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LST UINTERFREQNCELL- vizinhas f1 f2

LST G2GNCELL- vizinhas 2g 2g

LST GCELLHOBASIC to query the setting of Current HO Control Algorithm

LST GCELLCHMGAD

LST GCELLHOAD - "Inter-Layer HO Load Threshold" , ETC

LST UCELLCAC - NUMERO MAX DE HSUPA; "Maximum HSDPA user number"

LST GCELLGPRS

LST GCELLCHMGAD- para ver o half rate (balanceamento de trafego)

LST GCELLIDELEAD- para ver o penalty time

LST GCELLIDELEBASIC- para ver os parmetros do CBQ & CBA

LST GCELLPSCHM- para ver o maximo rate threshold of PDCH

LST unodeb- para ver o numero de E1sDSP IMAGRP - para ver se os E1s estao activos ou n

LST E1T1- para ver a SubRack/Slot/Porto

LST IPRT - VER SubRack/Slot/Porto

LST ADJNODE-para ver o TRM load threshold index

LST GTRXCHAN- Para ver o numero de SDCcHLST GCELLOTHEXT = TA threshold of the serving cell, the number of call drops onSDCCH

LST UCELLHSUPA- PARA VER O POWER Code Number for E-AGCH, E VER SE O hsupa stateESTA ACTIVO

LST GCELLCCCH-PARA VER SE O HALF RATE ESTA ACTIVO

LST GTRXDEV- PARA VER O TCH Rate Adjust Allow. TEM Q ESTAR = A YES ISSO PRA O OHALF HATE

LST UCORRMALGOSWITCH : Direct Retry Switch = DR_RRC_DRD_SWITCH::OFF= DR_RAB_SING_DRD_SWITCH::OFF- par

amentro qndo a F1 estiver com mais trafego de ps e cs e teremos que passar o tra

fego para a F2, entao colocaremos estes dois parametros como ON.LST UCELLDRD- para ver se o Retry Service Steering DRD Switch esta ON. para queo trafego passa da F1 para F2, necessario que este paramentro esteje como ONLST UDRD- para ver o parametro Retry Service Steering DRD Switch na RNC.LST ATMTRFLST ADJNODELST SAALLNK

LST ALMLOG -> Location info

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L9525 Total Bytes of Downlink GPRS Users LLC PDUl9527

L9422L9424

DSP RETSUBUNIT = ver tilt dbs3900 wcdma

RRC is signalling part and RAB is Data part.

RRC is in layer3 and RAB is in between UE and CN.

RRC is part of control plane and RAB of user Plane.

RRC is the Radio Resource Control which works as the Control Plane in the Layer3 .It is basically used for signalling in UMTS.

It can be compared with GSM signalling part such as Immediate Assignment Processfor Allocating SDCCH Resource.

UMTS:- RRC Connection Success RateGSM:-Immediate Assignment Success Rate.

RAB:- Radio Access Bearer which works as the User plane for provide Data for User Request Service.for Each service which was requested by User there is only 1 RAB.

e.g. if user requested CS-AMR Call then 1 CS RAB will be generated and providedto user.

similarly for PS Call.

UMTS:-RAB Assignment Success Rate(RNC-CN)

GSM:-Assignment Success Rate(BSC-MSC)

KPI AffectedCS Accessibility %PS Accessibility%HSDPA Accessibility %CS Drop %PS Drop %HSDPA Drop %Active Set Update %CS Outgoing iRAT %Traffic (equiv. erl.)

Counters AffectedVS.RAB.Loss.CS.RF.RLCRstVS.RAB.Loss.PS.AbnormVS.HSDPA.RAB.Loss.Abnorm.NonRFVS.RRC.FailConnEstab.CellCause Analysis

NodeB VSWR on the M2000Procedure

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Choose Maintenance > Standing Wave Ratio Test > Standing Wave Ratio Test. The Standing Wave Ratio Test tab page is displayed.

NOTE:For the components of the Standing Wave Ratio Test tab page, see NodeB StandingWave Ratio Test Tab Page.The VSWR threshold of the NodeB and the displayed color can be set. For detailedoperations, see the M2000 Operator Guide.

In the navigation tree on the left pane of the Standing Wave Ratio Test tab page, choose one or multiple NodeBs to be tested.

CAUTION:The navigation tree in the left pane of the Standing Wave Ratio Test tab page cannot refresh the NE information automatically. Therefore, you need to click Refresh to manually refresh the NE information.

Click Query. Then in the displayed dialog box, click Yes.The system prompts: VSWR query will impact the system service greatly! Please confirm to continue or not.

View the check results.During the check, the system displays the check progress in the VSWR Query dialog box. Click Detail to see the detailed information about the check progress.

When the progress reaches 100%, click close to close the VSWR Query dialog box.Then, the check results are displayed on the Query Result tab page.

NOTE:You can print out the test result or save it in the local computer. For detailedoperations, see the M2000 Operator Guide.

PostrequisitesCheck that the antenna system is correctly installed based on the measured VSWR.Ensure the NodeB services are resumed.

Example:

//Activating HUAWEI II handover algorithmSET GCELLHOBASIC: IDTYPE=BYID, CELLID=0, HOCTRLSWITCH=HOALGORITHM2;SET GCELLHOEMG: IDTYPE=BYID, CELLID=0, HOCTRLSWITCH=HOALGORITHM2;SET GCELLHOFITPEN: IDTYPE=BYID, CELLID=0, HOCTRLSWITCH=HOALGORITHM2;SET GCELLHOIUO: IDTYPE=BYID, CELLID=0, HOCTRLSWITCH=HOALGORITHM2;SET GCELLHOAD: IDTYPE=BYID, CELLID=0, HOTRYCNT=3;

//Activating the quick handover algorithmMOD G2GNCELL: IDTYPE=BYID, SRC2GNCELLID=0, NBR2GNCELLID=1, NCELLTYPE=HANDOVERNCELL, ISCHAINNCELL=YES, CHAINNCELLTYPE=QUICK_HO_NCELL_TYPE_A;

SET GCELLHOBASIC: IDTYPE=BYID, CELLID=0, HOCTRLSWITCH=HOALGORITHM2, QUICKHOEN=YES;SET GCELLHOFAST: IDTYPE=BYID, CELLID=0, HOUPTRIGE=50, HODOWNTRIGE=50, MOVESPEEDTHRES=35, SCELLFILTER=4, NCELLFILTER=4, IGNOREMRNUM=1, TIMEPUNISH=10, HOPUNISHVALUE=63, HOOFFSET=68, MSLEVSTRQPBGT=NO, HODIRFORECASTEN=YES, HODIRSTATIME=3, HODIRLASTTIME=2, AFCHOSTATTIME=4, AFCHOLASTTIME=3;SET GCELLOTHEXT: IDTYPE=BYID, CELLID=0, FREQADJ=YES, DLFREQADJ=YES, FREQADJVALUE=36671;

//Activating the TA handover algorithm

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SET GCELLHOBASIC: IDTYPE=BYID, CELLID=0, HOCTRLSWITCH=HOALGORITHM2, TAHOEN=YES;SET GCELLHOEMG: IDTYPE=BYID, CELLID=0, HOCTRLSWITCH=HOALGORITHM2, TALIMIT=125;SET GCELLHOFITPEN: IDTYPE=BYID, CELLID=0, HOCTRLSWITCH=HOALGORITHM2, SSTAPUNISH=40, TIMETAPUNISH=10;MOD G2GNCELL: IDTYPE=BYID, SRC2GNCELLID=0, NBR2GNCELLID=1, NCELLTYPE=HANDOVERNCELL, TASTATTIME=1, TALASTTIME=1;

//Activating the bad quality handover algorithmSET GCELLHOBASIC: IDTYPE=BYID, CELLID=0, HOCTRLSWITCH=HOALGORITHM2, BQHOEN=YES;SET GCELLHOEMG: IDTYPE=BYID, CELLID=0, HOCTRLSWITCH=HOALGORITHM2, DLQUALIMIT=55,ULQUALIMIT=60;SET GCELLHOFITPEN: IDTYPE=BYID, CELLID=0, HOCTRLSWITCH=HOALGORITHM2, SSBQPUNISH=63, TIMEBQPUNISH=10;MOD G2GNCELL: IDTYPE=BYID, SRC2GNCELLID=0, NBR2GNCELLID=1, NCELLTYPE=HANDOVERNCELL, BQSTATTIME=1, BQLASTTIME=1;

//Activating the interference handover algorithmSET GCELLHOBASIC: IDTYPE=BYID, CELLID=0, HOCTRLSWITCH=HOALGORITHM2, INTRACELLHOEN=YES, INTERFHOEN=YES, HOTHRES=25, INTERFERESTATTIME=3, INTERFERELASTTIME=2;SET GCELLHOAD: IDTYPE=BYID, CELLID=0, BANTIME=20;MOD G2GNCELL: IDTYPE=BYID, SRC2GNCELLID=0, NBR2GNCELLID=1, NCELLTYPE=HANDOVERNCELL, INTELEVHOHYST=67;SET GCELLAMRQUL: IDTYPE=BYID, CELLID=0 ,RXQUAL1=35;

//Activating the no downlink measurement report handover algorithmSET GCELLHOEMG: IDTYPE=BYID, CELLID=0, HOCTRLSWITCH=HOALGORITHM2, NODLMRHOEN=YES, NODLMRHOQUALLIMIT=50, NODLMRHOALLOWLIMIT=8, NODLMRHOSTATTIME=1, NODLMRHOLASTTIME=1;SET GCELLHOFITPEN: IDTYPE=BYID, CELLID=0, HOCTRLSWITCH=HOALGORITHM2, DATAQUAFLTLEN=4, SIGQUAFLTLEN=2;MOD G2GNCELL: IDTYPE=BYID, SRC2GNCELLID=0, NBR2GNCELLID=1, NCELLTYPE=HANDOVERNCELL, ULBQSTATTIME=1, ULBQLASTTIME=1;

//Activating the enhanced dual-band network handover algorithmMOD GCELL: IDTYPE=BYID, CELLID=0, IUOTP=EDB_cell, CELLINEXTP=Inner, DBLFREQADJIDTYPE=BYID, DBLFREQADJCID=1;SET GCELLHOEDBPARA: IDTYPE=BYID, CELLID=0, OUTASSOPTEN=YES;

///Activating the edge handover algorithmSET GCELLHOBASIC: IDTYPE=BYID, CELLID=0, HOCTRLSWITCH=HOALGORITHM2, FRINGEHOEN=YES, ULEDGETHRES=10, DLEDGETHRES=20, EDGESTAT1=6, EDGELAST1=4;MOD G2GNCELL: IDTYPE=BYID, SRC2GNCELLID=0, NBR2GNCELLID=1, NCELLTYPE=HANDOVERNCELL, INTELEVHOHYST=67;

//Activating the fast-moving micro cell handover algorithmSET GCELLBASICPARA: IDTYPE=BYID, CELLID=0, LAYER=3;SET GCELLHOBASIC: IDTYPE=BYID, CELLID=0, HOCTRLSWITCH=HOALGORITHM2, QCKMVHOEN=YES, HOTHRES=25;SET GCELLHOAD: IDTYPE=BYID, CELLID=0, QCKSTATCNT=3, QCKTRUECNT=2, QCKTIMETH=15,SPEEDPUNISH=30, SPEEDPUNISHT=4

MOD G2GNCELL: IDTYPE=BYID, SRC2GNCELLID=0, NBR2GNCELLID=1, NCELLTYPE=HANDOVERNCELL, SRCHOCTRLSWITCH=HOALGORITHM2, INTELEVHOHYST=67, HCSSTATTIME=3, HCSLASTTIME=2;

//Activating the better cell handover algorithmSET GCELLHOBASIC: IDTYPE=BYID, CELLID=0, HOCTRLSWITCH=HOALGORITHM2, BETTERCELLHOEN=YES, PATHLOSSHOEN=YES;MOD G2GNCELL: IDTYPE=BYID, SRC2GNCELLID=0, NBR2GNCELLID=1, NCELLTYPE=HANDOVERNCELL, SRCHOCTRLSWITCH=HOALGORITHM2, BETTERCELLSTATTIME=6, BETTERCELLLASTTIME=4;

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//Activating the algorithm for the handover between TCHF and TCHHSET GCELLHOBASIC: IDTYPE=BYID, HOCTRLSWITCH=HOALGORITHM2, AMRFULLTOHALFHOALLOW=YES, AMRFULLTOHALFHOTHRESH=75, FULLTOHALFHODURATION=5, FULLTOHALFHOPERIOD=1, AMRFULLTOHALFHOPATHADJSTEP=1, AMRFULLTOHALFHOATCBADJSTEP=2, AMRFULLTOHALFHOPATHTHRESH=100, FULLTOHALFHOPATHOFFSET=10, AMRFULLTOHALFHOATCBTHRESH=20, FULLTOHALFHOATCBOFFSET=20, AMRFULLTOHALFHOQUALTHRESH=0, FULLTOHALFHOSTATTIME=6, FULLTOHALFHOLASTTIME=4, AMRHALFTOFULLHOTHRESH=45, AMRHALFTOFULLHOQUALALLOW=YES, HALFTOFULLHODURATION=5, AMRHALFTOFULLHOATCBTHRESH=4, HALFTOFULLATCBOFFSET=20, AMRHALFTOFULLHOPATHTHRESH=108, HALFTOFULLHOPATHOFFSET=10, AMRHALFTOFULLHOQUALTHRESH=3, HALFTOFULLHOSTATTIME=6, HALFTOFULLHOLASTTIME=4, NOAMRFULLTOHALFHOALLOW=YES, NOAMRFULLTOHALFTHRESH=85, NOAMRFULLTOHALFHOPATHADJSTEP=1, NOAMRFULLTOHALFHOATCBADJSTEP=2, NOAMRFULLTOHALFHOPATHTHRESH=95, NOAMRFULLTOHALFHOATCBTHRESH=30, NOAMRFULLTOHALFHOQUALTHRESH=0, NOAMRHALFTOFULLTHRESH=25, NOAMRHALFTOFULLHOQUALALLOW=YES, NOAMRHALFTOFULLHOATCBTHRESH=14, NOAMRHALFTOFULLHOPATHTHRESH=103, NOAMRHALFTOFULLHOQUALTHRESH=2;SET GTRXDEV: TRXID=0, TCHAJFLAG=YES;SET GCELLCCACCESS: IDTYPE=BYID, CELLID=0, VOICEVER=FULL_RATE_VER1-0&FULL_RATE_VER2-0&FULL_RATE_VER3-1&HALF_RATE_VER1-1&HALF_RATE_VER2-0&HALF_RATE_VER3-1&FULL_RATE_VER5-0;SET BSCBASIC: AVer=GSM_PHASE_2;

//Activating the SDCCH handover algorithmSET GCELLHOBASIC: IDTYPE=BYID, CELLID=0, HOCTRLSWITCH=HOALGORITHM2, INTRACELLFHHOEN=YES, INFHHOSTAT=10, INFHHOLAST=8, INHOF2HTH=25, INHOH2FTH=12;

SET GCELLHOCTRL: IDTYPE=BYID, CELLID=0, INRBSCSDHOEN=YES;

=VLOOKUP(Sheet1!H3;Sheet2!A2:B3651;2;0)

http://192.168.184.29:6061/hedex\\192.168.184.3\dra dt's (k)

salmos 128:1

salmos 32:8xodo, em seguida, 14 VS 14

weza da multichoice-924723307http://192.168.184.29:6061/hedex/hdx.do?lib=31184420&v=10&id=Mt-9735&tocURL=resources%252fmbsc%252fm%252dperf%252fMt%252d9735%252ehtml&p=t&fe=1&ui=3&keyword=vs%252ehsdpa%252erab%252eattestab

For the low CSSR you should check your SDCCH resources as a first step. There should not be any blocking/congestion on SDCCH. The next step could be TCH congestion.High interference on BCCH/Pilot pollution, HW fault/issues, E1 instability and Antenna adjustment to have a balance uplink/downlink coverage could be other important points.Please do not forget to check your Paging/LU performance in End-to-End connections.Another important case is Overshooting cells.

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For more help you can contact me directly by mgrezaeimoqaddam@gmail.com.

Seems you're experiencing this on the UTRAN? You need to check your Ec/Io - interference could be a cause. Also do a trace so that you get the actual message from RNC/core network. Power congestion, CE congestion, on the Node B as well asIub congestion (insufficient transmission resources) could also be a probable cause. Check for these.

Hi Mr. Oliver, interference cause bad Quality (EcIo in UTRAN) that can cause drop RRCSetup_SuccessRate then...if low RRC setup success rate it will cause block...sometimes we hear message "rrc connection reject"If you have same problem with miss adriana, Mr.Simon's suggestion will useful hint.Also you may adjust admission control of the resource.

CMIIW that's from my experience..

if you have low CSSR only in several RABs, meaning you dont have quite hard problem on your RF environment condition, but you have blocking in some of the resources. For this kind of case, i suggest you to understand the nature of resourceconsumption for each RAB. For instance CS and PS consumed resources like CE andPower more than HS, however if you have EUL/HSUPA, it will consumes CE UL more.

HS consume what 'remaining' in power. As we know, there are 4 factors that can cause blocking : CE (UL/DL), Power, Code, and IuB. You will need to check which factors that mostly causing your blocking, by how many %, only then you can do the optimization by modify admission parameter and/or doing traffic sharing. Afterwards, if your traffic is truly high, you will need to consider some resources expansion.