDB:OPMODE=DLDFILE;ADDBFANT:DEVICENO=0,CONNSRN=60,MODELNO="ODS-09OR15NT",TILT=3 ,BEAMWIDTH=65,BAND=39; ADDBFANT:DEVICENO=1,CONNSRN=62,MODELNO="ODS-09OR15NT",TILT=3 ,BEAMWIDTH=65,BAND=39; ADDBFANT:DEVICENO=2,CONNSRN=82,MODELNO="ODS-09OR15NT",TILT=3,BEAMWIDTH=65,BAND=39;LST BFANT:;DSP BFANT:;查询BF开关：LST CELLALGOSWITCHTM2\3 BF:关TM2\3\7 BF:开修改BF算法开关：修改BF开关为开：MOD CELLALGOSWITCH:LOCALCELLID=1（⼩区号）,BFALGOSWITCH=BfSwitch-1;修改BF开关为关：MOD CELLALGOSWITCH:LOCALCELLID=1（⼩区号）,BFALGOSWITCH=BfSwitch-0;修改基站（业务信道）加扰（0~9）：(模已)ADD CELLSIMULOAD:LOCALCELLID=1,SIMLOADCFGINDEX=7（加扰为80%）; ADD CELLSIMULOAD:LOCALCELLID=2,SIMLOADCFGINDEX=7;ADD CELLSIMULOAD:LOCALCELLID=3,SIMLOADCFGINDEX=7;RMV CELLSIMULOAD:LOCALCELLID=1;（去加扰）RMV CELLSIMULOAD:LOCALCELLID=2;RMV CELLSIMULOAD:LOCALCELLID=3;相关脚本：（注意：百站⽹的本地⼩区ID是0、1、2）所以在百站⽹执⾏脚本需改⼀下以下的LOCALCELLID 加扰50%：ADD CELLSIMULOAD:LOCALCELLID=1; （SIMLOADCFGINDEX=4为默认值）ADD CELLSIMULOAD:LOCALCELLID=2;ADD CELLSIMULOAD:LOCALCELLID=3;去加扰：RMV CELLSIMULOAD:LOCALCELLID=1;RMV CELLSIMULOAD:LOCALCELLID=2;RMV CELLSIMULOAD:LOCALCELLID=3;加扰100%ADD CELLSIMULOAD，然后配置索引那⾥填9就可以了。

查询基站链路信息命令名称LST BTSLNK命令功能查询基站链路信息。

注意事项1、本命令可查询出指定基站下的所有类型的链路，包括操作维护链路、信令链路、业务链路的信息。

2、如果不填写所有的可选参数，则会查询出系统所有基站配置的所有链路信息。

3、查询的输出报告中:（1）如果链路的连接方式为IMA，则“逻辑链路号”的显示方式为：IMA组号(IMA链路号,...)，如逻辑链路号显示为：0(0,1,2)，则表示IMA 组号为0，此IMA组使用的IMA链路号为0，1，2。

注意：当为IMA链路时，链路号就是E1/T1号；当为FRACTIONAL IMA链路时，链路号不一定和E1/T1号相同。

（2）如果链路的连接方式为UNI，则“逻辑链路号”的显示方式为：E1/T1号，如逻辑链路号显示为：3，则表示此UNI链路使用的E1/T1序号为3。

（3）如果链路的连接方式为FRACTIONAL ATM方式，则“逻辑链路号”的显示方式为：FRACTIONAL ATM链路号(E1/T1号)，如逻辑链路号显示为：0(8)，则表示FRACTIONAL ATM链路号为0，此FRACTIONAL ATM链路使用的E1/T1序号为8。

（4）如果链路的连接方式为MLPPP，则“逻辑链路号”的显示方式为：MLPPP组号(E1/T1号,...)，如逻辑链路号显示为：0(0,1,2)，则表示MLPPP组号为0，此MLPPP组使用的E1/T1序号为0，1，2。

（5）如果链路的连接方式为PPP，则“逻辑链路号”的显示方式为：PPP链路号(E1/T1号)，如逻辑链路号显示为：0(0)，则表示PPP链路号为0，此PPP链路使用的E1/T1序号为0。

（6）如果链路的连接方式为以太网，则“逻辑链路号”的显示方式为：以太网端口号，如逻辑链路号显示为：0，则表示以太网端口号为0。

（7）如果链路的连接方式为以太网，“网关IP地址”就是在增加基站链路时的“以太网端口网关IP地址”。

LTE常用命令（华为）[复制链接]Male不在线catsong查看详细资料电梯直达跳转到指定楼层表1 网规网优机房常用eNodeB MML操作命令集设备类别操作详细eNodeB数据查询查询小区状态(DSP CELL)通过该命令查询指定或所有本地小区状态、本地小区标示和逻辑小区状态、建立时间、上次删除时间、健康状态、基带板槽位号、RRU0、1、2框号等查询小区静态参数(LST CELL)通过该命令查询指定或所有本地小区静态属性，本地小区标示、小区名称、扇区号、频带、下行频点、上下行带宽、PCI、双功模式、RSI、小区半径等。

查询、修改小区参考信号功率（LST PDSCHCFG）通过该命令查询小区参考信号功率查询告警信息（LST ALMAF）通过MML命令查询小区实时告警信息查询跟踪区域码（LST CNOPERATORTA）通过该命令查询跟踪区域标识、跟踪区域码等信息查询外部小区（LST EUTRANEXTERNALCELL）查询外部小区，包括其Mcc、Mnc、PCI、eNodeB ID、Cell ID、TAC等信息。

查询同频邻区(LST EUTRANINTRAFREQNCELL)查询同频邻区，包括小区标示，Mcc、Mnc、eNodeB ID、Cell ID、ANR添加标示等信息。

查询接入S1接口用户数（DSP S1INTERFACE）通过该命令对基站S1接口用户数进行实时查询数据修改激活/去激活小区(ACT/DEA Cell)激活去激活小区，有些参数的修改必须要求先去激活小区才能进行操作（具体哪些参数需要去激活小区？举例说明）。

修改小区属性（MOD CELL）通过该命令对小区标示、小区名称、扇区号、频带、下行频点、上下行带宽、PCI、双功模式、RSI、小区半径等进行修改修改小区参考信号功率（MOD PDSCHCFG）通过该命令修改小区参考信号功率修改eNodeB加密算法优先级配置（LST ENODEBCIPHERCAP）通过该命令修改最高优先级加密算法、第二优先级加密算法和第三优先级加密算法修改eNodeB完整性保护算法优先级（LST ENODEBINTEGRITYCAP）通过该命令修改最高优先级完整性保护算法、第二优先级完整性保护算法和第三优先级完整性保护算法增加/删除外部小区(ADD/RMV EUTRANEXTERNALCELL)如果该EUTRAN外部小区与本地小区存在邻区关系，要删除外部小区，必须先删除对应邻区；增加/删除同频邻区关系ADD/RMV EUTRANINTRAFREQNCELL)非同一ENODEB下的小区，要增加邻区，必须先增加外部小区；备份基站配置文件（BKP CFGFILE）该命令用于备份基站当前的配置数据其它操作上传eNodeB中的参数和日志文件（ULD CFGFILE）该命令用于把备份的配置数据文件上传到FTP服务器。

LTE后台参数解释HW后台参数解释1：修改特殊子帧配比ParameterID:SPECIALSUBFRAMEPATTERNS命令：LST CELL现网配置：D:SSP7/F:SSP6MODCELL:LOCALCELLID=1,FDDTDDIND=CELL_TDD,SUBFRAMEA SSIGNMENT=SA2,SPECIALSUBFRAMEPATTERNS=SSP6,EUCELLSTANDBYMODE=ACTIVE;2:BF算法开关ParameterID:BFALGOSWITCH命令：LST CELLALGOSWITCH现网配置：BfSwitch-1(室分不开）MODCELLALGOSWITCH:LOCALCELLID=1,BFALGOSWITCH=BfSwitch-1;3.UE最大允许发射功率配置指示ParameterID:UEPOWERMAXCFGIND 命令：LST CELL现网配置：配置-23MODCELL:LOCALCELLID=1,UEPOWERMAXCFGIND=CFG,UEPOW ERMAX=23;4.MIMO传输模式自适应开关ParameterID:MIMOADAPTIVESWITCH命令：LST MIMOADAPTIVEPARACFG现网配置：OL_ADAPTIVEMODMIMOADAPTIVEPARACFG:MIMOADAPTIVESWITCH=OL_ADAPTI VE;5.修改T302、UE不活动定时器、系统内切换T304定时器命令：LST RRCCONNSTATETIMERMODRRCCONNSTATETIMER:T302=2,T304FOREUTRAN=ms500,U EINACTIVETIM ER=10;6.修改T300/T301/T310/T311/N310/N311命令：MODUETIMERCONSTMODUETIMERCONST:LOCALCELLID=1,T300=MS1000_T300,T301 =MS600_T301 ,T310=MS1000_T310,T311=MS1000_T311,N311= n1,N310=n20;MODUETIMERCONST:LOCALCELLID=2,T300=MS1000_T300,T301 =MS600_T301 ,T310=MS1000_T310,T311=MS1000_T311,N311= n1,N310=n20;MODUETIMERCONST:LOCALCELLID=3,T300=MS1000_T300,T301 =MS600_T301 ,T310=MS1000_T310,T311=MS1000_T311,N311= n1,N310=n20;7.修改上行时间对齐定时器现网配置：SF10240命令：MOD TATIMERMODTATIMER:LOCALCELLID=1,TIMEALIGNMENTTIMER=SF10240;MODTATIMER:LOCALCELLID=2,TIMEALIGNMENTTIMER=SF10240; MODTATIMER:LOCALCELLID=3,TIMEALIGNMENTTIMER=SF10240;8.修改PUCCH算法参数（SRI轻负载门限）现网配置：0命令：MOD CELLPUCCHALGOMODCELLPUCCHALGO:LOCALCELLID=1,SRILOWLOADTHD=0;MODCELLPUCCHALGO:LOCALCELLID=2,SRILOWLOADTHD=0;MODCELLPUCCHALGO:LOCALCELLID=3,SRILOWLOADTHD=0;9.BfMIMO传输模式自适应开关现网配置：MIMO_BF_ADAPTIVE命令：MODBFMIMOADAPTIVEPARACFGMODBFMIMOADAPTIVEPARACFG:BFMIMOADAPTIVESWITCH=MI MO_BF_ADAPTIVE;10.修改TDD资源模式开关(无时钟小区激活开关)命令：MODTDDRESMODESW现网配置：OFFMOD TDDRESMODESW:CLKRESEXCLUDESWITCH=OFF;11.修改小区信道功率配置信息（物理广播信道功率/ 动态广播信道功率)命令：MODCELLCHPWRCFG现网配置：PAPB(-3/1)时-600MOD CELLCHPWRCFG:LOCALCELLID=1,PBCHPWR=-600,DBCHPWR=-600;12.BF最大复用层数（宏站和双通道室分）命令：MODCELLBF现网配置：宏站和双通道室分为双流，单通道室分为单流MOD CELLBF:LOCALCELLID=1,MAXBFRANKPARA=DUAL_LAYER_BF; MODCELLBF:LOCALCELLID=2,MAXBFRANKPARA=DUAL_LAYER_BF; MODCELLBF:LOCALCELLID=3,MAXBFRANKPARA=DUAL_LAYER_BF;13.PDCCH初始OFDM符号数命令：LST CELLPDCCHALGO现网配置：1MODCELLPDCCHALGO:LOCALCELLID=1,INITPDCCHSYMNUM=1, PDCCHSYMNU MSWITCH=ON;14.PDCCH占用OFDM符号数动态调整开关命令：MODCELLPDCCHALGO现网配置：开MODCELLPDCCHALGO:LOCALCELLID=1,INITPDCCHSYMNUM=1, PDCCHSYMNU MSWITCH=ON;15.上行峰值PUCCH资源开关命令：MODCELLALGOSWITCH现网配置：关MODCELLALGOSWITCH:LOCALCELLID=1,PUSCHMAXRBPUCCHA DJSWITCH=OFF16.服务频点低优先级重选门限命令：MOD CELLRESEL现网配置：宏站5室分7MODCELLRESEL:LOCALCELLID=1,SNONINTRASEARCHCFGIND=C FG,SNONINTRASEARCH=21,THRSHSERVLOW=5,CELLRESELPRIORITY=7,QRXLE VMIN=-62,PMAXCFGIND=CFG,PMAX=23,SINTRASEARCHCFGIND=CFG,SINT RASEARCH =21;17.同频测量启动门限现网配置：设置21即同频测量启动门限为-82MODCELLRESEL:LOCALCELLID=2,SNONINTRASEARCHCFGIND=C FG,SNONINTRASEARCH=21,THRSHSERVLOW=5,CELLRESELPRIORITY=7,QR XLEVMIN=-62,PMAXCFGIND=CFG,PMAX=23,SINTRASEARCHCFGIND=CFG,SINT RASEARCH =21;18.小区重选优先级现网配置：7MODCELLRESEL:LOCALCELLID=2,SNONINTRASEARCHCFGIND=C FG,SNONINTRASEARCH=21,THRSHSERVLOW=5,CELLRESELPRIORITY=7,QRXLE VMIN=-62,PMAXCFGIND=CFG,PMAX=23,SINTRASEARCHCFGIND=CFG,SINT RASEARCH =21;19.重选UE最大允许发射功率配置指示现网配置：配置-23CELLRESEL:LOCALCELLID=3,SNONINTRASEARCHCFGIND=C FG,SNONINTRASEARCH=21,THRSHSERVLOW=5,CELLRESELPRIORITY=7,QRXLE VMIN=-62,PMAXCFGIND=CFG,PMAX=23,SINTRASEARCHCFGIND=CFG,SINT RASEARCH =21;20.异频/异系统测量启动门限配置指示现网配置：配置MODCELLRESEL:LOCALCELLID=3,SNONINTRASEARCHCFGIND=C FG,SNONINTRASEARCH=21,THRSHSERVLOW=5,CELLRESELPRIORITY=7,QRXLE VMIN=-62,PMAXCFGIND=CFG,PMAX=23,SINTRASEARCHCFGIND=CFG,SINT RASEARCH =21;21.异频/异系统测量启动门限现网配置：配置-21CELLRESEL:LOCALCELLID=3,SNONINTRASEARCHCFGIND=C FG,SNONINTRASEARCH=21,THRSHSERVLOW=5,CELLRESELPRIORITY=7,QRXLE VMIN=-62,PMAXCFGIND=CFG,PMAX=23,SINTRASEARCHCFGIND=CFG,SINTRASEARCH =21;22．最低接收电平现网配置：-62MODCELLRESEL:LOCALCELLID=3,SNONINTRASEARCHCFGIND=C FG,SNONINTRASEARCH=21,THRSHSERVLOW=5,CELLRESELPRIORITY=7,QRXLE VMIN=-62,PMAXCFGIND=CFG,PMAX=23,SINTRASEARCHCFGIND=CFG,SINT RASEARCH =21;23.PUSCH标称P0值现网配置：-87MODCELLULPCCOMM:LOCALCELLID=1,PASSLOSSCOEFF=AL08,P 0NOMINALPUS CH=-87;24．路径损耗因子现网配置：0.8MODCELLULPCCOMM:LOCALCELLID=1,PASSLOSSCOEFF=AL08,P 0NOMINALPUS CH=-87;25.GERAN A2 RSRP门限偏置现网配置：-100MODCNOPERATORHOCFG:CNOPERATORID=0,FIRSTRATPRI=EUT RAN,GERANA2 THDRSRPOFFSET=-100;26.CSFB IDLE态第一优先级目标RAT现网配置：GERANMODCSFALLBACKBLINDHOCFG:CNOPERATORID=0,INTERRATHIG HESTPRI=GERAN,INTERRATSECONDPRI=UTRAN,IDLECSFBHIGHESTPRI=GERA N,IDLECSF BSECONDPRI=UTRAN;27.CSFB IDLE态第二优先级目标RAT现网配置：UTRANMODCSFALLBACKBLINDHOCFG:CNOPERATORID=0,INTERRATHIG HESTPRI=GERAN,INTERRATSECONDPRI=UTRAN,IDLECSFBHIGHESTPRI=GERA N,IDLECSF BSECONDPRI=UTRAN;28.最高优先级异系统现网配置：GERANMODCSFALLBACKBLINDHOCFG:CNOPERATORID=0,INTERRATHIG HESTPRI=GERAN,INTERRATSECONDPRI=UTRAN,IDLECSFBHIGHESTPRI=GERA N,IDLECSF BSECONDPRI=UTRAN;29.次高优先级异系统现网配置：UTRANMODCSFALLBACKBLINDHOCFG:CNOPERATORID=0,INTERRATHIG HESTPRI=GERAN,INTERRATSECONDPRI=UTRAN,IDLECSFBHIGHESTPRI=GERA N,IDLECSF BSECONDPRI=UTRAN;30.盲切换开关现网配置：开MODENODEBALGOSWITCH:HOALGOSWITCH=GeranCsfbSwitch-1,HOMODESW ITCH=UtranRedirectSwitch-1&GeranRedirectSwitch-1&BlindHoSwitch-131.GERAN CSFB开关现网配置：开MODENODEBALGOSWITCH:HOALGOSWITCH=GeranCsfbSwitch-1,HOMODESW ITCH=UtranRedirectSwitch-1&GeranRedirectSwitch-1&BlindHoSwitch-132.GERAN重定向现网配置：开MODENODEBALGOSWITCH:HOALGOSWITCH=GeranCsfbSwitch-1,HOMODESW ITCH=UtranRedirectSwitch-1&GeranRedirectSwitch-1&BlindHoSwitch-133.UTRAN重定向开关现网配置：开MODENODEBALGOSWITCH:HOALGOSWITCH=GeranCsfbSwitch-1,HOMODESW ITCH=UtranRedirectSwitch-1&GeranRedirectSwitch-1&BlindHoSwitch-134.低优先级重选门限值现网配置：10MODGERANNFREQGROUP:LOCALCELLID=1,BCCHGROUPID=0,T HRESHXLOW=1 0;35.GAP测量模式现网配置：GAP模式2MODHOMEASCOMM:GAPPATTERNTYPE=GAP_PATTERN_TYPE_2;36.异频A3偏置现网配置：4MODINTERFREQHOGROUP:LOCALCELLID=1,INTERFREQHOGRO UPID=0,INTERF REQHOA3OFFSET=4;37．异系统A2 RSRP触发门限现网配置：-117MODINTERRATHOCOMMGROUP:LOCALCELLID=1,INTERRATHOC OMMGROUPI D=0,INTERRATHOA1THDRSRP=-115,INTERRATHOA2THDRSRP=-117;38.异系统A1 RSRP触发门限现网配置：-115MODINTERRATHOCOMMGROUP:LOCALCELLID=1,INTERRATHOC OMMGROUPI D=0,INTERRATHOA1THDRSRP=-115,INTERRATHOA2THDRSRP=-117;。

MML命令总结快捷键：F9—执行F7---上一条历史命令MML脚本示例：RRU3161fae，单膜E频段双拼新建注意之后的LTE传输配置要在ENDPOINT模式下配置Endpoint配置模式下MML命一些常用的命令示例：1 修改RRU编号；1)查询现网中已配置的RRU编号： LST RRU；2)与RRU编号进行比对，若不一致，修改RRU编号；3)MOD RRU：2 修改RRU类型；参数规划要求：统一配置为MRRU；操作步骤：LST RRU，核查RRU的类型；RMV RRU，ADD RRU，配置RRU的类型为MRRU：3 修改BRD槽位1)查询现网中LBBP单板所在槽位：DSP BRD2)与场景匹配站点解决方案中规划进行比对，若不一致，修改LBBP单板的槽位号3)删除LBBP单板原本配置：RMV BRD4)添加LBBP单板：ADD BRD4 修改TAC跟踪区码；I、参数规划要求：目前TAC跟踪区参数规划为1II、操作步骤：1)查询现网中TAC跟踪区码值: LST CNOPERATORTA2)查看跟踪区域码是否为1，不为1，则进行以下修改；3)修改跟踪区域码：MOD CNOPERATORTA:5 修改时钟；I、参数规划要求：站点为双模站点时，新增LTE制式的时钟同步方式借用现有TDS 的时钟同步系统， TDS-TDL双模共用时钟源，无需新增GPS或功分器。

站点为单模新建站点，使用GPS时钟。

II、操作步骤：双模站点1)DSP GPS,查看是否有GPS2)设置时钟同步SET CLKSYNCMODE: CLKSYNCMODE=TIME;3)有的话ADD PEERCLK, 配置对端时钟4)SET CLKMODE，设置时钟模式，时钟工作模式为手动，指定参考时钟源为对端时单模站点1)设置时钟同步SET CLKSYNCMODE: CLKSYNCMODE=TIME;2)增加时钟源ADD GPS3)设置时钟模式SET CLKMODE: MODE=MANUAL, CLKSRC=GPS, SRCNO=0;4)DSP CLKSTAT用于查询系统时钟状态（时钟出现问题的时候记得使用这条命令）6 修改小区的相应参数时1)LST CELL检查小区相应参数2)DEA CELL去激活小区3)MOD CELL修改小区相应参数4)ACT CELL激活小区7 修改设备IP、路由IP、及IPPATH、：1)LST DEVIP，核查已配置的设备IP；2)LST IPRT，核查已配置的路由IP；3)LST IPPATH，核查已配置的IPPATH；4)对比传输调单参数规划要求，不一致则进行以下修改：5)RMV DEVIP，删除设备IP；6)ADD DEVIP，添加设备IP：7)MOD IPRT8)MOD IPPATH8 增加基带资源如2号槽处理0号小区，0号槽处理1号小区；ADD BASEBANDEQM: BASEBANDEQMID=0, BASEBANDEQMTYPE=ULDL, UMTSDEMMODE=NULL, SN1=2; //增加0号基带设备处理2号槽ADD BASEBANDEQM: BASEBANDEQMID=1, BASEBANDEQMTYPE=ULDL, UMTSDEMMODE=NULL, SN1=0; //增加1号基带设备处理0号槽ADD EUCELLSECTOREQM: LocalCellId=0, SectorEqmId=0, BaseBandEqmId=0; ADD EUCELLSECTOREQM: LocalCellId=0, SectorEqmId=1, BaseBandEqmId=0; ADD EUCELLSECTOREQM: LocalCellId=0, SectorEqmId=2, BaseBandEqmId=0;ADD EUCELLSECTOREQM: LocalCellId=0, SectorEqmId=3, BaseBandEqmId=0; ADD EUCELLSECTOREQM: LocalCellId=0, SectorEqmId=4, BaseBandEqmId=0; ADD EUCELLSECTOREQM: LocalCellId=0, SectorEqmId=5, BaseBandEqmId=0; /////将小区与扇区关联，小区和基带设备相关联ADD EUCELLSECTOREQM: LocalCellId=1, SectorEqmId=6, BaseBandEqmId=1; ADD EUCELLSECTOREQM: LocalCellId=1, SectorEqmId=7, BaseBandEqmId=1; ADD EUCELLSECTOREQM: LocalCellId=1, SectorEqmId=8, BaseBandEqmId=1; ADD EUCELLSECTOREQM: LocalCellId=1, SectorEqmId=9, BaseBandEqmId=1; ADD EUCELLSECTOREQM: LocalCellId=1, SectorEqmId=10, BaseBandEqmId=1; ADD EUCELLSECTOREQM: LocalCellId=1, SectorEqmId=11, BaseBandEqmId=1;9 修改小区功率LST PDSCHCFG: LocalCellId=0;先列出小区功率MOD PDSCHCFG: LocalCellId=0; 再修改小区功率10 附录：。

LTE智能天线权值配置MML说明1、天线权值MML查询命令及权值配置命令说明：1.1查询BFANT静态信息：LST BFANT:;1.2查询BFANT动态信息（使用此命令查询有结果，说明该站已加载天线权值）：DSP BFANT:;1.3如果天线权值已存在，但需按要求重新加载，请先删除已配置的天线权值数据：RMV BFANT:;RMV BFANT: DEVICENO=0;RMV BFANT: DEVICENO=1;RMV BFANT: DEVICENO=2;DEVICENO参数的赋值与天线设备编号对应。

1.4以上工作完成后开始按要求加载新的天线权值数据2、上传天线XML配置脚本、激活、加载天线权值2.1打开FTP软件，上传天线权值文件到服务器：2.1.2用户名：ftpuser2.1.3密码：Changeme_1232.1.4天线权值XML配置脚本上载到FTP服务器，具体路径/export/home/sysm/下：2.2从服务器上下载波束赋形天线权值库：DLD BFANTDB：；注：SRCF填写时需要与FTP服务器上文件合命名保持一致！2.3激活波束赋形天线权值库：ACT BFANTDB：；注：需要确认后续报文栏中的进度是否百分百成功！2.4增加波束赋形天线：ADD BFANT：；天线设备编号、连接RRU框号、天线型号、倾角、广播波束宽度、频段参数都需要正确填写。

3、查验（修改配置天线权值后需要进一核查数据配置是否准确无误）3.1查询BFANT静态信息：LST BFANT:;3.2查询BFANT动态信息：DSP BFANT:;查看已配置的天线权值数据是否正确。

4、回退，删除波束赋形天线：RMV BFANT：；RMV BFANT: DEVICENO=0;RMV BFANT: DEVICENO=1;RMV BFANT: DEVICENO=2;删除成功后，再次LST BFANT，确认已全部天线权值配置数据已删除。

1. 根据协议对LTE系统需求支持的定义，从主流状态到激活状态的时延和零负载（单用户、单数据流）、小IP分组条件下单向时延分别小于多少：A.200ms和5msB.50ms和10msC.100ms和50msD.100ms和5ms答案：D2. 当UE发起异频切换时，测量GAP有两种模式，模式1Tgap为6ms，周期为40ms，模式2Tgap为6ms，周期为（）A.60msB.80msC.20msD.10ms答案：B3. 下列无线参数中，一般与无线掉线率指标优化无关的是（）A.inactivityTimerB.timeAlignmentTimerC.nSrsDtxD.efPagCyc答案：D4. LTE协议对单项用户面时延的要求是小于多少msA.1msB.20msC.5msD.10ms答案：C5. 根据同频切换的原则，调整本小区的（）参数可以达到优化调整切换快慢的效果A.频率偏置B.OcnC.CIOD.Hysteresis答案：A6. LTE中，寻呼区域采用（）。

A.RACB.TA listCD.TA答案：B7. 对LTE链路预算中的解调门限，描述不正确的是（）A.解调门限与邻区干扰无关B.解调门限与MCS等级有关C.解调门限与系统负荷有关D.解调门限指的是SNIR答案：A8. TD-LTE的E频段范围是（）A.2300-2400MHzB.2570-2620MHzC.2010-2025MHzD.1880-1920MHz答案：A9. UE在进行被叫CSFB回落时，如果同时发生2G侧位置更新，则通过（）响应寻呼。

A.Authentication ResponseB.Location updating acceptC.SetupD.paging response答案：B10. 哪些不是LTE核心网EPC组成？A.P-GWB.MMEC.S-GWD.T-GW答案：D11. TM7的典型应用场景是（）A.适合于小区边缘信道情况比较复杂，干扰较大的情况，有时候也用于高速的情况。

开始导入MML脚本,请耐心等待... > SET SYS;EXP CFGMMLADD TRNCBASIC; ADD OPC;ADD N7DPC;SET SCTPSRVPORT; SET SUBNET;SET LICALMTHD; SET ALMBLKPARA; SET ALMBLKSW;SET GLOBALROUTESW; ADD EMSIP;ADD SUBRACK;ADD BRD;ADD ATMTRF;SET PHBMAP;SET QUEUEMAP;SET CLKTYPE;SET PWRALMSW;SET SCUPORT;SET PWRPARA;SET FANSPEED;SET FCSW;SET SHARETHD;SET FCCPUTHD;SET FCMSGQTHD; SET E1T1;SET OPT;SET COPTLNK;ADD DEVIP;SET CPUTHD;SET ETHPORT;ADD ETHIP;ADD ETHTRK;ADD ETHTRKLNK; ADD ETHTRKIP;SET CTRLFACTOR; ADD SAALLNK;SET CLK;SET SCCPTMR;SET BFDPROTOSW; SET MTP3TMR;SET AAL2TMR;ADD TRMMAP;ADD TRMFACTOR; ADD OMUIPRT;ADD CLKSRC;SET CLKMODE;SET ALMML;SET MSP;SET TZ;SET LODCTRL;ADD IPRT;ADD SCTPLNK;ADD TNODEB;ADD TNODEBLDR;ADD TNODEBALGOPARA;ADD M3LE;ADD M3DE;ADD M3LKS;ADD M3LNK;ADD M3RT;ADD ADJNODE;ADD IPPATH;ADD TNCP;ADD TCCP;ADD ADJMAP;ADD TNODEBIP;ADD TNODEBESN;SET DSCPMAP;ADD VLANID;SET TRANSPATCHPARA;SET SS7PATCHSWITCH;ADD SNTPSRVINFO;SET SNTPCLTPARA;SET OPSW;SET OPLOCK;SET PWDPOLICY;SET CCGN;SET LOGLIMIT;SET ASWPARA;SET SLFSLVSW;SET FTPSCLT;SET ALMCAPACITY;SET ALMSHLD;SET ALMSCRN;SET FTPSSRV;SET FTPSRVPORT;SET FTPCLTPORT;SET MEASRSTLIMIT;SET TDELAYUPDATE;SET TDPUCFGDATA;SET TIUFLEX;ADD TCNDOMAIN;ADD TCNNODE;ADD TCTRCHDYNAMICTF;ADD TCTRCHSEMISTATICTF; ADD TCTRCHTFS;ADD TLA;ADD TRA;ADD TSA;ADD TNRNC;ADD TNBSC;SET TRNCIURGMEASCTRL; SET TPCHRRNCCTRL;SET TPCHRUSERFLOWRNCCTRL; SET TUESTATETRANS;SET TADMCTRL;SET TQOSACT;SET TAMRC;SET TAMRCWB;SET TCNTCHK;SET TCOIFTIMER;SET TCONNMODETIMER;SET TCORRMALGOSWITCH; ADD TINTERRATHOBASEDIMEI; ADD TAUESTRAPARA;ADD TAUESCENE;SET TDCCC;SET TDCHTHDRATERATIO; SET TDRD;SET TEDCHRATEADJUSTSET; SET TEDCHTHDRATERATIO; SET TFRC;SET TFRCCHLTYPEPARA;SET TFRMHANDPRIO;SET THOCOMM;SET THONCOVALGPRIO;SET TRNCHSDPAPARA;SET TLOCHPRIO;SET TIDLEMODETIMER;SET TINTERFREQHOCOV;SET TINTERFREQHONCOV; SET TINTERRATHOCOV;SET TINTERRATHONCOV;SET TINTRAFREQHO;SET TIUTIMERANDNUM;SET TMBMSALARMPARA;SET TMGWTST;SET TNODESYNCMONTHD;SET TOLPC;SET TPDCPHEADCOMP;SET TPSINACTTIMER;SET TUIA;SET TUEA;SET TQUALITYMEAS;SET TRNCCORRMSOFTPARAS; SET TRNCRRSOFTPARAS;SET TRNCCTRLSHAREPARA; SET TRNCDEFUECAP;SET TRNCLDC;SET TRNCMCCHRLCPARA;SET TRNCNBMSOFTPARAS; SET TRNCNBMTIMER;SET TRNCNBMINNERSWITCH; SET TRNCTRAFFICEBI0;SET TRRCTRLSWITCH;SET TRNCQUERYIMEI;SET TRRINNERTIMER;SET TKPIALMTHD;SET TSCHEDULEPRIOMAP;SET TSMLC;SET TSPIFACTOR;SET TSPUSHARETHD;SET TPSIUBMBRADJFACTOR;SET TVQICOUNT;SET TSRNSR;SET TSTATETIMER;SET TUSERGBR;SET TUSERPLANSHAREPARA;SET TUSERPRIORITY;SET TRRMCDLCFG;SET TRRCESTCAUSE;SET TRNCSATLDM;SET TACALGO;SET THCSHO;SET TQOSHO;SET TRRMBMSSWITCH;SET TFACHSCHEPRIO;SET TUSERDCHMBR;ADD TVIP;ADD TMBMSTYPRAB;ADD TSPG;ADD TDPG;SET TSELFCUREPARA;ADD TDPGGROUP;ADD TURA;ADD TNRNCCELL;ADD TLOCALCELL;ADD TCELL;ADD TCARRIER;ADD TCELLENVALGO;ADD TCELLDPCHMULTPARA;ADD TPCCPCH;ADD TCCTRCHTFCS;ADD TCCHCCTRCHCTFC;ADD TCCHCCTRCH;ADD TCELLFDCA;ADD TSCCPCH;ADD TDWPCH;ADD TUPPCH;ADD TFPACH;ADD TPRACH;ADD TPRACHASC;ADD TPRACHACTOASCMAP;ADD TPRACHPERSISTSCALINGFACTOR; ADD TPCH;ADD TFACH;ADD TRACH;ADD TPICH;ADD THSCONTROLCHAN;ADD THSPDSCH;ADD TCELLEAGCH;ADD TCELLEHICH;ADD TCELLEPUCH;ADD TCELLERUCCH;ADD TCELLSIBSWITCH;ADD TCELLCAC;ADD TCELLDCCC;ADD TCELLFRC;ADD TCELLINTERFREQHOCOV;ADD TCELLINTERFREQHONCOV;ADD TCELLINTERFREQHOTA;ADD TCELLINTERRATHOCOV;ADD TCELLINTERRATHONCOV;ADD TCELLINTRAFREQHO;ADD TCELLLDR;ADD TCELLMBMSPARA;ADD TCELLNSEPUCHCODEPARA;ADD TCELLNSEPUCHMULTPARA;ADD TCELLOLC;ADD TCELLOLPC;ADD TCELLPUC;ADD TCELLQUALITYMEAS;ADD TCELLRLACTTIME;ADD TCELLRLPWR;ADD TCELLURA;ADD TCELLACCESSSTRICT;ADD TCELLBLERHOHYS;ADD TCELLCORRMLDC;ADD TCELLCORRMSOFTPARAS;ADD TCELLDCHCAC;ADD TCELLEXPIRATIONTIMEFACTOR; ADD TCELLHSCAC;ADD TCELLLDM;ADD TCELLMEAS;ADD TCELLNBMALGOSWITCH;ADD TCELLNBMLDC;ADD TCELLNBMOLPC;ADD TCELLNBMSOFTPARAS;ADD TCELLHOCOMM;ADD TCELLSDCA;ADD TCELLSELRESEL;ADD TCELLSIBSCHEDULINGPARAS; ADD TCELLQOSHO;ADD TCELLPCGAPPARA;ADD TCELLIUBRATECTRL;ADD TCELLCDCA;ADD TCELLHSPARA;ADD TCELLUPSHIFTALGO;ADD TCELLQPMPARA;SET TPCHRSCOPECTRL;SET TPCHRUSERFLOWSCOPECTRL; ADD TDPITRAFFICTYPETC;ADD TTPISCHEDULEPRIOMAP;ADD TTPISCHEDULEPARA;ADD TTPIDCCCALGOPARA;ADD TTPIDCCCRATEADJPARA;ADD TNBSCIURGMEASCTRL;ADD TGSMCELL;ADD TGSMNCELL;ADD TNCELL;ADD TDELAYCLASS;ADD TTYPRABBASIC;ADD TTYPRABSUBFLOW;ADD TTYPRABRLC;ADD TTYPRABBLER;ADD TTYPRABTOAW;ADD TTYPRABSEMISTATICTF; ADD TTYPRABDYNTF;ADD TTYPRABHSPA;ADD TTYPRABDCCCMC;ADD TTYPRABOLPC;ADD TTYPRABQUALITYMEAS; ADD TTYPSRBBASIC;ADD TTYPSRBRLC;ADD TTYPSRBTOAW;ADD TTYPSRBDYNTF;ADD TTYPSRBHSPA;ADD TTYPSRBSEMISTATICTF; ADD TTYPSRBOLPC;ADD TTYPSRBBLER;。