3G KPI Optimization Sheet(Nokia)

January 12, 2017 | Author: Ashwani Agarwal | Category: N/A
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3G KPI Optimization Sheet(Nokia)...

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Jump/Network Operations Portal NOP (intranet) –Includes counters, KPIs and also reports in Reporting Suite –http://nop-i.nokia.com/docs/jump.htm

•Almost all data has to be analysed at WCELL or WBTS level for the worst cells -> Evaluation over time –Cell Availability –Failures due to Radio, BTS or transport –Handover Performance –Traffic –Cell Resources –Iub Signalling •Some data is better analysed at RNC level->Here only the time evolution and RNC comparison is usefu –Failures due the RNC, Iu, Iur –Iur, Iu, Relocation Signalling Monitor Cell/Neighbour cells Availability - missing cell has impact to neighbouring cells performance also

1. Assess weekly average PLMN KPI performance to identify KPIs below targets –Start from bigger picture assessment (PLNM -> RNC -> Cluster -> WCEL ) –Weekly average will smooth the performance and gives better accuracy of performance 2. Assess network performance at RNC/Area level to check if bad performance happens across –Compare different RNC/Regions Performance 3. Apply drill down approach to assess bad performing KPIs in WCEL level –Identify the failure call phases –Categorizing failure ratio or distribution of each counters (Radio, transmission, BTS, RN –Identify main cause of underperforming KPI’s 4. Prioritize analysis –Filter using high number of failures or high number failure ratio (weighting) –Identify top 20/50 worst cells 5. Analyze failure distribution in the network topology (rural, RNC border, expressway) 6. Propose Solution for cells having network KPIs below KPI targets

Because of the large number of cells in the network, it is not feasible to analyse all the cells. Good methodology is to list top 10-20 worst cells per region and to build and follow an action plan on those •This required a part-time or dedicated tracking role

Either total number of failures or failure rate (%) could be used •Coverage hole, missing neighbour or capacity problem

In Loaded networks the Weekly Busy Hour CSSR is relevant • The failures originate mostly from congestions (Iub, BTS HW (CEs), radio) • The call blocking probability is designed for the BH In Unloaded networks the Weekly Busy Hour CSSR may not yield the hour with highest blocking as NRT traf In cell level it is needed to compute BH statistic based on absolute time period (e.g. 16-18h every day) Typically CS and PS busy hours does not exist in the same time •In example below, the PS Busy Hour is later in the evening (20-21 hours) than CS (15-16 hours). During weekend CS data drops significantly while PS data is quite constant

The new smart phones such as Blackberry (RIM), iPhone (Apple) and N97 (Nokia) are loading the network in a new •Applications which require ‘always on’ connectivity have become very popular in many networks Fast dormancy or Quick Release will have impact to the load & performance

Call can be traced by using subscriber's IMSI, MSISDN or equipment’s IMEI number Subscriber trace can be used for: In system testing and provisioning phase for trouble shooting and network optimisation.

Jump User Id: Jump password:

mparison between large areas (Cities, RNCs) is still required

ment as daily performance varies a lot especially in unloaded network, gives more accurate picture of KPIs. or only particular RNC/Area

aken in the account as well as RT traffic

1.1.1.1.1.                Accessibility Analysis (CS/PS/HS) Call Setup analysis CS/PS Access Failure Optimization:

Call Setup Success Rate (CSSR) CSSR is essentially •RRC Setup & Access Success * RAB Setup & Access Success

Poor CSSR could be a result of •Poor coverage or dominance or interference issues in Radio interface •Capacity issues in Radio or Iub interface •Configuration issues in WBTS (parameters or HW)

Voice Access failure= RRC Setup & Access fails + RAB Setup & Access fails

Starting criteria for setup failure analysis 1) Site Ok?-- Cell Availability(Cell level report-RSRAN001), Alarms/HW Issues 2) Coverage or Interference-- Cell Power Report

a) Coverage-- best server RSCP should not be lesser than -102dbm----b) Interference-- best server Ec/No should not be less than -12db

Coverage Optimiza

Tilt- for Dominance Optimization Missing neighbor checks-- for neighbor optimization

3) AICH ACK. Received?----No (UL Coverage & RACH parameter Optimization) 4) RRC Connection Setup Received? NO---a) RRC Setup reject msg. received---No (Check failure Cause) Yes (AC Optimization--- check PRx Noise & Interferer Around BT RRC Setup fails occurs (due to HC, AC, BTS, frozen BTS, Transp, Iub AAl2 fails, RNC, RNTI & RRC_CONN_STP_FAIL_HC (very Minor)--- usually 0%

RRC_CONN_STP_FAIL_AC (dominant) •Check UL Interference (R99 Noise Rise, RTWP- Cell Power Report), DL Power (HSDPA, R99 power) & Code o •UL Power Spikes -> Disable UL Admission Control to if the number of failures is critical (PrxTarget-> 30 dB), imple

RRC_CONN_STP_FAIL_BTS (dominant when HSDPA active) •Check BTS configuration in terms of CE allocation – Use Channel Element (M5001) Counters in order to evalu •Evaluate NBAP counters (radio link reconfiguration failures)-- NBAP Signalling Per cause Report •Expand the Capacity or decrease the traffic offered to the site--- Check Uplink CE Usage(should not be >8 •Frozen BTS/BTS not responding-- delete and re-create COCO/Site Reset

RRC_CONN_STP_FAIL_TRANS •Evaluate Number of reconfiguration failure due the transmission-- Traffic_on_Physical_Medium_Sub-Layer & I •Expand the capacity or decrease the traffic offered to the site For ATM based Iub •Check COCO Configuration •Use AAL2 Multiplexing in case of two WAM For IP based Iub---•Check IP based route parameters (ZQRL;)/ IP_Route_Resource_Reservations Report DCH Reconfiguration failures due to AC/BTS/Trans-- NRT_DCH_Allocations_Statistics report

SHO Branch setup fails BTS/Iub-- SHO Overhead Report--No. 88, traffic RNC capacity SW New DSP counters-- DSP Resource Usage, DSP State Changes- System reset/user reset & RRC_CONN_STP_FAIL_RNC •Typically RNC fault or Incoming SRNC Relocation Failure (inter-RNC border)--- RNSAP/NBAP Signalling •Iur Troubleshooting-- RNSAP_Signalling Report •DMPG problem in RNC •Required ICSU log tracing if no RNC fault or SRNC relocation problem RRC_CONN_STP_FAIL_ICSU_OVERL •ICSU overload RRC_CONN_STP_FAIL_RNTI ALLO FAIL • RNC decides to reject RRC connection request due to RNTI allocation failure caused by RRMU overload

YES---RRC Connection Setup complete msg. sent from UE?---No (L1 Synchronization Fail/ RN YES ( RRC Active fails b) c) RRC Access failure reasons: RRC Active release can be due t RRC_CONN_ACC_FAIL_RADIO (Dominant failure cause type) • Perform drive test to detect if UL or DL coverage

Coverage or interference-- C

–UL Coverage §UL coverage(TMA/MHA chk), Interference-- Tilt / Missing Neighbor chk / best serve

–DL Coverage §Tune SCCPCH Power if UE does not receive the RRC Setup Message from RNC./ Ante

/ Coverage Optimization-- PRACH_Propagation_Delay Report • If UE does not synchronize(L1)

–tune CPICHToRefRABOffset vs.Qqualmin (or Qrxlevmin) –Due to Increased interference with HSDPA, this max radio link power for AMR (offset parameter) has RRC_CONN_ACC_FAIL_MS –UL Coverage §Tune Cell Dominance (or CPICH) in order to balance UL and DL (if UL interference is

If RRC setup/access failure due to Radio/MS, it is also possible to check whether UEs are located at distance area or close •Propagation delay counters from RRC measurement M1006C128-C148 reports call setup distance during RRC •This give hints that either cells has large coverage area (tall sites with over-shooting) or non-optimum cell coverag Some more counters of RRC Access fails •M1006C203 RRC CONN REJECT DUE TO IUB OVERLOAD CTRL •M1006C204 •M1006C205 •M1006C206 •M1006C208

RRC CONN REJECT DUE TO MAX REGISTRATIONS RRC CONN REJECT DUE TO CENTRALIZED UNIT OVERLOAD RRC CONN REJECT DUE TO BUFFER LIMIT CTRL RRC CONN REJECT DUE TO RNC RESTART When the RNC sends RRC CONNECTION REJECT message to the UE because the RNC has recently restarted and the max

Yes---RAB Setup failure received?---No ( chk failure cause) Yes (chk failure cause--Not Radio related Problem/Cell U

RAB Setup fails occurs (due to AC, BTS, frozen BTS, Transp, Iur Trans, Iu-CS Trans, Iub AAl2 then RNC sends RANAP: RAB Assignment Response msg. to CN, sending appropriate failure cause.

RAB Access fails occurs (due to UE & RNC fails)----UE sends RB setup failure msg. to RNC, RNC sends RAB Assignment response to CN, + Iu release requ RAB Active fails occurs (due to Radio, Iu, Iur, Iub, RNC internal fails)-----

RAB setup & Access Fail Root Cause Analysis RAB_CONN_STP_FAIL_AC (dominant)

[ Admission control could reject establishment of new Connection/b

•Check UL Interference (R99 Noise Rise, RTWP- Cell Power Report), DL Power (HSDPA, R99 power) & DL Cod •UL Power Spikes -> Disable UL Admission Control to if the number of failures is critical (PrxTarget-> 30 dB), imple •When HSPA is enabled in the cell, the DL and UL resources are shared between HSPA and R99 users

–Both R99 and HSPA should be monitored-- Cell utilization + Allocated_Traffic_Amounts_(R99 –From the HSDPA side, besides of blocking, HSDPA throughput limitations can be also monitored

RAB_CONN_STP_FAIL_BTS (dominant when HSDPA active) •Check BTS configuration in terms of CE allocation – Use Channel Element (M5001) Counters in order to evalu •Evaluate NBAP counters (radio link reconfiguration failures)-- NBAP Signalling Per cause Report •Expand the Capacity or decrease the traffic offered to the site--- Check Uplink CE Usage(shouls not be >8 •Frozen BTS/BTS not responding-- delete and re-create COCO/Site Reset

RAB_CONN_STP_FAIL_TRANS •Evaluate Number of reconfiguration failure due the transmission-- Traffic_on_Physical_Medium_Sub-Layer & I •Expand the capacity or decrease the traffic offered to the site For ATM based Iub •Check COCO Configuration •Check RAB_STP_FAIL_XXX_IUB_AAL2, M1001C531-C533 •Use AAL2 Multiplexing in case of two WAM For IP based Iub---•Check IP based route parameters (ZQRL;)/ IP_Route_Resource_Reservations Report

DCH Reconfiguration failures due to AC/BTS/Trans-- NRT_DCH_Allocations_Statistics report SHO Branch setup fails BTS/Iub-- SHO Overhead Report--No. 88, traffic RNC capacity SW New DSP counters-- DSP Resource Usage, DSP State Changes- System reset/user reset & RAB_CONN_STP_FAIL_RNC •Typically RNC fault or Incoming SRNC Relocation Failure (inter-RNC border)--- RNSAP/NBAP Signalling •Iur Troubleshooting-- RNSAP_Signalling Report

•DMPG problem in RNC •Required ICSU log tracing if no RNC fault or SRNC relocation problem RAB_CONN_STP_FAIL_ICSU_OVERL •ICSU overload RAB_CONN_STP_FAIL_RNTI ALLO FAIL • RNC decides to reject RRC connection request due to RNTI allocation failure caused by RRMU overload

RAB_ACC_FAIL_Iur trans--- RNC capacity Report RAB_ACC_FAIL_IuCS trans--- IuCS Report(94) RAB_ACC_FAIL_Iub AAl2 fails--- •Check RAB_STP_FAIL_XXX_IUB_AAL2, M1001C531-C533, •Use AAL2 Multiplexing in c

RAB_ACC_FAIL_XXX_MS •Evaluate Cell resource Prx and Ptx (for example high uplink interference)--NRT_Radio_Bearer_stats report •Check RB reconfiguration failure ratio ( If ATO setting is insufficient , rec. 500ms)--- RRC signalling report

RRC_CONN_ACC_FAIL_RADIO (Dominant failure cause type) • Perform drive test to detect if UL or DL coverage

Coverage or interference-- C

–UL Coverage §UL coverage(TMA/MHA chk), Interference-- Tilt / Missing Neighbor chk / best serve

–DL Coverage §Tune SCCPCH Power if UE does not receive the RRC Setup Message from RNC./ Ante

/ Coverage Optimization-- PRACH_Propagation_Delay Report

Packet Service & Session [ PS ]

Packet Service - A call with RABQoS parameters: Traffic Class = Interactive or Background. •The RRC setup has been done with cause codes: MOC Interactive, MTC Interactive, MOC Background or MTC B

Packet Session - A call with RAB/RB QoS parameters: Traffic Class = Interactive or Background. •Here a call refers to the DCH/HS-DSCH/E-DCH live time, that is, the time the session is active for traffic. •The RRC setup has been done with cause codes: MOC Interactive, MTC Interactive, MOC Background or MTC B

Packet calls starts with user plane capacity allocation (transfer from FACH/PCH, DCH 0/0) and ends with dedicated resource re There are counters for the following channel combinations •Rel99 DL = DCH UL = DCH •HSDPA DL = HS-DSC UL = DCH •There could be multiple p •HSUPA DL = HS-DSC UL = E-DCH • RU20 introduce Direct re

Packet Session RAB Setup Failures AC, BTS, Frozen BTS, RNC, ANCH fails

Packet Session RAB Access Failures UE, RNC fails

Packet Session Setup Failures (R99) Initial Setup fail procedure •AC failure : lack of DL power or high UL interference •BTS failure: lack of HW capacity •DMCU failure: lack of DSP resources in RNC (DSP resource usage/ DSP state changes/ DSP service statistics reports)- hardware •TRANS failure: lack of Iub capacity (COCO parameters) •UE failure: UE internal problem (not capability issue) •Other Failures

HSDPA Setup fails reasons: RNC, BTS, Iub, UE, UL-DCH, Multi-RAB, Max. users, DL Pwr limit

HSDPA

HSDPA Setup fails reasons: RNC, BTS, Max. users, UE, E-DCH not selected due to too many

HSUPA

overage Optimization-- PRACH_Propagation_Delay Report

nterferer Around BTS) PrxNoise value between -99.5 dBm and -103.5 dBm. In Tmo=-105dbm fails, RNC, RNTI & ICSU fails)--- then sends RRC connection setup reject msg.

PA, R99 power) & Code occupancy if there is need to upgrade radio capacity-- [ HSPA no. of Users ] Cell Utilization/capacity Report PrxTarget-> 30 dB), implement TN159

unters in order to evaluate lack of Channel Elements-- NodeB Utilization/CE Utilization Report

Usage(should not be >80-85%--- NodeB Utilization/CE Utilization Report)

Medium_Sub-Layer & Iub Capacity reports

Reservations Report

Example Short One day dat-- to show top •Majority of BTS Failures is com •Check CE usage for these site

One site detail analysis show that Average UL CE usage ratio is above

stem reset/user reset & DSP_Service_Statistics reports

NBAP Signalling

ronization Fail/ RNC Internal failures)-- RRC Access fails ( RRC Active fails-- a) Radio Fails--Ue fails--RNC Internal fails-elease can be due to-- ISHO, IFHO, SRNC Relocation, Pre-emption

or interference-- Cell Power Report

eighbor chk / best server Ec/No should not be less than -12db

essage from RNC./ Antenna tilt(CPICH RSCP should not be -2 dB->-4 for networks with lot of smartphones)

DL (if UL interference is not the cause)

distance area or close to cell edge area tup distance during RRC connection request or cell update non-optimum cell coverage from neighbouring cells

ly restarted and the maximum number of RRC connection establishments is limited until a guard timer expires.



lated Problem/Cell Update)

CS Trans, Iub AAl2 fails)----te failure cause.

N, + Iu release request to CN

ent of new Connection/bearer ]

PA, R99 power) & DL Code occupancy if there is need to upgrade radio capacity-- [ HSPA no. of Users ] Cell Utilization/Capacity Report PrxTarget-> 30 dB), implement TN159 and R99 users

_Traffic_Amounts_(R99_+_HSPA) report s can be also monitored-- Node B utilization/ HSPA Overview/

Number_of_HSPA_Users_and_UE_capability/ MAC-hs_Retransmissions_by_Code_and_Modula

unters in order to evaluate lack of Channel Elements-- NodeB Utilization/CE Utilization Report

Usage(shouls not be >80-85%--- NodeB Utilization/CE Utilization Report)

Medium_Sub-Layer & Iub Capacity reports

Reservations Report

stem reset/user reset & DSP_Service_Statistics reports

NBAP Signalling

•Check M1005C128 CANC_ADD_SRNC_TRA

i.e. (The number of cancelled synchronised rad due to a transmission setup failure or RNC DMP

e AAL2 Multiplexing in case of two WAM, Iub Capacity report, NRT_Radio_Bearer_stats--AAl2 congestion

dio_Bearer_stats report for Prx & Ptx ratio RC signalling report

–UL Coverage tuning §Tune C

–DL Coverage tuning §Tune S

or interference-- Cell Power Report

eighbor chk / best server Ec/No should not be less than -12db

essage from RNC./ Antenna tilt(CPICH RSCP should not be add CE capacity if needed or try to reduce the usage

e UL CE usage ratio is above 90% causing high blocking -> Capacity issue

•Configuration & SW issues

Utilization/Capacity Report

Number_of_HSPA_Users_and_UE_capability report

_by_Code_and_Modulation_Usage reports

C128 CANC_ADD_SRNC_TRAN_STP_FAILfailure)

ncelled synchronised radio link reconfigurations on SRNC side setup failure or RNC DMPG/DSP resource allocation)

Setup Failures due Ad

•RRC/RAB cs s

•RAB PS setup

•HSDPA Acces

•HSDPA access

–UL Coverage tuning §Tune Cell Dominance (or CPICH) if the cause is UL interference –DL Coverage tuning §Tune SCCPCH Power if UE does not receive the RRC Setup Message from RNC.

Missing neighbor checks-- for neighbor optimization

SDPA users -ous HSDPA users---

Number_of_HSPA_Users_and_UE_capability report

e to too many HSDPA users, RNC_660b---- Number_of_HSPA_Users_and_UE_capability report

64 users/cell, shared schedular/ full baseband schedular ssioning parameter--- as HSDPA shared schedular type license

schedulers depend on Tcell parameter settings on the site.

up problems due to too many users, or waste baseband capacity if schedulers are underutilized.

busy hrs due to max users reached.

_UL DCH (RNC_661c/d) CH return channel due to lack of UL radio resources

hares_of_Total_Traffic_Allocation_Amounts report-- for HS-DSCH return 84)

-chk UL power congestion ( lack of radio resource for UL return channel)-- cell capacity report

guration failure rate-- terminal problem-- RRC signalling report types troubleshooting ?

el resources (check CE resource utilisation using M5001 counters at BH) verhead – all branches must have enough CE capacity if UE is in SHO when HS-DSCH allocation is started

port--should be nearly 40%. th some features.

p fail due to Iub transport tion (64,128,384,MAC-d) ration failure due the transmission-- RRC signalling report DD_SRNC_TRAN_STP_FAIL _IUB_AAL2, M1001C531-C533

ernal reason

p will fail, but it could be also that only HSUPA will fail. The reasons are similar to HSDPA E-DCH Setup FR due to BTS (RL reconfiguration failure to RNC) E-DCH Setup FR due to Transport (RL reconfiguration cancel from RNC) E-DCH Setup FR due to UE (RB reconfiguration failure from UE)--terminal problem-- RRC signalling report E-DCH Setup FR due to Other Failures (RNC internal reason)

UL DCH Selected due to too many HSUPA users TS reports HSUPA cannot be allocated E-DCH Not Selected due the BTS HW (BTS sent radio resource measurement report) 0 – These counters measure the BTS HW limitation during HSUPA Calls A is not supported in SHO branch E-DCH Allocation FR due to Not Acceptable Active Set DL DCH Selected due to the HSDPA power (HSDPA static power allocation in use)

etup Failures due Admission Control - AC •RRC/RAB cs setup failures due AC - Admission control rejects the establishment of new RRC/RAB connection due the –UL Power, DL Power and DL Codes •RAB PS setup failures due AC – Admission control rejects the establishment of new PS radio bearer due the

–UL power, DL Power, DL codes and too many users in the scheduler •HSDPA Access failures due the UL DCH – AC rejects the establishment of new HSDPA connection (related to HSDPA UL retur

–UL power •HSDPA access failures due number of HSDPA users reached – new HSDPA connection is rejected due too many HSDPA users

AB connection due the

arer due the

ion (related to HSDPA UL return channel)

ed due too many HSDPA users

 Total_Numberof_Radi Lnks  SHO_verhad10% 1

1.1.1.1.1.                Retainibility Analysis (CS/PS/HS) Voice Drop Call Optimization: 1.       Monitor Daily Performance Reports/KPIs Worksheet---Pick Worst Offenders 2.       Identify DCR top offenders…. few cells?…. Any particular area ? Known Coverage issue? Need a 3.       check cell & its neighbor cells availability (availability should be 100%)---- cell level report 4.       Check current alarms on the site / sector & same for neighbor cells?--- alarm history especial 6.       Check if the sector is dropping the calls due to RF (Radio fails)-- Not RF(Iu, Iur, BTS, RNC, M 7.       If not RF, check : •          Voice Drops due to Iu Check core network parameter setting if RAB_ACT_FAIL_XXX_IU Check SCCP SGSN/RNC IuPS Tias/Tiar if RAB_ACT_FAIL_BACKG_IU •          Voice Drops due to Iur

RAB_ACC_FAIL_Iur trans--- RNC capacity Report

•          Voice Drops due to BTS -- Check if any BTS faulty alarm (7651, 7653, 7654 alarm) •If No alarms-- delete and re-create COCO/COCO reset/Site Reset---may be due to Frozen BTS/BTS not re

•Evaluate NBAP counters (radio link reconfiguration failures)-- NBAP Signalling Per cause Report •Expand the Capacity or decrease the traffic offered to the site--- Check Uplink CE Usage(shouls not be >8

•          Voice Drops due to RNC

•Typically RNC fault or Incoming SRNC Relocation Failure (inter-RNC border)--- RNSAP/NBAP Signalling

RNC capacity SW New DSP counters-- DSP Resource Usage, DSP State Changes- System reset/user reset & •Iur Troubleshooting-- RNSAP_Signalling Report

•DMPG problem in RNC •Required ICSU log tracing if no RNC fault or SRNC relocation problem •ICSU overload • RNC decides to reject RRC/RAB connection RRMU overload, priority calls during Busy hrs

•          Voice Drops due to UE –Check physical channel reconfiguration failure rate (IFHO, ISHO, code optimisation)

•Evaluate Cell resource Prx and Ptx (for example high uplink interference)--NRT_Radio_Bearer_stats report •Check RB reconfiguration failure ratio ( If ATO setting is insufficient , rec. 500ms)--- RRC signalling report

•          Voice Drops due to CIPH

•          Voice Drops due to Trans

RAB_ACC_FAIL_Iur trans--- RNC capacity Report RAB_ACC_FAIL_IuCS trans--- IuCS Report(94) RAB_ACC_FAIL_Iub AAl2 fails--- •Check RAB_STP_FAIL_XXX_IUB_AAL2, M1001C531-C533, •Use AAL2 Multiplexing in c

7.       If drops are due to RF (Voice Drops due to Radio fails), check the Site location, Neigh

Number_ofBstServ_RadioLnks  

Need Tilt / Azimuth change to improve the area?

–UL Coverage §UL coverage(TMA/MHA chk), Interference-- Tilt / Missing Neighbor chk / best serve

–DL Coverage §Tune SCCPCH Power if UE does not receive the RRC Setup Message from RNC./ Ante

/ Coverage Optimization-- PRACH_Propagation_Delay Report ( Cell range in TMO Sit

9.       HO issue/HO fails? All Neighbor Exists? SHO….ISHO……IFHO…….?? Neighbor Add/dele Check SHO KPI if performance < 90% ( leads to Radio failure)--- Yes –Check if cells are at RNC border Yes-- (check Iur capacity and SRNC relocation problem) No-- SHO_Adjacencies(46)--neighbor add/delete, Soft_Handover_Performance(28), Active_S –Detect badly performing neighbours using HO success rate per adjacency counters-check SHO Overhead  Total _ Number _ of _ Radio _ Links SHO _ Overhead  100%  

 Number _ of _ Best _ Server _ Radio _ Lin

Check SHO Overhead (RNC_79b) to see how big is SHO area, if it is too small SHO may fails a

–High incoming HO failure rate in all ADJS – check sync alarms –Audit Adjacent sites for Alarms/capacity/traffic and visualization check with map –Evaluate HO control parameters and trigger threshold

If SHO KPI> 90%-- check ISHO failures? No ISHO failures--- new site needed?/ RF & IFHO Neighbor Optimization Yes ISHO failures (ISHO Reports)--Check No cell found ratio>40% or not?-- Inter-System_Handover_Performance report If No cell found ratio >40%-- 3G cell at inter-RNC border/ 3G cell covers a coverage hole--–Check missing neighbour/badly performing neighbors(ISHO Adjacencies report), Coverage_Quality_ISHO_Performance_per_Cause reports--- UL DCH qual, UE tx pwr, DL DP GSM frequency plan neighbour RNC and MSC database consistency audit( for BCCh/BSIC co check alarm of reference clock in 3G or in 2G, check 2G TCH congestion 4.Check ISHO KPI if RT ISHO < 90% or NRT < 80% (leads to radio failure)

If No cell found ratio is>90% & enough ADJIs--- Wrong reference Clock tuning( 10MHz tunn If No cell found ratio CPICHToRefRA –Check Call reestablishment timer -> T315 (rec.10s) –Ecno distribution for bad coverage issue (M1007C38-M1007C47)

 

10.   It might be observed on some sites that although there is no alarm and cell is carryin

RRC active drops reasons: Iu Iur BTS RNC MS Ciphering CIPH UE Trans Radio fails

R99 PS Drop Call Optimization:

RAB AMR active drops reasons: Iu Iur RNC MS UE Trans Radio fails

R99 is NRT service basically

PSSR rate can be monitored separately for R99, HSDPA and HSUPA Packet Session Analysis Packet call normal releases (normal end of the call) counters includes • Transition to DCH 0/0, Cell_FACH or Cell_PCH due to inactivity or low utilisation • Outgoing SRNC relocation • Inter-RNC hard handover

• Inter-system Hard Handover Packet call Failures are divided into •RL fails •Other Non-RL Fails •Pre-emption

HSDPA Retainability

•The normal transition from HS-DSCH to FACH/DCH are considered as a normal HS-DSCH rel

HSDPA Drop reasons: RL fails, Non-RL fails, Mobility fails, Pre-emption fails, other fails

ATO=Offset for activation time of SRBs on HSPA= 300 to 500ms Ptx target=40dbm Prxtarget=5dbm CPICH tx power= 35.1dbm

Check NBAP RL reconfiguration failure rate? NBAP_Signalling report-- Radio link - SRNC, Radio link - DRNC, RL setups/reconf fails for HSDPA MAC-d NBAP_Signaling_per_cause report--- RL setup for an RRC connection-Fail, BTS not respond, RL operatio

Required ICSU log for further tro

HSDPA Retainability

•The retainability of all successfully allocated E-DCH resources for NRT traffic

HSUPA Drop reasons: RL fails, Non-RL fails, E-DCH RelRate(HS-DSCH SCC), other fails

o_Links 1

Drop Call Rate (DCR)

Call Drop rate (CDR) is calculated based on RAB activation failures • Call is dropped if one (or more) of the following RAB, RB or RL, drops

Coverage issue? Need a new site ? ---- cell level report alarm history especially for transmission issues (NBAP link failures/T1 fluctuations?) RF(Iu, Iur, BTS, RNC, MS, CIPH, UE, trans fails)

ue to Frozen BTS/BTS not responding

er cause Report k CE Usage(shouls not be >80-85%--- NodeB Utilization/CE Utilization Report)

SAP/NBAP Signalling

s- System reset/user reset & DSP_Service_Statistics reports

O, code optimisation)

T_Radio_Bearer_stats report for Prx & Ptx ratio s)--- RRC signalling report

•Use AAL2 Multiplexing in case of two WAM, Iub Capacity report, NRT_Radio_Bearer_stats--AAl2 congestion

he Site location, Neighbors, Cell to cell HO stats(SHO,IFHO,ISHO), PRACH delay distance and Ec/No

Radio_Lnks 

sing Neighbor chk / best server Ec/No should not be less than -12db

tup Message from RNC./ Antenna tilt(CPICH RSCP should not be 50%) SPONSE FROM RLC ameters -> CPICHToRefRABOffset, PTXDPCH MAX



arm and cell is carrying traffic, some HW faults ( could be found only during the site visits) causing

Packet service RAB active, drops reasons: Iu Iur RNC MS UE Trans Radio fails

Packet session, drops reasons:

HS-DSCH/E-DCH DR, RL HS-DSCH/DCH DR, RL DCH/DCH DR, RL HS-DSCH/E-DCH DR, Other HS-DSCH/DCH DR, Other DCH/DCH DR, Other

NRT PS RAB active fail due to---

1. Radio-- Chk NRT Radio Bearer fails due to radio--- NRT_DCH_Allocations_Statistics/ NRT_R Active_Set_Size_for_NRT-RT_Traffic report

2. BTS--

chk BTS HW resources-- NRT_Radio_Bearer_stats report for BTS congestion Failed SCC due to HSDPA return channel-- chk SCC fails-- Service_Session_Reta HSPA_Serving_Cell_Change report-- for reasons, causes, fails SCC=Serving Cell Change

3. Iu-- chk core network parameter settings--4. Iur-- Inter RNC mobility? 5. RNC-- RNC Internal problem 6. UE-- Terminal problem

Release due to RL Failure counters: M1022C57 PS_REL_RL_FAIL_HS_E_INT M1022C58 PS_REL_RL_FAIL_HS_E_BGR M1022C59 PS_REL_RL_FAIL_HS_D_INT M1022C60 PS_REL_RL_FAIL_HS_D_BGR M1022C61 PS_REL_RL_FAIL_D_D_INT M1022C62 PS_REL_RL_FAIL_D_D_BGR are incremented in case RL Failure is received from BTS and cannot be acquired back during specific time

Release due to Other Failure counter M1022C63 PS_REL_OTH_FAIL_HS_ M1022C64 PS_REL_OTH_FAIL_HS_ M1022C65 PS_REL_OTH_FAIL_HS_ M1022C66 PS_REL_OTH_FAIL_HS_ M1022C67 PS_REL_OTH_FAIL_D_D M1022C68 PS_REL_OTH_FAIL_D_D are incremented in case the PS alloca any other reason expect normal, pre-

M1022C57 PS_REL_RL_FAIL_HS_E_INT M1022C58 PS_REL_RL_FAIL_HS_E_BGR M1022C59 PS_REL_RL_FAIL_HS_D_INT M1022C60 PS_REL_RL_FAIL_HS_D_BGR M1022C61 PS_REL_RL_FAIL_D_D_INT M1022C62 PS_REL_RL_FAIL_D_D_BGR are incremented in case RL Failure is received from BTS and cannot be acquired back during specific time

M1022C63 PS_REL_OTH_FAIL_HS_ M1022C64 PS_REL_OTH_FAIL_HS_ M1022C65 PS_REL_OTH_FAIL_HS_ M1022C66 PS_REL_OTH_FAIL_HS_ M1022C67 PS_REL_OTH_FAIL_D_D M1022C68 PS_REL_OTH_FAIL_D_D are incremented in case the PS alloca any other reason expect normal, pre-

ered as a normal HS-DSCH release (including transitions due to mobility and pre-emption)

on fails, other fails 1. RL Fails Compare RL fails with -- Cell Upd ATT RL Fails & Cell Upd ATT RLC Fails--re Check SCC Failure rate--HSPA_Serving_Cell_Change report (HSDPA Radio fails -UL coverage(TMA/MHA chk) & Interference DL coverage & Interference-- PRACH delay range r Neighbor Optimization etc. Iub -HSPA Overview report-- for Iub congestion

RAB_ACC_FAIL_Iub AAl2 fails--- •Check RAB_STP_FAIL_XXX_IUB_A

•Use AAL2 Multiplexing in case of two WAM, Iub Capacit NRT_Radio_Bearer_stats--AAl2 congestion Iub_Traffic_-_FP_layer report-- for rejections, discarded fram CE resource congestion--- CE utilization/Cell capacity/Number_of_H Check

CQI distribution (HSPA Overview report) EcNo distribution for bad coverage issues-

(M1007C38-M10

Check

Active_Set_Size_for_NRT-RT_Traffic report-- Active set update

Check

HSDPA FMCS Mobility Control Parameter --(Add/Drop window,

Check

call re-establishment T315 timer due to radio link failure 9 (60

2. Non- RL Fails/Others-- Check

UE responding with some failure msg or not responding to some msg, but no RL Chk RNC fails & use RNC logging If required Check RB reconfiguration, physical channel reconfiguration, NBAP RL r RB reconfiguration failure ratio ( If ATO setting is insufficient , rec. 500 Evaluate Cell resource Prx and Ptx (for example high uplink interfere

nf fails for HSDPA MAC-d flow not respond, RL operations- RL fails(SRNC,DRNC), RL setup for HO failures, SRNC/DRNC(SHO/HHO-BTS not resp

CSU log for further troubleshooting ?

or NRT traffic

SCC), other fails •There are several reasons for HSUPA release: –RNC_1108a E-DCH Rel due to RL Failures –RNC_1109a E-DCH Rel due to other failures

•RL fail is incremented If: – a radio link failure happens during HSDPA call – uplink RLC unrecoverable error happens (Cell Update – RLC-entity in RNC reports RLC protocol reset

Cell capacity report -- UL load- HSUPA Physical CH pwr HSPA serving cell change report -- HSUPA SCC- E-DCH down to D Soft handover performance report -- HSUPA SHO Success Rate

HSPA Overview report -- HSUPA(2ms/10ms TTI thp, E-DCH 2m HSUPA usage( happy Bit rate, 2ms/10ms TTi trans usage rate, correctly/ceived correctly but lost) Number_of_HSPA_Users_and_UE_capability report -- hsupa simu Traffic_on_AAL5 report

on RAB activation failures lowing RAB, RB or RL, drops.

y distance and Ec/No quality distribution statistics

overage or interference-- Cell Power Report

Missing neighbor checks-- for neighbor optimization

elete/replacement window

ops due to service based HO

e site visits) causing call drops e.g. bad feeder or antenna or MHA problem?

cations_Statistics/ NRT_Radio_Bearer_stats/ SHO Overhead NRT_RT chk?/

for BTS congestion Service_Session_Retainability report--for HS_DSCH SCC fails

e due to Other Failure counters: C63 PS_REL_OTH_FAIL_HS_E_INT C64 PS_REL_OTH_FAIL_HS_E_BGR C65 PS_REL_OTH_FAIL_HS_D_INT C66 PS_REL_OTH_FAIL_HS_D_BGR C67 PS_REL_OTH_FAIL_D_D_INT C68 PS_REL_OTH_FAIL_D_D_BGR emented in case the PS allocation is released due to er reason expect normal, pre-emption or RL failure

C63 PS_REL_OTH_FAIL_HS_E_INT C64 PS_REL_OTH_FAIL_HS_E_BGR C65 PS_REL_OTH_FAIL_HS_D_INT C66 PS_REL_OTH_FAIL_HS_D_BGR C67 PS_REL_OTH_FAIL_D_D_INT C68 PS_REL_OTH_FAIL_D_D_BGR emented in case the PS allocation is released due to er reason expect normal, pre-emption or RL failure

HS-DSCH Allocation release

ell Upd ATT RLC Fails--recoverable error ( present in retainability report) hange report (HSDPA SCC fails due to UE,BTS,Trans,AC)-- high SCC failures lead to radio link failure k) & Interference e-- PRACH delay range report/tilt

ub congestion

RAB_STP_FAIL_XXX_IUB_AAL2, M1001C531-C533,

two WAM, Iub Capacity report, congestion ejections, discarded frames & lost PDUs with reasons ell capacity/Number_of_HSPA_Users_and_UE_capability(Simultaneous users, NRT DCH select due to too many hs

ues-

(M1007C38-M1007C47, CPICH EcNo class 0-9)

ort-- Active set update fails, 1-2-3 cells (% & no.) in active set for different RT & NRT services

er --(Add/Drop window, handover or SCC too late, SCC parameter)

o radio link failure 9 (60 secs in TMO)

to some msg, but no RL failure (timer expiry)

figuration, NBAP RL reconfiguration failure rate g is insufficient , rec. 500ms)--- RRC signalling report ple high uplink interference)--NRT_Radio_Bearer_stats report for Prx & Ptx ratio

(SHO/HHO-BTS not respond/other cause)

E-DCH Allocation release

during HSDPA call error happens (Cell Update by UE) RLC protocol reset

sical CH pwr A SCC- E-DCH down to DCH, Inter RNC UPA SHO Success Rate

ms TTI thp, E-DCH 2ms TTI utilization), HSUPA Transmitted Power Ratio, TTi trans usage rate, MAC-e PDU not transmitted/not received

ty report -- hsupa simultaneous users, hsdpa/hsupa user distribution

to radio link failure

elect due to too many hsdpa/hsupa users)

SHO success rate

SC_INTRABUCESFL_INTRBSUCEFL

•SHO success rate KPI (RNC_195a) is informing how many successful Active set updates we will have, comp

RNC_153b SHO SR, RT RNC_192b SHO SR, NRT SHO Reports:

Soft_Handover_Performance

Cell level AS update RT+NRT, RT Update % - 1a,1b,1c, NRT U

SHO_Adjacencies

Cell level

SHO adjacencies are checked to increase SHO Success R then decide whether neighbor is to be added or not.---- A

Check SHO KPI if performance < 90% ( leads to Radio failure)--- Yes –Check if cells are at RNC border Yes-- (check Iur capacity and SRNC relocation problem) No-- SHO_Adjacencies(46)--neighbor add/delete, Soft_Handover_Performance(28), Active –Detect badly performing neighbours using HO success rate per adjacency counters-check SHO Overhead  Total _ Number _ of _ Radio _ Links SHO _ Overhead  100%  

 Number _ of _ Best _ Server _ Radio _ L

Check SHO Overhead (RNC_79b) to see how big is SHO area, if it is too small SHO may fails

–High incoming HO failure rate in all ADJS – check sync alarms –Audit Adjacent sites for Alarms/capacity/traffic and visualization check with map –Evaluate HO control parameters and trigger threshold

Check if DL Active set update received(Active_Set_Size_for_NRT-RT_Traffic Report) No-- SC clash?---yes(fix SC clash) no --- congestion on target cell ( Load optimization) DL Tx power max.?---yes ( in this case; Link is unbalanced--- do CPICH Op Yes-- UE Tx Power max.?--- no(chk RF levels) yes( check Uplink interference? )

RNC_73A10%

If UL interference----load optimization/Externa

SHO based on DSR( Detected Set relation)-- Enabled in TMO

Example: SHO Parameters Changed •Replacement parameters were changed in live network in the RU10 pilot: –FMCS: ReplacementWindow 2dB -> 6dB –FMCS: ReplacementTime 100ms -> 640ms •Addition and drop parameters were: –FMCS: AdditionWindow = 4 dB –FMCS: AdditionTime = 100 ms –FMCS: DropWindow = 6 dB –FMCS: DropTime = 640 ms •Periodical reporting intervals –AdditionReportingInterval = ReplacementReportingInterval = 0.5s –DropReportingInterval = disabled (now event based as in RAS06)

SHO Update Attempt RT Same, SHO success ratio RT increased from 99.8 to 99.9% and above. RAB Attempts CS Voice same, RAB Success ratio CS Voice increased from 99.4 to 99.6%.

ISHO Success Rate

SC_TAREDPIHCNOS_TAREDULI OR

The inter-system handover measurement is carried out in the serving RNC (SRNC) The RT and NRT Inter System HO differs in nature. Therefore the ISHO KPI can be spitted in RT and NRT parts •ISHO success rate for RT services (RNC_300g) •ISHO success rate for NRT services (RNC_301e)

If RRC connection drops during ISHO… TRelocOverall timer expires[8sec](in case of RT); RRCtmriRCCl cause can be: CPICH RSCP, CPICH EcNo, UL-DCH, TxPwr, DL-DPCH

If No cell found ratio >40%-- 3G cell at inter-RNC border/ 3G cell covers a coverage hole--If No cell found ratio is>90% & enough ADJGs--- Wrong reference Clock tuning( 10MHz tunn If No cell found ratio ISHO cell fou Missing ADJG/bad performing neighbors(SR/Adjacency)-- ISHO Adjacencies report---> to Compressed mode parameter set changes GSM Measurement reporting parameters changes Changes in Decision Algorithm parameters

a) AdjgTxPwrMaxTCH-- Maximum UE TX Power on TCH(HCConfiguratio b) AdjgRxLevMinHO (n)--- minimum required GSM RSSI level-----------------------> c) GsmMeasAveWindow -- kitni measurement report se RNC avg GSM RSSI value

ISHO Parameters CPICH RSCP (Event 1F) Thresholds: HHoRscpThreshold HHoRscpCancel L3 filter: HHoRscpFilterCoefficient Timers: HHoRscpTimeHysteresis HHoRscpCancelTime UE Tx Power (Event 6A) Threshold: GsmUETxPwrThrXX L3 filter: GsmUETxPwrFilterCoeff Hysteresis margin: GsmUETxPwrTimeHyst Data rate threshold HHOMAxAllowedBitrateUL

(XX=AMR,CS,NrtPS,RtPS)

1.Triggering 2.GSM measuring 3.Decision

DL DPCH power Threshold: GsmDLTxPwrThrXX Data rate threshold HHOMAxAllowedBitrateDL

2. GSM measurement reporting GsmMeasRepInterval GsmNcellSearchPeriod GsmMinMeasInterval GsmMaxMeasPeriod

3. Decision Algorithm AdjgTxPwrMaxTCH AdjgRxLevMinHO (n) GsmMeasAveWindow

Handover Execution

Multiple BSIC identification – RU20

SC_TAREDIVS_UPCTARED_OH SN

•The RNC initiates BSIC identification to the UE for max three GSM carriers simultaneously. •If the ISHO attempt to the best neighbour cell fails, a new attempt to the other cell can be started without new

–Reduces compressed mode measurements –Increase ISHO success rate •ISHO may fail if the initial BSIC identification of the best GSM cell (according to the GSM RSSI measurements) fa •Instead of waiting the penalty period and then retrying the HO with new CM measurements, the BSIC identificatio •This increases the probability of successful BSIC identification and allows another handover attempt to the secon

ISHO Failure Scenarios CM start not possible

HS-DSCH Serving Cell Change

There seems not to be a relation with poor SCC success and HSDPA retainability. SCC success rate for HSDPA and HSUPA is not very accurate in cell level as denominator is incremented in the source cell (old

UCESFL

updates we will have, compared to initial Addition/Replacement/Deletion requests.

% - 1a,1b,1c, NRT Update % - 1a,1b,1c, Events Ratio RT+NRT, HSUPA SHO Success Rate, CPICH EcN

ncrease SHO Success Rate, Target cells without neighbors are checked with their attempts & SR, Also their Avg o be added or not.---- ADJs addition & deletion of neighbors with no share

erformance(28), Active_Set_Size_for_NRT-RT_Traffic--active set update fails-- check ad/delete/replacement wind per adjacency counters-- delete/create them again, From cell level report  otal _ Number _ of _ Radio _ Links

ber _ of _ Best _ Server _ Radio _ Links

1 

t is too small SHO may fails and if too big capacity is wasted

on check with map

RT-RT_Traffic Report)

anced--- do CPICH Optimization

d optimization/External Interferer

–If UL SRB becomes overloaded, it can cause:

§Delayed HOs -> decreased KPIs §NAS signaling problems §RRC signaling problems •These problems can be avoided by optimizing the following param –Increasing ReplacementWindow –Increasing ReplacementTime –Changing the interval of the periodical reports

New value for ReplacementWindow for Event 1C must be set in rela •FMCS: increase ReplacementWindow –The amount of the ReplacementWindow increase depends No exact value can be given. •FMCS: increase ReplacementTime to 640ms

–UE measures CPICH Ec/N0 internally every 200ms –Therefore practical ReplacementTime parameter values are §Other values just cause delay (for example 320m

•Reporting happens on occasions 0 –This is valid also for event 1A and 1B •Periodical reporting parameters

–AdditionReportingInterval –ReplacementReportingInterval –DropReportingInterval (RU10 parameter) •Increase the interval of the periodical measurements or disable periodici

–Event 1C measurements are long, each occupying 160-200m –If the measurement interval is too short, the whole UL SRB b –Recommended way is to increase the interval from 0.5s

_ERO

and NRT parts

1. CM start possible?--No( Chk Admission Control rejection--> PRxTotal, PTxTotal) AC rejects CM request due to Interference(UL/DL) Radio Link(or physical channel) re-configuration failure--due to BTS/UE reasons--

Yes-- ISHO measurement Success? y1. missing ADJG/bad performing neighbors(SR/Adjacency)-- ISHO Adja 2. 2G neighbors BCCH/BSIC collision chk

3. Alarm of reference clock in 3G or in 2G 4. TCH Blocking/TCH congestion( target GSM cell is fully Loaded)/TCH 5. Compressed mode parameter set checking 6. Too low ISHO triggering threshold 7. Strict ADJG minimum threshold ADJG RxlevMinHO--(here set as -95dbm) 8. Poor GSM Coverage

se of RT); RRCtmriRCCl timer expires[8sec](in case of NRT);

rs a coverage hole---- RF & ISHO neighbor optimization k tuning( 10MHz tunning)

g/TCH congestion/TCH failures/2G traffic/2G coverage & Interference

conditions in the WCDMA layer may change => Cancellation

riggered ISHO to be greater than or equal to the threshold for event 1E

ons per UE and per active set

of max. 3 GSM carriers simultaneously

SM is close to typical value of 10 sec (GsmMeasRepInterval * GsmMaxMeasPeriod); visible benefit in reducing CM GsmMeasRepInterval= 0.5sec GsmMaxMeasPeriod= 6

a lot -> ISHO cell found ratio decrease cencies report---> to be defined & corrected

---------> --------------------->

If Max. Output power of UE is < value of AdjgTxPwrMaxTCH parameter; RNC adds Power diff GSM neighbor cell must exceed the RSSI level of AdjgRxLevMinHO-- for a handover to be p

C avg GSM RSSI value for handover nikallegi---- 1...32 MeasRep, step 1 MeasRep, (6 in TMO

H power

X ld itrateDL

CPICH Ec/Io (Event 1F) Thresholds: HHoEcNoThreshold HHoEcNoCancel L3 filter: EcNofilterCoefficient Timers: HHoEcNoTimeHysteresis HHoEcNoCancelTime

UL Quality Timer ULQualDetRepThreshold Data rate threshold HHOMAxAllowedBitrateUL

ent reporting

n Algorithm wrMaxTCH vMinHO (n) AveWindow

Execution 2G-to-3G back prevention GsmMinHoInterval

HER_ASON

multaneously. ll can be started without new inter-system measurements in compressed mode.

GSM RSSI measurements) fails, or the target GSM cell is fully loaded. ments, the BSIC identification for more than one GSM cell is performed. andover attempt to the second or third best cell without repetitive GSM measurements if the first handover attempt fails.

Multiple BSIC identification can be enabled with The MultipleBSICIdent parameter which must be set to ‘on’ to The MaxBSICIdentTime parameter limits the maximum time for BSIC identification measurements per cell. If d •The MaxBSICIdentTime parameter must be configured with a value of greater than 0 •Suggested valued for testing of MaxBSICIdentTime is 3 or 4 seconds if the overall procedure of Hand

•Feature is applicable to both CS and PS connections so parameter is applicable in both RT and NRT FMCG param

mented in the source cell (old serving cell) and numerator is incremented in the target cell (new serving cell).

Determine ###SCC success rate, SCC failure rate and failure cause distribution Check target ### cells HSDPA Setup performance (M1002C401 – M1002C428) if source •To find out which target cells are causing the SCC fa

If high SCC_FAILED_due_to_AC ### •Check target cells M1000C22 AVE_PTXTOT_CLASS •Check target cells number of simultaneous active HS

If high SCC_FAILED_due_to_BTS ### •Check target cells M1002C416/424 SETUP_FAIL_BT •Check target cells CE resource utilisation at BH using •Check NBAP Radio Link Reconfiguration Failure rate •Check SHO overhead – all branches must have enou

If high SCC_FAILED_due_to_UE ### •Check target cells M1002C415/423 SETUP_FAIL_UE •Check RB reconfiguration Failure rate •Require ICSU troubleshooting for UE types monitorin

6.If high SCC_FAILED_due_to_TRANS •Check target cells of M1002C414 SETUP_FAIL_IUB •Evaluate number of reconfiguration failure due the tra •Check M1005C128 CANC_ADD_SRNC_TRAN_STP •Check M1001C531-C533 RAB_STP_FAIL_XXX_IUB 7.If high SCC_FAILED_due_to_Others •Check RNC internal transport resources usage (DMP •Require ICSU troubleshooting

ccess Rate, CPICH EcNo Report(in % & no.) - Excellent, good, Acceptable, Poor, Bad

pts & SR, Also their Avg. EcNo & RSCP shown their,

delete/replacement window

> decreased KPIs

problems timizing the following parameters:

the periodical reports

nt 1C must be set in relation to events 1A and 1B

entWindow increase depends on AddWindow and DeletionWindow sizes

nternally every 200ms entTime parameter values are 0ms, 240ms, 640ms and above to optimally utilize averaging in the UE cause delay (for example 320ms compared to 240ms means extra 80ms delay)

orting happens on occasions 0, 200, 400, 600

surements or disable periodicity to make reporting event based

long, each occupying 160-200ms air interface time too short, the whole UL SRB bandwidth will be easily fully occupied by long measurement reports crease the interval from 0.5s to 1.0s

BSIC decoding need to be done in target GSM cell for RT BSIC decoding is not needed for NRT Cell found ratio for RT tells how easily target cell is found No Cell found ratio-- should not be greater than 40-50%.

-> PRxTotal, PTxTotal)

-due to BTS/UE reasons--- ISHO is parallel procedure at the same time

R/Adjacency)-- ISHO Adjacencies report

cell is fully Loaded)/TCH failures/2G traffic/2G Hardware Alarm

FMCS parameter set

ble benefit in reducing CM. MaxBSICIdent= 3sec

eter; RNC adds Power diff(db) to AdjgRxLevMinHO -- 0...43 dBm, step 1 dBm ( set as 30dbm in TMO) -- for a handover to be possible----- ( set as -95dbm in TMO)

p, (6 in TMO)

Force Decode BSIC feature for NRT •RAS06 ED2.1 feature •ISHO success rate improved a lot -> ISHO cell found ratio decrease

er which must be set to ‘on’ to enable the feature across an RNC on measurements per cell. If during this time no handover succeeded the handover attempt to GSM is finished. greater than 0 the overall procedure of HandOver to GSM is close to typical value of 10 sec (GsmMeasRepInterval * GsmMaxMeasPeriod); visible benef

both RT and NRT FMCG parameter sets (although BSIC verification is not always required for PS connections)

re cause distribution 401 – M1002C428) if source cells SCC failure rate is high et cells are causing the SCC failure

000C22 AVE_PTXTOT_CLASS_4 and M1000C20 AVE_PTXTOT_CLASS_3 if SCC failures due to the lack of DL power (SCC_Failed_due_ mber of simultaneous active HSDPA users

002C416/424 SETUP_FAIL_BTS_HS_DSCH_XXX resource utilisation at BH using M5001 counters for lack of UL return channel resource nk Reconfiguration Failure rate – all branches must have enough CE capacity if UE is in SHO when HS-DSCH allocation is started

002C415/423 SETUP_FAIL_UE_HS_DSCH_XXX tion Failure rate shooting for UE types monitoring

M1002C414 SETUP_FAIL_IUB_MAC_D_INT or M1002C422 SETUP_FAIL_IUB_MAC_D_BGR configuration failure due the transmission ANC_ADD_SRNC_TRAN_STP_FAIL 33 RAB_STP_FAIL_XXX_IUB_AAL2

ansport resources usage (DMPG)

FMCG parameter set

30dbm in TMO)

MaxMeasPeriod); visible benefit in reducing CM.

f DL power (SCC_Failed_due_to_AC) – this is not visible in HSDPA accessibility KPI

Usually operator maintains a list of planned values. If no planned value exists for a parameter, it can be compared to NSN default value or to the most common value in ØTarget is to find and correct discrepancies in the parameter settings. Discrepancy check can be limited to the most important objects WBTS licenses -Baseband capacity (license controlled in FlexiBTS up to HW limit) Number and type of HSDPA schedulers-- HSDPA shared schedular(in TMO)--HSDPA 48 Users per Cell Number of HSUPA schedulers-- (HSUPA Basic 24 users per BTS enabled in TMO) -Local cell grouping and capacity allocation between local cell groups -Cell maximum RF power -Antenna line properties (MHA gain, feeder loss, RX diversity branch,…)

Check allocation of local cell groups: • number of cells per LCG • baseband allocation per LCG • Is HSUPA enabled in the LCG Non-optimal LCG allocation can cause unnecessary blocking due to lack of baseband capacity in LCG or reduced HSUPA performance if unused baseband capacity is allocated to other LCG.

•If shared scheduler is used, the number of schedulers depend on Tcell parameter settings Tcell (Frame timing offset of a cell)-- WCEL parameter Each cell in a BTS uses a BTS Frame Number (BFN) counter, which is delayed by a number of chips de Tcell is used for defining the start of SCH, CPICH, Primary CCPCH and DL Scrambling Code(s) Group 1: Tcell values 0 (0 chips), 1 (256 chips) and 2 (512 chips) Group 2: Tcell values 3 (768 chips), 4 (1024 chips) and 5(1280 chips) Group 3: Tcell values 6 (1536 chips), 7 (1792 chips) and 8 (2048 chips) Group 4: Tcell values 9 (2304 chips) Cells composing a Dual Cell HSDPA cell pair must have the same Tcell value.

UE classes –HSDPA category Majority of the HSDPA UEs are still category 1-6 five code UEs having max 3.6 Mbps throughput

UE classes –HSUPA category For HSUPA, the majority of the Ues in our Example are Category 5 UEs supporting 2Mbps throughput and 10 Less than 30% of the UEs are category 6 UEs supporting higher uplink bitrates with 2ms TTI.

Propagation delay counters PRACH Propogation Delay report-- can be used to evaluate how far UEs are from the cell •Can be used to detect overshooting sites

M1006C169 PRACH_DELAY_RANGE_VALUE Counter can be used to monitor value of WCEL parameter PRACHDelayRang WCEL parameter PRACHDelayRange •1 (5 km), 2 (10 km), 3 (20 km), 4 (60 km), 5 (180 km)

Example: Antenna Tilt Excercise – KPIs Used Three main counters/KPIs was used for selecting the candidates for tilt: •1) PRACH_distance > 10 km •2) CSSR_CS (Call set-up success ratio) •3) RAB_CS_DR (RAB CS drops)

Overshooting WCEL was found based on monitoring Then decide whether it needs to be dowtilted or neigh WCEl parameter-- Cell range- 5000, 10000, 20000 (mts) PRACH Propogation Delay report

If Cell range is= 5000; If Cell range is= 10000

Class 0 to Class 20 tak hoti hai

If Cell range is= 20000;

PtxCellMax

43 dbm

40 dbm

40 dbm

PtxCPICH

33 dbm

30 dbm

33 dbm

CCCH total

35.5

32.5

35.5

Available HSDPA pwr (W)

16.4

8.2

6.5

Gammafactor

0.5

0.5

0.5

Ptx_Allowed HSDPA (W)

8.2

4.1

3.2

MPO, dB (calculated)

6.1

6.1

2.1

6

6

2

MPO from Nemo

•Reported CQI can be improved by optimisation on DL RF quality and level –Reported CQI can not be improved by direct parameter changes in NSN RAN

o the most common value in the network.

PA 48 Users per Cell

Any errors or mismatches between planned setup, configured setup, and actual hardware on site ma WBTS configuration can be checked using WBTS site manager: WBTS configuration files can also be collected using a tool such as FileCollectorTool: https://twiki.inside.nokiasiemensnetworks.com/bin/view/SEM/CommandlineTools

It collects site configuration data (including commissioning data and licenses) to xml files which can Collecting the data takes quite long time as the tool automatically logs to every WBTS to copy the da Example script for WBTS xml file mass analysis: Output data includes: BTS configuration (cells, carriers, HSDPA/HSUPA schedulers, …) BTS HW (system modules, radio modules, WSPx/WPAx/WTRx cards) BTS licenses Local cell group configuration MHA and antenna line data

Check HSDPA scheduler type and number: HSDPA scheduler type is defined in WBTS commissioning phase or by HSDPA shared scheduler lic •If shared scheduler is used, the number of schedulers depend on Tcell parameter settings o

Wrong scheduler type may cause HSDPA setup problems due to too many users, or waste baseban

ell parameter settings on the site.

by a number of chips defined by the value of Tcell. DL Scrambling Code(s) in a cell relative to BFN. The main purpose is to avoid having the overlapping SCHs

ps throughput

2Mbps throughput and 10 ms TTI. ith 2ms TTI.

Es are from the cell parameter PRACHDelayRange when the last RRC Connection Request or Cell Update of the measurement interval was received.

Classification criterias in the below table.

found based on monitoring the three main KPIs. eds to be dowtilted or neighbor relations needs to be modified. Cell range is= 5000; Cell range is= 10000

5000 10000

21 238.09m 21 476.19m

1 class=238.09m 1 class=476.19m

Cell range is= 20000;

20000

21 952.38m

1 class=952.38m

•UE estimates CQI using available information on the channel quality. –RSCP –Ec/N0 –HSDPA transmit power (signalled to UE) –Retransmission rate –Etc.

Impact of PtxCPICH power tuning Under isolated cell without any other traffic. HSDPA 15 code, 64QAM enabled, Category14 – 64QAM HSDPA UE used

nges in NSN RAN

•Both PtxCPICH 33 dBm and PtxCPICH 30 dBm measured. All other parameter remains untouched (PtxCellMax •While decreasing CPICH tx power by 3 dB (from 33 dBm to 30 dBm) –Ave reported EcNo decrease ~ 2.5 - 3 dB EcNo degraded –Ave reported CQI increases only by ~ 1 - 1.5

and actual hardware on site may lead to performance degradation.

ileCollectorTool: CommandlineTools

censes) to xml files which can be mass post-processed. s to every WBTS to copy the data, but it can collect all the files in background without user interaction.

by HSDPA shared scheduler license on Tcell parameter settings on the site.

many users, or waste baseband capacity if schedulers are underutilized.

ng the overlapping SCHs in different cells belonging to the same BTS. An SCH burst is 256 chips long.

interval was received.

64QAM HSDPA UE used

mains untouched (PtxCellMax was 40 dBm in both cases)

56 chips long.

• Capacity Bottlenecks & Analysis •Common Channel Load Monitoring- RACH, FACH, SCCPCH & PCH Load •Air Interface Load Monitoring –R99 Usage –UL capacity issues –HSDPA DL power & Usage –DL Code Usage –Number of HSPA Users •BTS Capacity monitoring •Smart phones

Overall Flowchart for Capacity Management

RU20 Reporting Suite – Capacity Reports RU20 full report set contains following capacity reports •RSRAN068 – RNC Capacity •RSRAN085 – RNC Capacity Usage •RSRAN066 – Node B Capacity •RSRAN067 – Cell Capacity •RSRAN068 – Iub Capacity •RSRAN086 – Cell Power •RSRAN097 – NRT DCH Allocations Statistics •RSRAN013 – NRT Radio Bearer Statistic

The PRACH preamble load

RACH transport channel may

PRACH load c •Increasing the •Increasing the •Increasing the •Check whethe •Evaluate whet •Upgrading the

RNC_ 978b_AveragePR

RACHCapacity parameter- HW capacity reserved for a RACH transport channel in the BTS. •RACH Capacity is indicated as the capacity of BTS to decode RACH messages in a 10 ms radio fra •also Defines the number of PRACH preamble signatures used •Range 1,2,3,4 (messages) and default = 2 •Recemmended value:4 For example if the RACHCapacity = 2 (default) then it means that the BTS can decode 2 RACH messages in every

S-CCPCH Configuration 1

• In this configuration, PCH Bit R •PCH is multiplexed with the FAC •PCH always has priority •SF64 is required to transfer the RAS06 and RU10 support a PCH bitrate • Transport block size of 80 bits & carry a

i.e. single paging record can be broa

–FACH-c and FACH-u load

=100 paging records per second

–PCH load

=a single cell can thus page maximu

Max PCH Throughput 8 kbps çè max 100

SCCPCH load is used by PS in downlink channel type selection algorithm Average SCCPCH load-- ratio between the SCCPCH transmission power and the CPICH power. •incremented when the MAC-c sends to the RRM an internal message (every 20 seconds, including 0.5s sampling

RNC_ 979 a_SCCPCHAv erageLoad 

M 1000C 64 AVE_SCCPC H_INC_PCH_LOA M 1000C 65 SCCPCH_LOAD_DENOM_0

The load of different transport channels (FACH-u, FACH-c and PCH) can be monitored separately RNC_2029b FACH-u Load RNC_2030b FACH-c Load Paging Types and PCH Load •When the network needs to contact a certain user a Paging procedure will take place. •Paging method used depends on RRC state of UE: –IDLE: Paging Type 1 - over PCH - LA/RA level - CN originated –Cell/URA-PCH: Paging Type 1 - over PCH - Cell/URA level - CN/RNC origin. –Cell-DCH/Cell-FACH: Paging Type 2 / over SRB / Cell level

Only Paging Type 1 affects the PCH Load

Example: •The average PCH Throughput approaches 7kbps several times per day •It is a clear symptom of PCH congestion during the traffic peak hour.

•Average PCH Load equal to 80..90% at RNC≡LAC level •It is a highly congested situation, a high rate of missing pages is expected and LAC splitting needs to be

•The Paging success rate starts to decrease when PCH throughput exceeds 4-4.5kbps, that is a PCH Load •Threshold of 50% PCH Load confirmed as Rule of Thumb to trigger PCH Load optimization

Paging Load Optimization: LAC splitting

•Enabling a 2nd S-CCPCH without 24 kbps paging channel will not increase the PCH capacity (8kbps), but only FA •LAC splitting is needed to reduce the Paging Load

Paging Load Optimization: DRX Cycle Length •DRX Cycle Length changed from 1280ms to 640ms •Linear region increased from 45% to 58%

Paging Load Optimization: (RU20) 24 kbps Paging Channel RU20 support PCH bitrate of 8kbps and 24 kbps –Transport block size of 240 bits & 10 ms TTI

=Up to 8 paging records per TTI allowed (3GPP) If 1 paging record broadcasted/10ms TTI=100 paging records per second= 1 single cell can Then for 8 paging records/10ms TTI=1 single cell can page 8*100=800 UEs/sec Max PCH Throughput 24 kbps çè max 800 Pages/sec per cell

Example: Updating 8 kbps to 24 kbps PCH Object

Parameter Name

Abbreviated Name

RNC RNC RNC RNC RNC RNC RNC RNC RNC

Low utilization time to trigger of the MAC-d flow Window size of the MAC-d flow throughput measurement Low throughput time to trigger of the E-DCH MAC-d flow Window size of E-DCH MAC-d flow throughput measurement Uplink traffic volume measurement low threshold UL/DL activation timer Inactivity timer for uplink 8kbps DCH Inactivity timer for uplink 16kbps DCH Inactivity timer for uplink 32kbps DCH

MACdflowutilTimetoTrigger MACdflowthroughputAveWin EDCHMACdFlowThroughputTim EDCHMACdFlowThroughputAve TrafVolThresholdULLow UL_DL_activation_timer InactivityTimerUplinkDCH8 InactivityTimerUplinkDCH16 InactivityTimerUplinkDCH32

PCH loading and FACH throughput One SCCPCH and 8 kbps PCH Case When SCCPCH is heavily loaded there is risk that FACH messages are delayed or even dropped. This may cause reconfigur

Paging Parameter Recommendations – 3G

Parameter Name (Cell level) N300

Def/Curr ent 3 2000ms

T300 Parameter Name (RNC level) WaitTimeRRCconversational WaitTimeRRCstreaming WaitTimeRRCinteractive WaitTimeRRCbackground WaitTimeRRCsubscribed WaitTimeRRCemergency WaitTimeRRCinterRATreselectio WaitTimeRRCregistration WaitTimeRRChighPrioritySignalling WaitTimeRRClowPrioritySignalling WaitTimeRRCunknown WaitTimeRRCother

Recom mended 2 2000ms (10)

Current

Recomme nded

3 3 5 5 3 1 3 5 1 5 1 0

2 2 8 8 3 1 3 5 2 2 2 2

Air/Radio Interface Load/Capacity Monitoring-- (R99 Usage, UL Capacity Issues,

•Radio interface monitoring includes resources that cause Admission control to reject establishment of new Conne

–UL Power –DL Power –DL Codes –No. of HSPA users •When HSPA is enabled in the cell, the DL and UL resources are shared between HSPA and R99 users –Both R99 and HSPA should be monitored •Reactive Measurements –Setup Failures due AC ▪RRC/RAB setup failures ▪PS Call setup failures due AC –HSDPA setup failures ▪Setup failures due UL DCH ▪Max. Number of HSDPA users reached –Rejection rates in downlink and uplink ▪SRB, AMR, CS data, PS data, separately for UL and DL –Low HSDPA throughput –Channelisation code blocking rate •Proactive Measurements –Common channel Load (RACH, FACH, PCH) –R99 Usage - Overview of cell loading status in UL/DL for R99 traffic only –HSPA throughput limitations ▪HSPA Power & Usage –Channelisation Code utilisation –Simultaneous number of HSDPA users

R99 Usage:

UL Capacity Issues:

•UL admission control start blocking incoming traffic if the RTWP (Received Total Wideband Power) and controlled pa –For years this has been solved by increasing the targets of the AC but now in 3G •1 UE transmission interferes the other UEs

–One problematic connection can make the other UEs increasing the tx power and the cell starts b ▪the coverage decreases as the UEs in the cell edge run out of tx power •The control must be returned to 3G network by decreasing the AC targets and blocking the traffic in a controlled way

System Noise •System noise (WCEL: PrxNoise) is the sum of all stationary noises; –thermal noise –interference caused by spurious emissions of other systems, –noise caused by additional equipment such as repeaters •PrxNoise can vary place to place and even time to time •PrxNoise is a RNP parameter whose setting affects the capacity of cell –PrxNoise too low: overestimation of cell load and can lead to unnecessary call blocking –PrxNoise too high: underestimation of cell load and can lead to overload situation Wrong Prx Noise level causes error to estimated power in PIE (Power Increase Estimation) and PDE (Power Decrease

Autotuning Prx noise:

•PrxNoise is updated by the autotuning algorithm which adjust Prx Noise level automatically. Enabled with Pr

PrxNoise autotuning step sizes is limited by PrxNoiseMaxTuneAbsolute parameter (by default not limited) •Recommended parameter value is 2 dB. Value 2 dB allows 4 dB range in Prx Noise autotuning functionality •It is important to verify that prxnoise in the unloaded cell is close to -105 dBm. If that is not the case the cell needs further inve PrxTarget is defined relative to PrxNoise. –M1000C12 Maximum PrxNoise Level –M1000C13 Minimum PrxNoise Level

Uplink Scheduling

RAN capacity management includes three sequential steps: 1.Counter & KPI monitoring with agreed trigger thresholds (daily/weekly) to measure resource usa 2.Detailed Blocking cause analysis & optimisation actions 3.Possible Hardware Capacity upgrade actions & verifications Capacity upgrade process involves making a decision as to whether an upgrade is required or whether the If an upgrade is required, upgrade verification is performed once the upgrade has been implemented

CCH Load includes: –RACH pre-amble –RACH-c and RACH-u load –FACH-c and FACH-u load –PCH load –SCCPCH power load

CCH load of each cell needs to be measured, for example FACH-c, FACH-u and PCCH transport channels can be m

he PRACH preamble load depends upon the no. of UE making use of RACH transport channel.

ACH transport channel may be used for the transfer of either user plane (RACH-u) or control plane (RACH-c) information.

PRACH load can be reduced by: •Increasing the number of available PRACH preamble signatures •Increasing the number of available PRACH access slots •Increasing the number of available PRACH •Check whether a large amount of signalling generated by cell, URA, location area or routing area updates. If so, consider a •Evaluate whether or not there is excessive user plane data transfer within CELL_FACH. If so, consider reducing the RLC b •Upgrading the BTS configuration in terms of an additional carrier

RNC_ 978b_AveragePRACHMessageLoad 

SUM_RACH_ACK_PREAMB LES DENOM_RACH _ACK_PREAM BLES

•M1000C176 •M1000C177

ssages in a 10 ms radio frame

2 RACH messages in every 10ms radio frame

nfiguration 1

S-CCPCH Configuration 2

n this configuration, PCH Bit Rate is limited to PCH bit rate to 8 kbps CH is multiplexed with the FACH-u and FACH-c CH always has priority F64 is required to transfer the FACH-u and FACH-c bit rates

•PCH24kbpsEnabled is conf •PCH bit rate is increased to •PCH is allocated its own sep •SF128 is allocated to the PC

RU10 support a PCH bitrate of 8 Kbps block size of 80 bits & carry a single paging record per TTI (10 ms TTI)

RU20 support PCH bitra –Transport bl –24kbps pag

aging record can be broadcasted per 10 ms TTI

cords per second

ll can thus page maximum 100 UEs per second

24Kbps paging Channel - Impact to C

ughput 8 kbps çè max 100 Pages/s per cell

•HSDPA cannot use 15 HS-PD

(B/coz Channelisation code fo

•The transmit power of the S •PtxSCCPCH1 (P •PtxSCCPCH2 (S •PtxSCCPCH3 (S •PtxSCCPCH2SF •The PtxSCCPCH2SF128 par •All parameters define the tr

conds, including 0.5s sampling period) with the common channel information

C H_INC_PCH_LOAD _LOAD_DENOM_0

%

RAS06 and RU10 support a PCH bitrate of 8 Kbps • Transport block size of 80 bits & carry a single paging record per TTI (10 ms TTI)

i.e. single paging record can be broadcasted per 10 ms TTI =100 paging records per second

=a single cell can thus page maximum 100 UEs per second Max PCH Throughput 8 kbps çè max 100 Pages/sec per cell

In case of too high Paging Load a considerable percentage of paging messages could get lost causing a bad user experience (

e.g. high traffic, LAC oversize,…). From S-CCPCH Configuration 1, we know that S-CCPCH can be shared with the FACH-c and FACH-u but It means that high Paging load has an impact upon FACH capacity when single S-CCPCH is configured.  M 1006 C 25 _ PAGING_TYPE_ 1_ATT_CN_ORIG    Paging Att empts per Cell    M 1006 C 25 PAGING_TYPE_ 1_ATT_RNC_O RIG    M 1006 C 27 _ PAGING_TYPE_ 2 _ATT   

nd LAC splitting needs to be planned.

-4.5kbps, that is a PCH Load of 50-55% approximately and is below 90% when PCH throughput exceeds 6kbps d optimization

H capacity (8kbps), but only FACH capacity.

24 kbps Paging Channel feature can increase the paging channel capacity three

So PCH throughput is increased- 24 kbps PCH

When the amount of paging messages exceeds 50% of the nominal capa •50 msg/sec for 8 kbps PCH •250 msg/sec for 24 kbps PCH

second= 1 single cell can page 100 UEs/sec =800 UEs/sec

bbreviated Name

ACdflowutilTimetoTrigger ACdflowthroughputAveWin DCHMACdFlowThroughputTimetoTrigger DCHMACdFlowThroughputAveWin rafVolThresholdULLow L_DL_activation_timer activityTimerUplinkDCH8 activityTimerUplinkDCH16 activityTimerUplinkDCH32

Actual value

new value

2 sec 3 sec 5 sec 3 sec 128 bytes 2 sec 5 sec 5 sec 5 sec

0 sec * 2 sec 1 sec 2 sec 256 bytes 1 sec 2 sec 2 sec 2 sec

d. This may cause reconfiguration process failures and PS RABs drops.

Capacity Issues,

ct establishment of new Connection/bearer

SPA and R99 users

nd Power) and controlled part of UL noise increase too much

he tx power and the cell starts breathing edge run out of tx power ic in a controlled way

unnecessary call blocking to overload situation

) and PDE (Power Decrease Estimation) algorithms, in turn causes power spiking in the uplink spectrum.

utomatically. Enabled with PrxNoiseAutotuning (WCEL)

eter (by default not limited) x Noise autotuning functionality. In this case PrxNoise should have default value -105 dBm. case the cell needs further investigation.

•PrxTarget is scheduling target for RT services and also NRT service [when there is not E-DCH connections w

•Prx_Target_PS is used for NRT scheduling when one or more E-DCH connections have been established. Th

PrxMaxTargetBTS is BTS scheduling target for HSUPA. It is suggested to configure this parameter to be greater than PrxTarget +

•NRT PS R99 packet scheduling should be done with target lower than PrxMaxTargetBTS in order to provide capa •PrxNoise autotuning should be limited Note: Requires WCEL level check of minimum PrxNoise

Object WCEL WCEL WCEL WCEL RNC

Parameter PrxMaxTargetBTS PrxTarget PrxTargetPSMin PrxTargetPSMax PrxNoiseMaxTuneAbsolute

Default 6 dB 4 dB 4 dB 4 dB not lim

y) to measure resource usage or/and blocking.

e is required or whether the network is likely to benefit from further optimisation. as been implemented

nsport channels can be multiplexed into same SCCPCH

ACH-c) information.

ea updates. If so, consider adjusting the area boundaries. onsider reducing the RLC buffer thresholds that trigger the transition to CELL_DCH

Total no. of RACH Frames=RRIndPeriod/Length of 1 RACH Frame i.e. 200ms/20ms=10

M1000C176 M1000C177

SUM_RACH_ACK_PREAMBLES DENOM_RACH_ACK_PREAMBLES

nfiguration 2

CH24kbpsEnabled is configured to enabled with this configuration CH bit rate is increased to 24 kbps CH is allocated its own separate S-CCPCH F128 is allocated to the PCH to support the increased bit rate RU20 support PCH bitrate of 8kbps and 24 kbps –Transport block size of 240 bits & 10 ms TTI –24kbps paging channel require activation of second SCCPCH channel

ng Channel - Impact to Code and power capacity

SDPA cannot use 15 HS-PDSCH codes when HSUPA 2 ms TTI is enabled with 24 kbps PCH

coz Channelisation code for 24 kbps PCH uses a larger section of the code tree)

he transmit power of the S-CCPCH is defined using the parameters: •PtxSCCPCH1 (PCH/FACH or only FACH) •PtxSCCPCH2 (Standalone PCH) •PtxSCCPCH3 (S-CCPCH for SAB) •PtxSCCPCH2SF128 (Standalone PCH SF128 / 24kbps) he PtxSCCPCH2SF128 parameter defines the transmit power of the S-CCPCH used to transfer the 24 kbps PCH ll parameters define the transmit power of the data bits (rather than the transmit power of the TFCI and Pilot bits)

record per TTI (10 ms TTI)

er 10 ms TTI

s per second

ing a bad user experience (‘non-reachability’ of UEs due to missing pages).

ACH-c and FACH-u but PCH always has priority.

configured.

ng channel capacity three times higher from the 8 kbps

ds 50% of the nominal capacity, its good time to start thinking about actions to reduce paging channel load to avoid degradation in paging s

is not E-DCH connections with the cell]

s have been established. This can be adjusted between PrxTargetPSMax and PrxTargetPSMin.

be greater than PrxTarget + PrxOffset because the Node B is more responsive than the RNC.

BTS in order to provide capacity for HSUPA users

Recommended 6 - 12 dB 4 - 8 dB 4 - 8 dB 4 - 8 dB 2 dB

o avoid degradation in paging success rate.

1.1.1.1.1.                Accessibility Analysis (CS/PS/HS) Call Setup analysis CS/PS Access Failure Optimization:

HSDPA Access Failure Optimization:

1.1.1.1.1.                Retainibility Analysis (CS/PS/HS)

Voice Drop Call Optimization: 1.       Monitor Daily Performance Reports/KPIs Worksheet---Pick Worst Offenders 2.       Identify DCR top offenders…. few cells?…. Any particular area ? Known Coverage issue? Need a 3.       Was the availability of the site 100%? 4.       Any current alarms on the site / sector? 5.       Check the alarm history especially for transmission issues (NBAP link failures/T1 fluctuations?) 6.       Check if the sector is dropping the calls due to RF (Counter: Voice_Drops_due_to_radio_int) 7.       If not RF, check if the following counters are pegged: •          Voice Drops due to Iu •          Voice Drops due to BTS •          Voice Drops due to Iur (Not applicable for Cleveland or Columbus now) •          Voice Drops due to RNC •          Voice Drops due to UE 7.       If drops are due to RF (Voice Drops due to radio int), check the Site location, Neighbors, Cell to c 8.       Need Tilt / Azimuth change to improve the area? 9.       HO issue? All Neighbor Exists? SHO….ISHO……IFHO…….?? Neighbor Adds? 10.   It might be observed on some sites that although there is no alarm and cell is carrying traffic, som R99 PS Drop Call Optimization:

2.8.1.2.3                Throughput Optimization: HSDPA Throughput Optimization:

2.8.1.2.4.

Capacity Analysis (Power, Codes, Node-B CE, RNC)

2.8.1.3                    UMTS Special Feature Optimization 2.8.1.3.1               Multi Band Load Balancing(MBLB)

Candidates for MBLB are Inter Frequency neighbors on different freq layer, if prioritized hig ·         Triggering Events ·         Target Layer Selection Criteria ·         Handover Execution

1.Four Triggering Events: Radio Bearer Setup, Inactivity in Cell-DCH, State Transition to Cell-DCH, M 2.Four Target Layer Selection Criterion: Freq Layer Preference (based on UE capability, Requeste 3.IFHO Execution: Blind HO (W/o Comp Mode)- (RB Setup Triggered & Transition to DCH state Trigge Measurement Based HO(With CM) -( Inactivity Timer Triggered & Mobility Trigg Trigger Events:

Optimization Strategy: Confirmation to the recommended parameter set in most cases. Some market/Cluster/Site specific ad

Main Parameters to keep Track /Tune and Effects: 1. MBLBRABSetupEnabled; MBLBInactivityEnabled; MBLBStateTransEnabled; MBLBMobil (Each type can be enabled on cell level independently on others, by corresponding source cell WCEL p 2. Preferred Frequency Layer Identifiers: (Parameters used to create/define the preferred Example: RNC-1 / PFLIdentifier-1 ·         LaySelWeightLoad=50 ·         LaySelWeightRSCP=0 ·         LaySelWeightPrefLayer= 100 ·         LaySelWeightBand= 0 ·         LowLoadPreference = 1 ·         PreflayerHSDPAxxx=F4 ·         PrefayerR’99xxx=F3 ·         PrefayerDCHSCxxx=F1, F2 ·         PreferBandForLayering=F1, 3. RSCP thresholds used to make upper or lower frequency bands appear more attractive: BlindHORSCPThrAbove ; BlindHORSCPThrBelow. 4. Weights allocated to each component of the Preference Score calculation LaySelWeightPrefLayer; LaySelWeightBand; LaySelWeightRSCP; LaySelWeightLoad 5. Whether or not increased weight is given to low loaded cells: LaySelLowLoadPref 6. Preferred layers for fast moving UE:

PFLFastMovUECS , PFLFastMovUEPS

2.8.2.2.                      GSM Optimization Process using OSS KPI/Counters 2.8.2.2..1.        Voice Accessibility Analysis (SDCCH/TCH) Any alarms in problem period

NO

YES

High Access Failure R

1

High RACH Failure?

YES

NO

High AG Blocking? 100% Access failure?

YES

NO YES NO

YES

Is cell barred?

High SDCCH Blocking?

YES

NO

Wrong LAC, CI in MSC?

YES

NO YES YES

High TCH Blocking?

YES

NO

DMAX =0

YES

Modify the parameters accordingly

Escalate to NSN technical support

GSM Voice Access Failure Analysis P

2.8.2.2.3        HO Failure Analysis

High HO Failures

Check the neighbor list to see if any neighbors are missing

2

NO

YES

Any alarms in surrounding area?

Are HO fails outgoing?

YES

1

NO

Problem is at the target cell

Is HOF due to blocking?

Check HO Adj report to find problematic relationship

YES

Check TCH report to verify if there’ TCH blocking

NO

NO

Check the site alarms (e.g. transmission) of target and source.

Check HO Adj report to find problematic relationship

Is the failure 100%?

YES

 

YES

Check if there’s any discrepancy of the neighbor

Check neighbor list -could be the same BCCH-BSIC

NO Check HO cause report 153

Major HO cause by quality? NO

YES

Check if there’s co &   adj-BCCH interfers NO

Neighbor optimization (e.g. HO margin, tilting)

GSM Voice Call Handover Analysis Process

YES

Review Freq plan

IDD (intelligent DL Diversity) Downlink diversity means that downlink signal is sent via two separate transceivers, which IDD method provides its best gain in low-correlated channels. Therefore, phase hopping is used to cha

Both transmitters transmit on the same frequency, but the transmission of secondary transmitter is r

Intelligent downlink diversity (IDD) doesn’t need to be enabled from BSC. It requires re-co From network side only the master TRX will be seen, the auxiliary TRX will not be seen by

4XUD (Four way UL Diversity) Four Way Uplink Diversity means that four received signals are combined together by usin IRC eliminates correlated noise received by both antennas. If no correlated noise exists, IRC behaves l The combining gain depends on Dominant Interference Ratio and angular spread of Interference Post

Regarding 4UD activation, The 4UD (as well as the IDD) is activated using the BTS manage The 4UD can only be switched on if the IDD option has been switched on earlier, so 4UD cannot be us

For activating the 4UD feature, in the BSC, the Rx DIV parameter needs to be set to Yes (Y) in order to

SHO overhead RT = 130-199 SHO overhead NRT = 30-45

Poor RAB drop for PS, HSDPA and HSUPA observed for Node B's on ATM Poor RAB drop rate observed for some sites working on ATM and when the BTS commissioning for these sites were audited it For signaling and RT services-- the bit rate should be "CBR" (constant bit rate) and for NRT services-- it has to be "UBR+" (u Initially poor performing sites were identified and rectified accordingly and then all ATM sites were audited for commis

100% HS AFR The software version was not compatiable with 4 way UL Rx Diversity enabled due to the software gli Until new version comes: WCEL - “HSUPA2msTTIenabled” – changed from “Enabled(1)” to Disabled “0” WCEL - “MaxTotalUplinkSymbolRate” – Changed from 3(5760kbps) to 2(3840 kbps)

Poor ISHO success rate observed for RT In the compressed mode it is not able to decode the BCCH BSIC or is not able to make accurate decision. GsmMaxMeasPeriod parameter tuned from 3 Sec’s to 6 Sec’s so that the probability to decode BCCH BSIC of the GSM sites c The value of GsmMaxMeasPeriod must be greater than the value of GsmNcellSearchPeriod. The value for this parameter was

HSUPA Access Failure Optimization:

Coverage issue? Need a new site ?

ailures/T1 fluctuations?) ops_due_to_radio_int)

ation, Neighbors, Cell to cell HO statistics, PRACH delay distance and Ec/No quality distribution statistics

cell is carrying traffic, some HW faults ( could be found only during the site visits) causing call drops e.g. bad fee HSDPA Drop Optimization:

q layer, if prioritized higher than the source cell layer or neighbors in different bands supported by UE The co

e Transition to Cell-DCH, Mobility. n UE capability, Requested Service, Speed etc), sition to DCH state Triggered); Triggered & Mobility Triggered).

Band Preference, Better Coverage, Traffic/Load Balancing.

Layer Priority:

t/Cluster/Site specific adjustments needed in order to meet performance KPI and balance traffic between PCS an

sEnabled; MBLBMobilityEnabled nding source cell WCEL parameter (enabling in target cell not needed)

/define the preferred network layer for each UE capability / service type combination) Up to 8 preferred

pear more attractive:

aySelWeightLoad

SelLowLoadPref

MovUEPS

2.8.2.2.2.        Drop Call Analysis (TCH) Any alarms in problem period

gh Access Failure Rate

NO

Check if sector is overshooting Check if there’s UL interference Check BTS parameters maxNumberRetransmission (RET) and nbrOfSlotsSpreadTrans (SLO)

NO

Is drop due to HO?

YES

Is drop due to HO?

YES

Check if combined configuration is used Check BTS parameters noOfBlocksForAccessGrant (AG), Set AG=0 to make AGCH have higher priority than PCH Check SDCCH capacity Check if Dynamic SDCCH Allocation feature is enabled Check if FACCH Call Set Up feature is enabled

NO YES

Is the link balanced?

NO

Is UL/DL having bad quality?

Check TCH capacity Check and modify HR parameters Check and modify HO/ADJ parameters to offload traffic to neighbor cells

NO

Is the cell serving an area it should not serve?

Is drop due to Abis or A-if?

YES

YES

Check T1

NO

.

ess Failure Analysis Process

Is drop due to TC or others?

YES

Escalate to NSN technical support

1.1.1.1.1.      Link Imbalance Analysis: Use Link Imbalance Report from KPI reports (DL-UL). It is u IDD/4UD features for DL/UL coverage improvement 1.1.1.2.        GSM Special Feature Optimization

·         IDD, 4UD, MHA IDD combined with MHA and 4UD gives best results accord The MHA and 4UD can improve the performance on highly

Increase HR penetration

heck neighbor list could be the same CCH-BSIC

view Freq plan

·         IDD, MHA IDD combined with MHA gives also good results but if the c So this configuration is recommended if the cell is 3-5 dB

·         IDD, 4UD IDD improves DL more compared to 4UD on UL. This config

Expected Results: Drive test – Bigger coverage area (2-3 dB more in ru – Better average RxQual (25 % better) – Less HO attempts (25 % less) and Cell re – Better (E)GPRS data rate • OSS data – More traffic (31%) – Better DCR (0.26%) – Less HO attempts (~23%)

ate transceivers, which are fed to separate antennas. se hopping is used to change phasing between adjacent burst, which decreases correlation between the main an

econdary transmitter is randomly delayed to decrease correlation between the main and secondary transmitters

BSC. It requires re-commissioning of the BTS. During the commissioning with BTS manager softwa RX will not be seen by BSC.

bined together by using several combining techniques (Interference Rejection Combining (IRC), Max oise exists, IRC behaves like a normal Maximum Ratio Combiner allowing traffic to flow without requiring noise re ead of Interference Post Detection Maximum Ratio.

using the BTS manager software during the BTS commissioning. During the commissioning the 4UD ier, so 4UD cannot be used without IDD. set to Yes (Y) in order to be able to activate 4UD.

for these sites were audited it was found that the problem was with the bit rate definition for RT and NRT services. rvices-- it has to be "UBR+" (unspecified bit rate). tes were audited for commissioning recheck.

d due to the software glitch, temporary solution untill next software load

BCCH BSIC of the GSM sites can be increased e value for this parameter was changed from 6 to 12 value

ibution statistics

ng call drops e.g. bad feeder or antenna or MHA problem?

supported by UE The complete MBLB feature basically consists of following three operations:

affic/Load Balancing.

IFHO types:

ce traffic between PCS and AWS bands or between multiple carriers within a specific band.

nation) Up to 8 preferred frequencies can be listed for each 16 capability & service combination .

Call Analysis (TCH) YES

High Drop Call Rate

1

Check the severity of the alarm

Check the fault situation

2

YES

YES

Is DL worse?

Check transmitter path including transmitter.

NO

Check receiver path incl receiver, cables, MHA, connectors. YES

Make modification: Downtilts, Azimuth, power adjust

Check Rx-level distribution report

Is bad quality due to interference?

NO

Check for coverage hole Check T1

YES

Check idle UL interference

In-band interference? Check frequency plan External interference? Spectrum Analyzer Check Receiver Check TRX

Escalate to NSN technical support

GSM Voice Call Analysis Process

.

PI reports (DL-UL). It is useful to check if both DL and UL are balanced. verage improvement etc.

ure Optimization

gives best results according the drive test and OSS data. e performance on highly unbalanced cells (UL limited) and improve coverage in DL with IDD.

o good results but if the cell is highly unbalanced (UL limited) it could not compensate DL totally (cell will be stil nded if the cell is 3-5 dB UL limited.

to 4UD on UL. This configuration is recommended if the cell is 1-3 dB UL limited (the gain of 4UD is less in rulal)

e area (2-3 dB more in rural, better indoor, better overlapping in HO) RxQual (25 % better) pts (25 % less) and Cell re-selections (24 % less) data rate

pts (~23%)

tion between the main and auxiliary transmitter.

d secondary transmitters. Phase hopping could increase interference levels.

h BTS manager software the IDD option needs to be switched on.

Combining (IRC), Maximum Ratio Combining (MRC), to get a unique combined signal with better q without requiring noise reduction.

ommissioning the 4UD feature needs to be switched on.

DL totally (cell will be still UL limited).

in of 4UD is less in rulal).

d signal with better quality.

FMCX FMCG

FMCS

Parameter DL DPCH Transmission power Cancellation Offset (db) DL DPCH Tx Power threshold for AMR (db) DL DPCH Tx Power threshold for CS (db) DL DPCH Tx Power threshold for NRT PS (db) DL DPCH Tx Power threshold for RT PS (db) GSM HO cause by CPICH EcNo GSM HO cause by CPICH RSCP GSM HO cause by DL DPCH TX Power GSM HO cause by UE TX Power GSM HO cause by UL DCH Quality GSM Neighbor Cell Search Period (MEasRep) IMSI Based GSM HO ISHO Cancellation cause by CPICH EcNo ISHO Cancellation cause by CPICH RSCP ISHO Cancellation cause by DL DPCH TX Power ISHO Cancellation cause by UE TX Power Maximum BSIC Identification Time (s) Maximum Measurement Period (MeasRep) Maximum Averaging Window (MeasRep) Measurement reporting Interval Maximum Interval between Hos (s) Maximum Interval between Repetitive inter_RAT SLHOs (s) Minimum measurement Interval (s) Name UE TX Power Filter Coefficient UE Tx Power threshold for AMR (db) UE Tx Power threshold for CS (db) UE Tx Power threshold for NRT PS (db) UE Tx Power threshold for RT PS (db) UE Tx Power Time Hysteresis Usage of Directed Retry of AMR call Inter-System Handov Parameter Active Set Weighting coefficient Addition Reporting Interval Addition Time Addition Window (db) Allow E-DCH usage EcNo offset (db) change origin CPICH Ec/No filter Coefficient CPICH Ec/No HHO Cancellation (db) CPICH Ec/No HHO Cancellation Time CPICH Ec/No HHO Threshold (db)

CPICH Ec/No HHO Time Hysteresis CPICH EcNo offset E-DCH usage Removal (db) CPICH RSCP HHO Cancellation (db) CPICH RSCP HHO Cancellation Time CPICH RSCP filter Coefficient CPICH RSCP HHO Threshold (db) CPICH RSCP HHO Time Hysteresis Detected Set reporting Based HHO Drop Reporting Interval Drop Time Drop Window (db) IMSI Based SHO Maximum Active Set Size Name Replacement Reporting Interval Replacement Time Replacement Window (db)

FMCI

Parameter DL DPCH Tx Power threshold for AMR (db) DL DPCH Tx Power threshold for CS (db) DL DPCH Tx Power threshold for NRT PS (db) DL DPCH Tx Power threshold for RT PS (db) IFHO cause by CPICH EcNo IFHO cause by CPICH RSCP IFHO cause by DL DPCH TX Power IFHO cause by UE TX Power IFHO cause by UL DCH Quality IMSI Based IFHO Maximum Measurement Period (MeasRep) MBLB due to Mobility EcNo offset (db) MBLB due to Mobility RAB Combinations Maximum Averaging Window (MeasRep) Measurement reporting Interval Maximum Interval between Hos (s) Maximum Interval between Repetitive IF SLHOs (s) Minimum measurement Interval (s) Name Neighbour cell Search Period (MeasRep) UE TX Power Filter Coefficient UE Tx Power threshold for AMR (db) UE Tx Power threshold for CS (db) UE Tx Power threshold for NRT PS (db)

UE Tx Power threshold for RT PS (db) UE Tx Power Time Hysteresis

Core PCS NRT

Bou

RT HSDPA HSDPA Multi RT -3 -3 -3 -1 -3 1- Enabled 0- Disabled 0- Disabled 1- Enabled 1- Enabled 1- Enabled 0- Disabled 1- Enabled 0- Disabled 0 0- Not Allowed 1- Enabled 1- Enabled 1- Disabled 1- Enabled 0- Feature not Used 0- Feature not U 0- Feature not U 0- Feature not U 0- Feature not U 6 6 2- 0.5s 10 30 2 8- Approx. 10ms -3 -3 -1 -3 13- 1280ms 0- Disabled Core PCS NRT

RT 0 2- 0.5s 11- 320ms 3 0 3- Apprx. 600ms -17 13- 1280ms -19

Bou HSDPA

HSDPA Multi

RT

3

1.5

3

3

-17

-17

-17

-11

-19

-19

-19

-13

13- 1280ms 2 -102 13- 1280ms 3- Apprx. 600ms -105 11- 320ms 2- Enabled 0- No periodical reporti 12- 640ms 6 0- Not Allowed 3 2- 0.5s 12- 640ms 6

RT -1 -3 -1 -3 1- Enabled 1- Enabled 0- Disabled 0- Disabled 0- Disabled 0- Not Allowed 6 2 0- All 6 2- 0.5s 10 30 2 0 8- Approx. 10ms -3 -3 -1

11- 320ms

11- 320ms

13- 1280ms

13- 1280ms

-102

-102

-102

-109

-105 11- 320ms

-105 11- 320ms

-105 11- 320ms

-112 12- 640ms

2- 0.5s 12- 640ms 6

2- 0.5s 12- 640ms 3.5

2- 0.5s 12- 640ms 6

0- No periodical 12- 640ms 6

11- 320ms 2.5

11- 320ms 1.5

11- 320ms 2.5

12- 640ms 6

Core PCS NRT

0- Disabled

Bou HSDPA

0- Disabled

HSDPA Multi

0- Disabled

RT

1- Enabled

-3 13- 1280ms

Boundary NRT HSDPA

Core HSDPA Multi

RT

1- Enabled

1- Enabled

1- Enabled

2

2

0- Feature not U 0- Feature not 2

NRT

Boundary HSDPA

1- Enabled 0-Disabled

NRT

0-Disabled 1- Enabled

HSDPA

0-Disabled 0-Disabled

2

Core HSDPA Multi

RT

NRT

HSDPA

3

12- 640ms 0

3

3

3

12- 640ms 0

-14

-14

-11

-17

-17

-17

-16

-16

-13

-19

-19

-19

13- 1280ms 13- 1280ms

13- 1280ms

13- 1280ms

11- 320ms

11- 320ms

-112

-112

-109

-112

-112

-112

-115 12- 640ms

-115 13- 1280ms

-112 12- 640ms

-115 11- 320ms

-115 11- 320ms

-115 11- 320ms

2- 0.5s 12- 640ms 6

2- 0.5s 13- 1280ms 6

2- 0.5s 12- 640ms 6

0- No periodical2- 0.5s 12- 640ms 12- 640ms 6 6

2- 0.5s 13- 1280ms 6

11- 320ms 2.5

13- 1280ms 3

11- 320ms 2.5

12- 640ms 6

13- 1280ms 3

Boundary NRT HSDPA

1- Enabled

1- Enabled

11- 320ms 2.5

Core HSDPA Multi

1- Enabled

RT

0- Disabled

NRT

0- Disabled

HSDPA

0- Disabled

HSDPA Multi

1- Enabled 0-Disabled

0- Feature not Used

HSDPA Multi

RT

Core_NRT SHOOverhead Reduction NRT HSDPA HSDPA Multi

3

2

-17

-17

-19

-19

Boundary_NRT SHOOverhea RT

13- 1280ms

11- 320ms

-112

-112

-115 11- 320ms

-115 11- 320ms

2- 0.5s 12- 640ms

2- 0.5s 12- 640ms 4

6

11- 320ms 2.5

HSDPA Multi

0- Disabled

11- 320ms 2

Boundary_NRT SHOOverhead Reduction NRT HSDPA HSDPA Multi

2

-14 -16

13- 1280ms -112

-115 11- 320ms 2- 0.5s 12- 640ms 4

11- 320ms 2

Parameter

Value

DCellHSDPAEnabled HSDPA64QAMallowed MaxTotalUplinkSymbolRate HSPDSCHCodeSet HSUPA2MSTTIEnabled DLmaxBitRateSF16 AMRLCRelatTXWindowRate7Size AMRLCRelatTXWindowRate8Size  MaxBitRateNRTMacdflow MaxNbrOfHSSCCHCodes HSPDSCHMarginSF128 DPCHOverHSPDSCHThreshold HSPA72UsersEnabled HSDPA14MbpsPerUser  DCellHSDPACapaHO FDPCHEnabled  DCellHSDPAFmcsId FRLCEnabled

Enabled Enabled 5760 54560 Enabled 1080 kbps 512 750 0 4 2 5 Enabled Enabled Disabled Disabled #NAME? Enabled

WCEL_AC WCEL_AC WCEL_AC WCEL_AC wbts hc AC RNFC

WCEL

Cell DL Power 20W 40W 60W 30W

MaxDLPowerCapability 430 460 478 448

AC

AC Service Affecting

PtxCellMax PtxMaxHSDPA 430 430 460 460 478 478 448 448

LC

LC

PS

Non-Service Aff PtxTarget PtxOffset 425 5 455 5 473 5 443 5

PtxTargetPSMax 420 450 468 438

PS PS Non-Service Affecting PtxTargetPSMin 360 390 408 378

WCEL

PtxHighHSDPA PtxPrimaryCPI Pwr CH 425 330 455 354 473 354 443 354

AC

PtxTargetHSDPA 420 450 468 438

DUMP :

RNC database

6/5/2014 1:52

Total

1

0

RNC

10

10

0

RNAC

10

10

0

RNFC

10

9

1

RNHSPA

10

0

10

RNMOBI

10

3

7

RNPS

10

7

3

RNRLC

10

10

0

RNTRM

10

8

2

WRAB

25

10

15

WBTS

2937

0

2937

WCEL

13949

6728

7221

WCEL power

13949

3404

10545

WCEL_AC

13949

11979

1850

WCEL_AC power

13949

5167

8662

WCEL_HC common

13949

2439

11510

WCEL_HC MBLB

9174

168

9006

WCEL_HC LTE

8408

8408

0

WCEL_LC

13673

276

0

WCEL_LC power

13952

5177

8652

WCEL_PC

8871

5078

0

WCEL_PS

1256

4787

0

13952

2148

3838

WCEL_SIB common

6225

7724

0

WCEL_SIB MBLB

7619

1555

4775

WCEL_SIB LTE

4104

4304

5541

WCEL_PS power

CLASS RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC

Parameters RNACId AMRLoadTxPower AMRNumofReconf AMRwinSizeSCload AdjustmentPeriod AdjustmentRatio BitRateSetPSNRT DCHSlopeOfTheCurve DLInLoopPCStepSizeCPC DLLoadSource DLmaxBitRateSF128 DLmaxBitRateSF16 DLmaxBitRateSF256 DLmaxBitRateSF32 DLmaxBitRateSF64 DLpuncturingLimit DownlinkInnerLoopPCStepSize EDCHSlopeOfTheCurve ExpectReorderingPDCP FmaxPeriodPDCP FmaxTimePDCP FreePtxSafetyMarginStr PrachBetaC120 PrachBetaC15 PrachBetaC30 PrachBetaC60 PrachBetaD120 PrachBetaD15 PrachBetaD30 PrachBetaD60 HSFACHDiscardTimer HSFACHResetTimer HeaderCompressionMethod ICRHostOperatorId LoadBasedAMRCodecMode MaxAdjustmentStep MaxFreezingTime MaxHeaderPDCP MaxNumberOfReAttemptsCong MinPrefChange NonTCPspacePDCP PCPreamble PCrangeDL PeriodULRCAMR

default 1 1 10 10 2 0 0 2 2 2 75 600 35 309 133 5 1 20 0 256 5 0 10 13 12 11 15 15 15 15 2 2 0 255 0 8 30 168 2 3 15 0 15 255

Celcom 1 1 10 10 2 0 0 2 2 2 75 600 35 309 133 7 1 20 0 256 5 0 10 13 12 11 15 15 15 15 0 0 0 0 0 8 30 168 2 3 15 0 22 10

RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNAC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC

PrefSubtract PrxNoiseMaxTuneAbsolute SRBDelay SignallingLinkInactivityTimer StepSizeForDCHBLER StepSizeForEDCHBLER TCPspacePDCP TDMultForHSDPAStreaming TFDCHZeroBitRate ULmaxBitRateSF128 ULmaxBitRateSF16 ULmaxBitRateSF256 ULmaxBitRateSF32 ULmaxBitRateSF64 ULmaxBitRateSF8 ULpuncturingLimit UlScrCodeMin UpLinkInitialTransmitPowerMode UpLinkRecoveryPeriodPowerMode WaitTimeRRCbackground WaitTimeRRCconversational WaitTimeRRCemergency WaitTimeRRChighPrioritySignalling WaitTimeRRCinterRATreselection WaitTimeRRCinteractive WaitTimeRRClowPrioritySignalling WaitTimeRRCother WaitTimeRRCregistration WaitTimeRRCstreaming WaitTimeRRCsubscribed WaitTimeRRCunknown CommonMCC CommonMNC CommonMNCLength ConnectionRetryCounter DLBLERConfInterval EmergencyCallRedirectTimer ExtendedULDLactivationTmr LCSSupportForAnchoring LCSfunctionality MSActivitySupervision N302 N304 N308 PWSMDuration

2 2 255 4 7 7 4 4 30 30 3 3 15 15 6 6 16384 16384 30 30 273 273 15 15 120 120 60 60 500 500 7 7 1000000 1000000 0 0 0 0 5 8 3 2 1 1 1 2 3 5 5 8 5 2 0 2 1 5 3 2 3 3 1 2 65535 0 65535 0 0 0 10 10 23 23 60 0 0 0 0 0 0 1 29 29 7 7 2 2 2 2 5 5

RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC

PWSMExceededTrafficDur PageRep1stInterv PageRep2ndInterv RANAPprocInitWait RTservicesForPS RestrictionInterval SIB11_priority SIB12_priority SIB15_priority SIB18_priority SIB19Priority SIB1_priority SIB2_priority SIB3_priority SIB4_priority SIB5_priority SIB6_priority SIB7_priority SecOMSIpAddress ServingOMS ServingOMSAdminSetting ServingOMSSwoRequest T302 T304 T305 T307 T308 T309 T314 T316 T317 ToAWE_NRT_DCH_tti10 ToAWE_NRT_DCH_tti20 ToAWE_NRT_DCH_tti40 ToAWE_RT_DCH_tti10 ToAWE_RT_DCH_tti20 ToAWE_RT_DCH_tti40 ToAWE_Speech ToAWS_NRT_DCH_tti10 ToAWS_NRT_DCH_tti20 ToAWS_NRT_DCH_tti40 ToAWS_RT_DCH_tti10 ToAWS_RT_DCH_tti20 ToAWS_RT_DCH_tti40 ToAWS_Speech

20 7 20 10 2 60 4 4 4 4 3 2 2 3 3 3 3 1 0.0.0.0

20 7 20 30 2 60 4 4 0 4 3 2 2 3 3 3 3 1 0.0.0.0

1 0 0 10 4 3 4 2 8 2 3 4 10 10 10 10 10 10 5 25 25 25 25 25 25 15

1 0 0 12 4 3 4 2 8 2 3 4 7 7 10 10 10 10 5 15 15 25 25 25 25 25

RNC RNC RNC RNC RNC RNC RNC RNC RNC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC RNFC

TraceLCSHorizAccur TraceLCSPriority TraceLCSVertAccur TraceLCSWaitPeriod ULBLERConfInterval UL_DL_activation_timer UL_DLcapacityReqWait maxCallCapability maxThroughput AMRWithEDCH AMRWithHSDSCH AutomDLPlanUpdEnabled CCCHforCUCallowed CMmasterSwitch CUCforPCHtoDCHallowed CVUserInactInSignConnRel CapaSmartphoneEnabled DCHBitRateBalancing DCHScheOverIur DLOptimisationUsage DynUsageHSDPAReturnChannel EUTRAdetection EmergencyCallISHOSupport EmergencyCallRedirect FRLCEnabled FastDormancyEnabled FlexUpgrUsage HLSModeSelection HSDPA16KBPSReturnChannel HSDPA48UsersEnabled HSDPADynamicResourceAllocation HSDPAMobility HSPAInterRNCMobility HSPAOverIurExt ISHOCancellation ISHOInIurMobility IntelligentEmergencyCallISHOSupport IuPSrelWait3G2GMultiServ MIBPLMNIdIncluded MOCNenabled PBSpolicy PSOpThroUsage PWSMDriftAllowed PostVerifPeriodDLSynch PowerBalancing

30 1 70 10 23 2 10

0 0 0 0 23 2 40

0 0 0 1 0 1 1 0 1 0 1 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 4 0 0 1 0 0 0 0

1 1 0 1 0 1 1 1 1 0 1 1 1 0 0 1 1 1 0 1 1 1 1 2 0 1 0 0 4 0 0 1 15 0 0 0

RNFC RNFC RNFC RNFC RNFC RNFC RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA

RABDRAEnabled RRCSetupCCHEnabledR99 SLHOCmAllowedNRT SignConnActivitySupervision WPSCallRestriction WireLessPriorityService WeightForARP1 WeightForARP2 WeightForARP3 ATOSRBsOnHSPA N10msCPCOptObjective N10msCQIDTXTimer N10msCQIFeedbackCPC N10msInacThrUEDRXCycle N10msInacThrUEDTXCycl2 N10msMACDTXCycle N10msMACInacThr N10msUEDPCCHburst1 N10msUEDPCCHburst2 N10msUEDRXCycle N10msUEDTXCycle1 N10msUEDTXCycle2 N10msUEDTXLongPreamble N2msCPCOptObjective N2msCQIDTXTimer N2msCQIFeedbackCPC N2msInacThrUEDRXCycle N2msInacThrUEDTXCycl2 N2msMACDTXCycle N2msMACInacThr N2msUEDPCCHburst1 N2msUEDPCCHburst2 N2msUEDRXCycle N2msUEDTXCycle1 N2msUEDTXCycle2 N2msUEDTXLongPreamble S10msCPCOptObjective S10msCQIDTXTimer S10msCQIFeedbackCPC S10msInacThrUEDRXCycle S10msInacThrUEDTXCycl2 S10msMACDTXCycle S10msMACInacThr S10msUEDPCCHburst1 S10msUEDPCCHburst2

0 0 1 4 0 0 100 100 100 30 1 7 4 7 3 1 0 0 0 2 2 2 1 1 7 3 7 5 3 0 0 0 2 3 4 1 1 7 4 7 3 1 0 0 0

0 1 1 4 0 0 100 100 100 30 1 7 4 7 3 1 0 0 0 2 2 2 1 1 7 3 7 5 3 0 0 0 2 3 4 1 1 7 4 7 3 1 0 0 0

RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA

S10msUEDRXCycle S10msUEDTXCycle1 S10msUEDTXCycle2 S10msUEDTXLongPreamble S2msCPCOptObjective S2msCQIDTXTimer S2msCQIFeedbackCPC S2msInacThrUEDRXCycle S2msInacThrUEDTXCycl2 S2msMACDTXCycle S2msMACInacThr S2msUEDPCCHburst1 S2msUEDPCCHburst2 S2msUEDRXCycle S2msUEDTXCycle1 S2msUEDTXCycle2 S2msUEDTXLongPreamble V10msCPCOptObjective V10msCQIDTXTimer V10msCQIFeedbackCPC V10msInacThrUEDRXCycle V10msInacThrUEDTXCycl2 V10msMACDTXCycle V10msMACInacThr V10msUEDPCCHburst1 V10msUEDPCCHburst2 V10msUEDRXCycle V10msUEDTXCycle1 V10msUEDTXCycle2 V10msUEDTXLongPreamble V2msCPCOptObjective V2msCQIDTXTimer V2msCQIFeedbackCPC V2msInacThrUEDRXCycle V2msInacThrUEDTXCycl2 V2msMACDTXCycle V2msMACInacThr V2msUEDPCCHburst1 V2msUEDPCCHburst2 V2msUEDRXCycle V2msUEDTXCycle1 V2msUEDTXCycle2 V2msUEDTXLongPreamble CPICHECNOSRBHSPA CPICHECNOThreEDCH2MS

2 2 2 1 1 7 3 7 5 3 0 0 0 2 3 4 1 1 6 4 6 2 1 4 0 0 1 2 2 1 1 6 3 6 4 3 0 0 0 1 3 4 1 -6 -6

2 2 2 1 1 7 3 7 5 3 0 0 0 2 3 4 1 1 6 4 6 2 1 4 0 0 1 2 2 1 1 6 3 6 4 3 0 0 0 1 3 4 1 -6 -6

RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA

CPICHRSCPThreEDCH2MS CPICHRSCPThreSRBHSDPA DCellVsMIMOPreference DiscardTimerHSCSVoice EDCHCTSwitchGuardTimer EDCHMACdFlowThroughputAveWin EDCHMACdFlowThroughputRelThr EDCHMACdFlowThroughputTimetoTrigger EDCHMACdflowtputStrTtT EDCHMaxHARQReTxStr EDCHMaxHarqReTxSRB EDCHMaxHarqReTxSRB2MS EDCHMaxNumberOfHARQReTx EDCHQOSClasses EnablDelayHHO EnablDelayStand FDPCHAllocMinInterval FDPCHAndSRBOnHSPATC FDPCHSetupEC FactorEDCHMaxBRPSstream FactorEDCHMaxBitRate FactorEDCHMaxBitRate2NRT FactorEDCHMaxBitRate3NRT HSDPACPICHCTSRepPer HSDPACPICHEcNoThreshold HSDPACellChangeRepetitionTime HSDPAChaTypeSwitchWindow HSDPAInitialBRULStrNRT HSDPAMaxCellChangeRepetition HSDPAMinBRULStrNRT HSDPAPeakRateLimitRABMax HSDPAPriority HSDPARRCdiversity HSDPASRBWindow HSDPAinitialBitrateUL HSDPAminAllowedBitrateUL HSDSCHCTSwitchGuardTimer HSDSCHGuardTimerLowThroughput HSDSCHQoSclasses NBRForPri0DL NBRForPri0UL NBRForPri10DL NBRForPri10UL NBRForPri11DL NBRForPri11UL

136 -103 0 2 4 6 1 25 25 3 3 4 3 63 6 5 3 127 4065 18 15 14 13 2 -10 10 0 3 4 3 1 1 1 2 3 3 5 30 63 0 0 0 0 0 0

136 -103 0 0 4 4 1 10 25 3 3 4 3 15 6 5 3 127 4065 18 15 16 17 2 -18 10 0 3 4 3 1 1 1 2 1 1 5 0 15 0 0 0 0 0 0

RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA

NBRForPri12DL NBRForPri12UL NBRForPri1DL NBRForPri1UL NBRForPri2DL NBRForPri2UL NBRForPri3DL NBRForPri3UL NBRForPri4DL NBRForPri4UL NBRForPri5DL NBRForPri5UL NBRForPri6DL NBRForPri6UL NBRForPri7DL NBRForPri7UL NBRForPri8DL NBRForPri8UL NBRForPri9DL NBRForPri9UL HSPDSCHAdjustPeriod HappyBitDelayConditionEDCH HsdschGuardTimerHO InacUserNbrXXXOverNRT InacUsersOverloadFact InactCPCBatOptT InactCPCNoBatOptT InactNonCPCBatOptT InactNonCPCNoBatOptT MACdflowthroughputAveWin MACdflowthroughputRelThr MACdflowthroughputTimetoTrigger MACdflowtputStrTtT MACdflowutilRelThr MACdflowutilStrTtT MACdflowutilTimetoTrigger MaxBitRateNRTMACDFlow MaxCSDelayRNCETTI10 MaxCSDelayRNCETTI2 MaxCSDelayUE MaxEHARQReTxCSAMR10 MaxEHARQReTxCSAMR2 MaxReWaitTime MaxReWaitTime2msTTI MaxReWaitTime2msTTI16

0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 10 3 5 2 90 0 48 0 0 6 0 25 25 1 10 0 0 5 8 6 1 2 32 60 60

0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 5 3 5 2 90 36 48 0 0 4 0 0 25 1 10 0 0 0 0 0 0 0 32 60 0

RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNHSPA RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI

MaxReWaitTimeRT MaxSetOfEDPDCHCSAMR10 MaxSetOfEDPDCHCSAMR2 NRTRBBRWithEDCHStr PeriodicityForSI PowerOffsetEHARQVoice PowerOffsetForSI T1HSCSVoice T1HSFACH TGPLAMRHSDPAInterFreq TGPLHSDPAInterFreq ThresholdMaxEDPDCHSR1920kbps ThresholdMaxEDPDCHSR3840kbps ThresholdMaxEDPDCHSR960kbps UPResAllocInCellDCHWait WeightDCHBG WeightDCHTHP1 WeightDCHTHP2 WeightDCHTHP3 WeightHSPABG WeightHSPATHP1 WeightHSPATHP2 WeightHSPATHP3 AnchorFmciIdentifier AnchorFmcsIdentifier AnchorHopiIdentifier AnchorHopsIdentifier CellReselectionObservingTime DRRCForHSDPALayerServices DefaultAuthorisedNetworkId DirectedRRCForHSDPALayerEnhanc DisablePowerInHSDPALayeringDecision EcnoDifferenceThreshold EnableULQualDetRep FastDormOverCpcPri FastUECancel FastUEPeriod FastUEThreshold GANetwARFCN GANetwBCC GANetwNCC GapPositionSingleFrame GsmHandoverAMR GsmHandoverCS GsmHandoverNrtPS

10 0 0 1 6 0 3 1 1 4 4 16 32 8 3 15 90 65 40 25 100 75 50 0 0 0 0 16 204 0 0 0 16 0 0 1 10 3 65535 255 255 4 1 0 0

10 0 0 1 6 0 3 0 0 4 4 16 32 8 3 15 90 65 40 25 100 75 50 0 0 0 0 16 524 0 1 0 16 1 0 1 10 3 0 0 0 4 1 0 1

RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI

GsmHandoverRtPS HSCAHORabCombSupport HSDPACPICHAveWindow HSDPACPICHReportPeriod HSDPACellChangeMinInterval HSDPALayerLoadShareThreshold HSDPASIRErrorAveWindow HSDPASIRErrorFilterCoefficient HSDPASIRErrorReportPeriod HSDPASIRErrorServCell HSDPASIRErrorTargetCell HSDPAServCellWindow HSPADRNCEcNoOffset HSPADRNCSIRErrorOffset IBTSRabCombSupport LHOMinNrtDchAllocTime LowerRxTxTimeDiff MBLBGuardTimer MaxCellReselections MaxNumISHOClPerAS MultipleBSICIdent NCHOFilterCoeffComLoadMeasDRNCCell NCHOHystComLoadMeasDRNCCell NCHOThrComLoadMeasDRNCCell PreferBandForLayering RANAPCause1LoadHO RANAPCause2LoadHO RANAPCause3LoadHO RANAPCause1ServHO RANAPCause2ServHO RANAPCause3ServHO SLHOHandlingOfCellLoadMeasNotAct SLHOProfileBackgroundPSNRTData SLHOProfileConvCSSpeech SLHOProfileConvCSTData SLHOProfileConvPSRTData SLHOProfileConvPSSpeech SLHOProfileInteractivePSNRTData SLHOProfileStreamCSNTData SLHOProfileStreamPSRTData SLHOUseBackgroundPSNRTData SLHOUseConvCSSpeech SLHOUseConvCSTData SLHOUseConvPSRTData SLHOUseConvPSSpeech

0 1 3 1 3 3 3 5 1 -6 -4 4 6 6 1 20 874 10 3 1 0 15 300 70 0 43 0 0 41 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0

0 1 3 1 3 3 3 5 1 -14 -12 4 6 6 0 20 874 10 0 1 1 15 300 70 1 43 0 0 41 0 0 0 4 4 0 0 0 0 0 0 3 3 0 0 0

RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNMOBI RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS

SLHOUseInteractivePSNRTData SLHOUseStreamCSNTData SLHOUseStreamPSRTData ServBtwnHSDPALayers ServicesToHSDPALayer TGPLdoubleframeNRTPSgsm TGPLdoubleframeNRTPSinterFreq TGPLsingleframeAMRgsm TGPLsingleframeAMRinterFreq TGPLsingleframeCSgsm TGPLsingleframeCSinterFreq TGPLsingleframeNRTPSgsm TGPLsingleframeNRTPSinterFreq TGPLsingleframeRTPSgsm TGPLsingleframeRTPSinterFreq TRelocOverall TRelocPrep UEQualityRepInterv UETxPowerMaxRef ULQualDetRepThreshold UpperRxTxTimeDiff ActivationTimeOffset CellDCHtestTmr CrQueuingTimeDL CrQueuingTimeUL DCHUtilBelowDowngradeThr DCHUtilHighAveWin DCHUtilHighBelowNRTDataRateThr DCHUtilHighTimeToTrigger DCHUtilLowerAveWin128 DCHUtilLowerAveWin256 DCHUtilLowerAveWin32 DCHUtilLowerAveWin384 DCHUtilLowerAveWin64 DCHUtilLowerDowngradeThr128 DCHUtilLowerDowngradeThr256 DCHUtilLowerDowngradeThr32 DCHUtilLowerDowngradeThr384 DCHUtilLowerDowngradeThr64 DCHUtilLowerTimeToTrigger128 DCHUtilLowerTimeToTrigger256 DCHUtilLowerTimeToTrigger32 DCHUtilLowerTimeToTrigger384 DCHUtilLowerTimeToTrigger64 DCHUtilMeasGuardTime

0 0 0 3 0 4 4 4 4 4 4 4 4 4 4 8 6 4 24 1 1174 300 0 4 4 6 100 6 20 200 200 200 200 200 16 32 8 64 16 140 140 140 140 140 6

0 0 0 3 1 4 4 4 4 4 4 4 4 4 4 8 6 4 24 1 1174 500 0 4 4 6 100 6 20 100 100 100 100 100 64 64 8 64 16 80 80 80 80 80 2

RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS

DCHUtilRelAveWin DCHUtilRelThrDL DCHUtilRelThrUL DCHUtilRelTimeToTrigger DCHUtilUpperAveWin128 DCHUtilUpperAveWin256 DCHUtilUpperAveWin32 DCHUtilUpperAveWin384 DCHUtilUpperAveWin64 DCHUtilUpperDowngradeThr128 DCHUtilUpperDowngradeThr256 DCHUtilUpperDowngradeThr32 DCHUtilUpperDowngradeThr384 DCHUtilUpperDowngradeThr64 DCHUtilUpperTimeToTrigger128 DCHUtilUpperTimeToTrigger256 DCHUtilUpperTimeToTrigger32 DCHUtilUpperTimeToTrigger384 DCHUtilUpperTimeToTrigger64 DLOptimisationProhibitTime DLOptimisationPwrOffset FactorMinPBSinterval HSFACHDiscardTimerDTCH HSFACHRestTimerDTCH ICRDowngradeDelayTimer InactDetForStreamingRB InactivityTimerDownlinkDCH128 InactivityTimerDownlinkDCH16 InactivityTimerDownlinkDCH256 InactivityTimerDownlinkDCH32 InactivityTimerDownlinkDCH320 InactivityTimerDownlinkDCH384 InactivityTimerDownlinkDCH64 InactivityTimerDownlinkDCH8 InactivityTimerUplinkDCH128 InactivityTimerUplinkDCH16 InactivityTimerUplinkDCH256 InactivityTimerUplinkDCH32 InactivityTimerUplinkDCH320 InactivityTimerUplinkDCH384 InactivityTimerUplinkDCH64 InactivityTimerUplinkDCH8 IurPriority PriForBackARP1 PriForBackARP2

100 8 8 20 200 200 200 200 200 64 128 16 256 32 400 400 400 400 400 2 20 2 8 2 3 1 2 5 2 5 2 2 3 5 2 5 2 5 2 2 3 5 0 0 0

100 8 8 20 100 100 100 100 100 64 128 16 64 16 200 200 200 200 200 2 20 2 0 0 0 1 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 0 3 2

RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNPS RNRLC RNRLC RNRLC RNRLC

PriForBackARP3 PriForConvOnHSPA PriForHSFACHDTCH PriForIntSignaling PriForIntTHP1ARP1 PriForIntTHP1ARP2 PriForIntTHP1ARP3 PriForIntTHP2ARP1 PriForIntTHP2ARP2 PriForIntTHP2ARP3 PriForIntTHP3ARP1 PriForIntTHP3ARP2 PriForIntTHP3ARP3 PriForSRBsOnHSPA PriForStreamARP1 PriForStreamARP2 PriForStreamARP3 RTOverNRTPriThresholdARP1 RTOverNRTPriThresholdARP2 RTOverNRTPriThresholdARP3 ToCellFACHinTest TrafVolPendingTimeDL TrafVolPendingTimeUL TrafVolThresholdDLHigh TrafVolThresholdDLHighDCH128 TrafVolThresholdDLHighDCH16 TrafVolThresholdDLHighDCH256 TrafVolThresholdDLHighDCH32 TrafVolThresholdDLHighDCH64 TrafVolThresholdDLHighDCH8 TrafVolThresholdULHigh TrafVolThresholdULHighDCH128 TrafVolThresholdULHighDCH16 TrafVolThresholdULHighDCH256 TrafVolThresholdULHighDCH32 TrafVolThresholdULHighDCH64 TrafVolThresholdULHighDCH8 TrafVolThresholdULLow TrafVolTimeToTriggerDL TrafVolTimeToTriggerUL ULLoadStateTTT AMRLCBufMaxOverbook2NRT AMRLCBufMaxOverbook3NRT AMRLCHSFACHPSMaxDAT AMRLCHSFACHPSMaxMRW

0 14 0 12 11 11 11 8 8 8 5 5 5 15 13 13 13 11 11 11 1 200 200 7 8 6 9 7 7 5 7 8 6 8 7 7 5 128 0 0 4 13 18 15 12

1 14 0 12 11 9 6 11 8 5 10 7 4 15 13 13 13 11 11 11 1 400 400 7 8 7 9 7 7 7 4 8 7 8 7 7 7 512 0 0 4 13 18 0 0

RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC

AMRLCHSFACHPSMaxRST AMRLCHSFACHPSPeriodMax AMRLCHSFACHPSPeriodMin AMRLCHSFACHPSPollPDU AMRLCHSFACHPSPollSDU AMRLCHSFACHPSPollWin AMRLCHSFACHPSTriggers AMRLCRespHSFACHandRACH HSFACHAMRLCRespHSRACH AMRLCMaximumBufferUE100 AMRLCMaximumBufferUE1150 AMRLCMaximumBufferUE1250 AMRLCMaximumBufferUE150 AMRLCMaximumBufferUE1k AMRLCMaximumBufferUE200 AMRLCMaximumBufferUE300 AMRLCMaximumBufferUE50 AMRLCMaximumBufferUE500 AMRLCMaximumBufferUE750 AMRLCmaximumBufferUE400 AMRLCOnDCHOfNRTPSCount AMRLCOnDCHOfNRTPSFilterReTX AMRLCOnDCHOfNRTPSMaxDAT AMRLCOnDCHOfNRTPSMaxMRW AMRLCOnDCHOfNRTPSMaxRST AMRLCOnDCHOfNRTPSPeriodMax AMRLCOnDCHOfNRTPSPeriodMin AMRLCOnDCHOfNRTPSPollPDU AMRLCOnDCHOfNRTPSPollSDU AMRLCOnDCHOfNRTPSPollWindow AMRLCOnDCHOfNRTPSTriggers AMRLCOnDCHOfSRB136MaxDAT AMRLCOnDCHOfSRB136PeriodMax AMRLCOnDCHOfSRB136PeriodMin AMRLCOnDCHOfSRB136PollPDU AMRLCOnDCHOfSRB136PollSDU AMRLCOnDCHOfSRB136PollWindow AMRLCOnDCHOfSRB136Triggers AMRLCOnDCHOfSRB34MaxDAT AMRLCOnDCHOfSRB34PeriodMax AMRLCOnDCHOfSRB34PeriodMin AMRLCOnDCHOfSRB34PollPDU AMRLCOnDCHOfSRB34PollSDU AMRLCOnDCHOfSRB34PollWindow AMRLCOnDCHOfSRB34Triggers

12 200 4 23 1 70 5940 50 50 25 230 250 35 200 50 60 14 95 120 70 10 80 15 12 12 140 4 23 1 70 56849 40 100 4 23 1 70 1988 30 112 4 23 1 70 1988

0 0 0 0 0 0 0 0 0 25 230 250 35 125 50 60 14 95 120 70 10 80 15 12 24 300 4 23 1 70 24081 40 100 4 23 1 70 1988 30 112 4 23 1 70 1988

RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC

AMRLCOnDCHOfStreamCount AMRLCOnDCHOfStreamDiscardTime AMRLCOnDCHOfStreamFilterReTX AMRLCOnDCHOfStreamMaxDAT AMRLCOnDCHOfStreamMaxMRW AMRLCOnDCHOfStreamMaxRST AMRLCOnDCHOfStreamPeriodMax AMRLCOnDCHOfStreamPeriodMin AMRLCOnDCHOfStreamPollPDU AMRLCOnDCHOfStreamPollSDU AMRLCOnDCHOfStreamPollWindow AMRLCOnDCHOfStreamTriggers AMRLCOnEDCHOfNRTPSCount AMRLCOnEDCHOfNRTPSMaxDAT AMRLCOnEDCHOfNRTPSMaxMRW AMRLCOnEDCHOfNRTPSMaxRST AMRLCOnEDCHOfNRTPSPeriodMax AMRLCOnEDCHOfNRTPSPeriodMin AMRLCOnEDCHOfNRTPSPollPDU AMRLCOnEDCHOfNRTPSPollSDU AMRLCOnEDCHOfNRTPSPollWindow AMRLCOnEDCHOfNRTPSTriggers EDCHStrPSCount EDCHStrPSDiscardTime EDCHStrPSMaxDAT EDCHStrPSMaxMRW EDCHStrPSMaxRST EDCHStrPSPeriodMax EDCHStrPSPeriodMin EDCHStrPSPollPDU EDCHStrPSPollSDU EDCHStrPSPollWindow EDCHStrPSTriggers AMRLCOnFACHOfPSMaxDAT AMRLCOnFACHOfPSMaxMRW AMRLCOnFACHOfPSMaxRST AMRLCOnFACHOfPSPeriodMax AMRLCOnFACHOfPSPeriodMin AMRLCOnFACHOfPSPollPDU AMRLCOnFACHOfPSPollSDU AMRLCOnFACHOfPSPollWindow AMRLCOnFACHOfPSTriggers AMRLCOnFACHOfSRBMaxDAT AMRLCOnFACHOfSRBPeriodMax AMRLCOnFACHOfSRBPeriodMin

10 20 80 15 12 12 140 4 23 1 70 32273 10 15 12 12 200 4 23 1 70 3857 10 20 15 12 12 200 4 23 1 70 3601 15 12 12 200 4 23 1 70 6100 30 200 4

10 20 80 15 12 12 140 4 23 1 70 15889 10 15 12 24 300 4 23 1 70 3857 10 20 15 12 12 200 4 23 1 70 3601 15 12 12 200 4 23 1 70 6100 30 200 4

RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC

AMRLCOnFACHOfSRBPollPDU AMRLCOnFACHOfSRBPollSDU AMRLCOnFACHOfSRBPollWindow AMRLCOnFACHOfSRBTriggers AMRLCOnHSDSCHOfNRTPSCount AMRLCOnHSDSCHOfNRTPSFilterReTX AMRLCOnHSDSCHOfNRTPSMaxDAT AMRLCOnHSDSCHOfNRTPSMaxMRW AMRLCOnHSDSCHOfNRTPSMaxRST AMRLCOnHSDSCHOfNRTPSPeriodMax AMRLCOnHSDSCHOfNRTPSPeriodMin AMRLCOnHSDSCHOfNRTPSPollPDU AMRLCOnHSDSCHOfNRTPSPollSDU AMRLCOnHSDSCHOfNRTPSPollWindow AMRLCOnHSDSCHOfNRTPSTriggers HSDSCHStrDiscardTime HSDSCHStrPSCount HSDSCHStrPSFilterReTX HSDSCHStrPSMaxDAT HSDSCHStrPSMaxMRW HSDSCHStrPSMaxRST HSDSCHStrPSPeriodMax HSDSCHStrPSPeriodMin HSDSCHStrPSPollPDU HSDSCHStrPSPollSDU HSDSCHStrPSPollWindow HSDSCHStrPSTriggers AMRLCRelatTXWindowRate1 AMRLCRelatTXWindowRate1Size AMRLCRelatTXWindowRate2 AMRLCRelatTXWindowRate2Size AMRLCRelatTXWindowRate3 AMRLCRelatTXWindowRate3Size AMRLCRelatTXWindowRate4 AMRLCRelatTXWindowRate4Size AMRLCRelatTXWindowRate5 AMRLCRelatTXWindowRate5Size AMRLCRelatTXWindowRate6 AMRLCRelatTXWindowRate6Size AMRLCRelatTXWindowRate7 AMRLCRelatTXWindowRate7Size AMRLCRelatTXWindowRate8 AMRLCRelatTXWindowRate8Size AMRLCRespTimeDCH10 AMRLCRespTimeDCH20

23 1 70 1988 10 66 15 12 12 200 4 23 1 70 122385 20 10 66 15 12 12 200 4 23 1 70 65041 1 2 4 12 8 12 48 96 172 200 200 375 480 512 10625 3875 10 12

23 1 70 1988 10 66 15 12 24 300 4 23 1 70 24337 20 10 66 15 12 12 200 4 23 1 70 16145 1 2 4 12 8 12 48 96 172 200 200 375 480 512 1200 750 10 12

RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNRLC RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM

AMRLCRespTimeDCH40 AMRLCRespTimeDCHRevHSDSCH AMRLCRespTimeRevEDCH AMRLCRespTimeEDCH AMRLCRespTimeFACHAndRACH AMRLCRespTimeHSDSCHRevDCH AMRLCRespTimeHSDSCHRevEDCH AMRLCRespTimeSRBHSPA AMRLCSRBHSPAMaxDAT AMRLCSRBHSPAPeriodMax AMRLCSRBHSPAPeriodMin AMRLCSRBHSPAPollPDU AMRLCSRBHSPAPollSDU AMRLCSRBHSPAPollWindow AMRLCSRBHSPATriggers AMRLCTXWindowSizeSRB2 AMRLCTXWindowSizeSRB3 AMRLCTXWindowSizeSRB4 PDUSizeBitRateThr PDUSizeCodeThreshold PDUSizeSIRThr SDUdiscardModeRTPS UMRLCEVoiceDiscardTime Af122AMRDL Af122AMRUL Af59AMRDL Af59AMRUL Af144CSStreDL Af144CSStreUL Af576CSStreDL Af576CSStreUL Af64CSConDL Af64CSConUL Af128And136DCCHDL Af128And136DCCHUL Af16And17DCCHDL Af16And17DCCHUL Af32And34DCCHDL Af32And34DCCHUL AfFACHCCDL AfFACHCIDL AfFACHContUL AfFACHSDL AfFACHUDL AfRACH208UL

16 14 10 10 50 10 10 10 30 116 4 23 1 70 1988 2 2 1 3584 10 90 1 10 60 60 60 60 100 100 100 100 100 100 8 8 60 60 30 30 10 10 10 10 10 10

16 14 10 10 50 15 15 10 30 116 4 23 1 70 1988 2 2 1 3584 5 90 0 0 60 60 60 60 100 100 100 100 100 100 8 8 60 60 30 30 10 10 10 10 10 10

RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM

AfRACHContDL AfRTHSDPA AfRTHSUPA AfSRBOnHSDPA AfSRBOnHSUPA Af128NRTDCHDL Af128NRTDCHUL Af16NRTDCHDL Af16NRTDCHUL Af256NRTDCHDL Af256NRTDCHUL Af32NRTDCHDL Af32NRTDCHUL Af384NRTDCHDL Af384NRTDCHUL Af64NRTDCHDL Af64NRTDCHUL Af8NRTDCHDL Af8NRTDCHUL AfPCHContUL AfPCHDL Af128RTPSAMDL Af128RTPSAMUL Af128RTPSUMDL Af128RTPSUMUL Af16RTPSAMDL Af16RTPSAMUL Af16RTPSUMDL Af16RTPSUMUL Af256RTPSAMDL Af256RTPSUMDL Af32RTPSAMDL Af32RTPSAMUL Af32RTPSUMDL Af32RTPSUMUL Af64RTPSAMDL Af64RTPSAMUL Af64RTPSUMDL Af64RTPSUMUL Af8RTPSAMDL Af8RTPSAMUL Af8RTPSUMDL Af8RTPSUMUL EchoRequestSending HSDPAFlowControlLowThresholdDedicatedVCC

10 100 100 1 1 100 100 100 100 100 100 100 100 100 100 100 100 100 100 10 10 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 0 35

10 100 100 1 1 60 60 60 60 60 60 60 60 60 60 60 60 60 60 10 10 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 0 35

RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM RNTRM WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB

HSDPAFlowControlLowThresholdSharedVCC HSDPAFlowControlTargetDelayDedicatedVCC HSDPAFlowControlTargetDelaySharedVCC IPStackErrorTimer IuDATree IubDATree IurDATree N3Requests NRTDCHFlowControlTargetDelay SignallingToDSCP T3Response THP1DelaySensitivitySwitch THP2DelaySensitivitySwitch THP3DelaySensitivitySwitch ToAWEOffsetForOverbook ToAWSOffsetForOverbook ULCACSwitch UsedSRBALCSet DeltaSIRAfterDownlink DeltaSIRAfterUplink DeltaSIRDownlink DeltaSIRUplink DownlinkOrthog EDCHBLERAdjCSVoice10 EDCHBLERAdjCSVoice2 EbNoDCHOfPSNRTPriQua EbNoDCHOfPSNRTPrim EbNoDCHOfPSNRTSec EbNoDCHOfPSNRTSecQua EbNoDCHOfPSNRTSelQuaDL EbNoDCHOfPSNRTSelQuaUL EbNoDCHOfPSStrPriQua EbNoDCHOfPSStrPrim EbNoDCHOfPSStrSec EbNoDCHOfPSStrSecQua EbNoDCHOfPSStrSelQuaDL EbNoDCHOfPSStrSelQuaUL EbNoDCHOfSRB136 EbNoDCHOfSRB136Qua EbNoDCHOfSRB34 EbNoDCHOfSRB34Qua EbNoDCHRateGainCSAMR EbNoDCHRateGainCSData EbNoDCHRateGainPSData EbNoDCHRateGainSFDown

35 205 205 30 3 1 2 5 100 34 10 0 0 0 10 100 2 3 7 7 15 15 50 1 2 -20 80 65 -13 127 127 -20 80 65 -13 63 31 80 -20 80 -20 -5 -20 -20 15

35 205 205 30 3 1 2 5 100 34 10 0 0 0 10 100 2 3 7 7 15 15 50

-20 80 65 -13 127 127 -20 80 65 -13 63 31 100 -20 100 -20 -5 -20 -20 15

WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB WRAB

EbNoDCHRateGainSFUp EbNoDCHRateGainSRB EbNoDCHRxDiv2 EbNoDCHRxDiv4 EbNoDCHTxDiv EbNoEDCHCSAMR EDCHPSStr128Kbps EDCHPSStr16Kbps EDCHPSStr248Kbps EDCHPSStr32Kbps EDCHPSStr64Kbps EDCHPSStr8Kbps EDCHPSStrOver248Kbps EbNoDCHOfCSDataNT EbNoDCHOfCSDataNTQua EbNoDCHOfCSDataT EbNoDCHOfCSDataTQua EbNoDCHOfCSNBAMR122 EbNoDCHOfCSNBAMR59 EbNoDCHOfCSNBAMRQua EbNoDCHOfCSNBAMRb EbNoDCHOfCSNBAMRc EbNoDCHOfCSWBAMR1265 EbNoDCHOfCSWBAMRQua EbNoDCHOfCSWBAMRb L1BLERTEDCHVoice10 L1BLERTEDCHVoice2 SIRDPCCHInitialDCH128 SIRDPCCHInitialDCH16 SIRDPCCHInitialDCH256 SIRDPCCHInitialDCH32 SIRDPCCHInitialDCH4 SIRDPCCHInitialDCH64 SIRDPCCHInitialDCH8 SIRDPCCHInitialDCHHS128 SIRDPCCHInitialDCHHS16 SIRDPCCHInitialDCHHS256 SIRDPCCHInitialDCHHS32 SIRDPCCHInitialDCHHS4 SIRDPCCHInitialDCHHS64 SIRDPCCHInitialDCHHS8 SIRDPCCHInitialDCHMax SIRDPCCHInitialDCHMin SIRDPCCHInitialDCHOffset SIRDPCCHInitialDCHRxDiv2

7 -5 -30 -40 0 40 60 75 55 70 65 80 50 80 -27 80 -27 80 80 -20 -5 -10 80 -20 -5 -10 -10 45 75 45 60 90 45 80 75 105 75 90 120 75 110 60 -60 0 -30

7 -5 -30 -40 0 60 75 55 70 65 80 50 80 -27 80 -27 80 80 -20 -5 -10 80 -20 -5

45 75 45 60 90 45 80 45 75 45 60 90 45 80 60 -60 -20 -30

WRAB WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS

SIRDPCCHInitialDCHRxDiv4 AdminWBTSState BTSFallbackEnabled BTSSupportForHSPACM BlindHOIntraBTSQCheck BlindTFdetectionUsage BroadcastSIB15 BroadcastSIB15_2 BroadcastSIB15_3 DCHnumberRL DCNLinkStatus DCNSecurityStatus DLORLAveragingWindowSize DSCPHigh DSCPLow DSCPMedDCH DSCPMedHSPA DediMeasRepPeriodCSdata DediMeasRepPeriodPSdata DedicatedMeasReportPeriod DelayThresholdMax DelayThresholdMax2msTTI DelayThresholdMid DelayThresholdMid2msTTI DelayThresholdMin DelayThresholdMin2msTTI HARQRVConfiguration HSDPA14MbpsPerUser HSDPACCEnabled HSDPAIurWeight HSDPAULCToDSCP HSDPAUserHysterisis HSDPAUserThreshold HSUPADLCToDSCP HSUPAXUsersEnabled ICREnabled IPBasedRouteIdIub IPBasedRouteIdIub2 IPNBId InactCACThresholdATM InactCACThresholdIP InactUsersCIDThreshold IntelligentSDPrioHO IubTransportFallback IubTransportMedia

-40 2 0 0 0 0 0 0 0 8 0 255 0 46 0 34 26 3 1 5 10000 10000 7000 7000 5000 5000 1 0 0 0 34 0 1 34 0 0 0 0 0 170 80 6 0 15 0

-40 0 0 0 0 0 0 0 0 0 1 0 0 46 0 34 26 3 1 5 10000 10000 7000 7000 5000 5000 1 1 1 0 34 0 0 34 60 0 0 0 0 170 80 6 0 0 1

WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS

LoadControlPeriodPS MDCBufferingTime MaxDCHuserRateRLDL MaxDCHuserRateRLUL MaxNumberEDCHLCG MeasFiltCoeff MinUDPPortIub NbrOfOverbookedHSDPAUsers NodeBRABReconfigSupport OverbookingSwitch PDUSize656WithHSDSCH PSAveragingWindowSize PSRLAveragingWindowSize PWSMInUse PWSMRemCellSDBeginHour PWSMRemCellSDBeginMin PWSMRemCellSDEndHour PWSMRemCellSDEndMin PWSMShutdownBeginHour PWSMShutdownBeginMin PWSMShutdownEndHour PWSMShutdownEndMin PWSMWeekday ProbabilityFactorMax ProbabilityFactorMax2msTTI PrxAlpha PrxMeasAveWindow PrxTargetPSAdjustPeriod PtxAlpha PtxDPCHmax PtxDPCHmin PtxMeasAveWindow RACHloadIndicationPeriod RFSharingState RRIndPeriod RRMULDCHActivityFactorCSAMR RRMULDCHActivityFactorCSNTData RRMULDCHActivityFactorCSTData RRMULDCHActivityFactorPSBackgr RRMULDCHActivityFactorPSStream RRMULDCHActivityFactorPSTHP1 RRMULDCHActivityFactorPSTHP2 RRMULDCHActivityFactorPSTHP3 RRMULDCHActivityFactorSRB ReleaseTimerForSharedHSDPAallocation

20 50 3 3 0 5 1026 48 0 0 2 4 0 0 22 0 6 0 22 0 6 0 0 1000 1000 0 10 5 0 -30 -28 10 1 0 40 50 95 100 95 95 95 95 95 1 3

20 0 0 0 160 5 1026 48 0 1 2 4 0 0 22 0 6 0 22 0 6 0 0 1000 1000 0 20 5 0 -30 -28 10 1 0 40 50 95 100 50 50 50 50 50 1 1

WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS WBTS

SatelliteIubUsage SchedulingPeriod SharedHSDPAVCCSelectionMethod SharedHSDPAallocation TQMId ToAWEOffsetNRTDCHIP ToAWEOffsetRTDCHIP ToAWSOffsetNRTDCHIP ToAWSOffsetRTDCHIP WinACRABsetupDL WinACRABsetupUL WinLCHSDPA WinLCHSUPA DLCECapacity HSDPACodeCapacity ULCECapacity autoConfMode autoConfPlanReady autoConfStatus bburruFlag nbrRepeater numFa type

0 100 0 0 0 0 0 0 0 5 5 5 5 0 5 0 1 0 0 0 0 1 3

0 100 0 40 1 5 0 10 0 5 5 5 5 0 5 0 1 0 0 0 0 1 3

Deviation

Remarks

ModificatioRNC

1 wcel wcel wcel wcel wcel wcel wcel wcel wcel wcel

0 ok 1

0 Related to HS Cell FACH feature which is not active. Related to HS Cell FACH feature which is not active. 1 0 1

0 ok ok

Cell DL Po MaxDLPower PtxCellMax PtxMaxHSD PtxTarget PtxOffset PtxTargetP PtxTargetP PtxHighHS PtxPrimary PtxTargetH

1 0 RNC 127 usYes 1

127

0 ok ok 1 0 ok ok ok ok ok ok ok 1 0 ok

1

0 1 0 RNC 127 usYes 1

127

0 ok 1

0 1

1

0 ok 1

0 ok ok 1

0 ok ok 1

0 ok

1 0 ok Based on license in RNC Based on license in RNC 0 ok ok 1

0 ok 1

0 ok ok 1 0 ok 1 0 ok 1 0 ok ok ok ok ok 1 0 ok 1

0 ok 1

0 ok 1

0 1 0 RNC 127 usYes 1 0 RNC 127 usYes 1

0 ok 1

0 ok ok 1 0 ok 1

0 ok ok 1 0 ok ok 1

127 127

0 ok 1

0 ok 1

0 RNC 127 usYes 1 0 RNC 127 usYes 1

0

1 0

127 127

1

0 1

0 ok 1 0 ok 1 0 ok 1

0

1

0 ok

1

0 ok ok 1

0 1

0 ok 1 0 ok 1

0 ok 1

0 ok RNC 127 usYes 1

127

0 ok Load and Service Based HO active in 6 RNCs. RNC 111 has Service Based HO only. RNC 11 1

0 ok 1

0 ok 1

0 ok ok ok ok ok ok ok 1

0 ok ok ok ok ok ok

1

0 ok ok ok ok ok 1

0 ok ok ok ok ok ok ok 1

0

1 0 ok 1 0 ok 1 0 ok ok 1 0 ok 1 0 ok 1 0 ok ok 1 0 ok ok

ok 1

0 ok ok ok 1 0 ok ok ok ok 1

0 RNC127 usiYes RNC127 usiYes 1 0 ok 1

0 ok ok 1 0 ok 1

0 ok ok 1

0

127 127

1

0 RNC 127 usYes 1

127

0 RNC 127 usYes RNC 127 usYes 1

127 127

0 RNC 127 usYes 1

127

0 RNC 127 usYes 1

127

0 RNC 127 usYes RNC 127 usYes 1

127 127

0 RNC 127 usYes RNC 127 usYes 1

127 127

0 RNC 127 usYes 1

127

0 RNC 127 usYes 1

127

0 RNC 127 usYes RNC 127 usYes 1

127 127

0 RNC 127 usYes RNC 127 usYes 1

127 127

0 RNC 127 usYes 1 0 RNC 127 usYes

127

1

127

0 Related Related Related Related Related Related Related Related Related Related Related Related Related Related 1

to to to to to to to to to to to to to to

Transport Transport Transport Transport Transport Transport Transport Transport Transport Transport Transport Transport Transport Transport

Bearer Bearer Bearer Bearer Bearer Bearer Bearer Bearer Bearer Bearer Bearer Bearer Bearer Bearer

Tuning Tuning Tuning Tuning Tuning Tuning Tuning Tuning Tuning Tuning Tuning Tuning Tuning Tuning

and and and and and and and and and and and and and and

this this this this this this this this this this this this this this

feature feature feature feature feature feature feature feature feature feature feature feature feature feature

is is is is is is is is is is is is is is

inactive. inactive. inactive. inactive. inactive. inactive. inactive. inactive. inactive. inactive. inactive. inactive. inactive. inactive.

RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC

126 126 126 126 126 126 126 126 126 126 126 126 126 126

and and and and and and and and and and and and and and

RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC

127 127 127 127 127 127 127 127 127 127 127 127 127 127

is is is is is is is is is is is is is is

u u u u u u u u u u u u u u

20W

30W 430 430 430 425 5 420 360 425 330 420

40W 448 448 448 443 5 438 378 443 354 438

60W 460 460 460 455 5 450 390 455 354 450

478 478 478 473 5 468 408 473 354 468

CLASS WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL

Parameters AdminCellS CSGroupId CTCHCapaH CUCEcNoTh CUCRSCPTh EVAMCapabi MultiplePL PCH24kbps PRACHDela PSGroupId PWSMAVLim PWSMAVLim PWSMAVLim PWSMAVLim PWSMAVPw PWSMAVPw PWSMCellG PWSMEXPwr PWSMEXUsr PWSMSDLim PWSMSDLim PWSMSDLim PWSMSDLim PWSMSDLim PWSMSDPw PWSMSDPw PWSMSDPw PWSMShutd PWSMShutd PowerSave PtxPrimary RACHCapac RNARGroup RRCconnRe RRCconnRe RelocComm SACB ShutdownS ShutdownW ToAWE_CC ToAWS_CC

WCEL WCEL WCEL WCEL WCEL WCEL WCEL WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC

UTRAN_DRX WCELCSCNI WCELPSCNI WCelState NumofEagc NumofErgH cellLevel AMROverS AMROverTra AMROverT AMROverTx AMROverTxT AMRSF AMRTarget AMRTargetT AMRTarget AMRTarget AMRTargetT AMRUnder AMRUnderTr AMRUnder AMRUnderT AMRUnderT AdminPICSt AssignedPI CCHSetupE CIRForFDP CPICHEcNo CPICHRSCP CPICHtoRef CSAMRMod CSAMRMod CableLoss CodeTreeOp CodeTreeOp CodeTreeU DPCHOverH DRRCprxMa DRRCprxOff DRRCptxMa DRRCptxOff EVAMInUse EvamDInit EvamNumPh EvamTKeep

WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC WCEL_AC

EvamTSwe FDPCHCode FDPCHEnab FDPCHSetu HSDPA64QA HSDPA64Us HSDPAenab HSFACHEna HSFACHRel HSPA72User HSPDSCHCo HSPDSCHMa HSUPA16QA HSUPA2MST HSUPAUser MHA MaxBitRat MaxBitRat MaxCodeRe MaxNbrOfH PICState PrxLoadMa PrxLoadMa PrxOffsetW PtxCellMax PtxDLabsM PtxFDPCHM PtxFDPCHM PtxMaxHSD PtxOffset PtxOffset PtxOffset PtxOffsetH PtxOffsetW PtxPSstre PtxTargetH PtxTargetT PtxTargetTo RefServFor RxDivIndica SIRDPCCHO SRBBitRat SRBMapRRC TPCComman UEtxPower

WCEL_AC WCEL_AC WCEL_AC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC

UEtxPower UEtxPower UsersPerH BlindHOEcN BlindHORSC CellWeight DCellHSDP DLLoadStat HSDPAFmcgIdentifier HSDPAFmciIdentifier HSDPAFmcsIdentifier HSPAFmcsIdentifier DirectedRR DirectedRR HHoMaxAllo HHoMaxAllo HSCapabil HSCapabili HSDPALaye HSLoadSta HSLoadStat HSLoadSta HSLoadStat HSLoadSta HSPACapa IncomingLT LHOCapaRe LHOCapaRe LHODelayO LHODelayO LHODelayOF LHODelayO LHOHardBl LHOHardBlo LHOHystTi LHOHystTim LHOHystTim LHOHystTi LHONRTTraf LHONumbUE LHONumbUE LHOPwrOff LHOPwrOff LHOResRat LHOWinSiz

WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_HC WCEL_LC WCEL_LC WCEL_LC WCEL_LC WCEL_LC WCEL_LC WCEL_LC WCEL_LC WCEL_LC WCEL_LC WCEL_LC WCEL_LC WCEL_LC WCEL_LC

LHOWinSize LHOWinSize LHOWinSiz LHOWinSiz LHOWinSiz LHOWinSize LHOWinSiz LoadBased LoadBased MBLBInacti MBLBMobili MBLBRABSe MBLBRABSe MBLBStateT MIMOHSDP MaxNumbe NrtFmcgIdentifier NrtFmciIdentifier NrtFmcsIdentifier PFLIdentifier RTWithHSDPAFmcgIdentifi RTWithHSDPAFmciIdentifie RTWithHSDPAFmcsIdentifi RTWithHSPAFmcsIdentifie RtFmcgIdentifier RtFmciIdentifier RtFmcsIdentifier ServHONum ServHONum ServHOPeri ServHOPeri MaxIncrInt NonHSEve PrxMeasFilt PrxNoise PrxNoiseAu PrxOffset PrxTarget PrxTargetM PrxTotalRep PtxMeasFilt PtxOffset PtxTarget PtxTotalRep RACHloadRe

WCEL_LC WCEL_LC WCEL_LC WCEL_LC WCEL_LC WCEL_LC WCEL_LC WCEL_LC WCEL_LC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PC WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS

RACHmeasFi RSEPSEve RTWPEvent RTWPEven RTWPMeasFi TCPEventE TCPEvent TCPMeasFil VoiceOverr DPCModeCh PRACHRequi PTxPICH PowerOffs PO1_15 PO1_30 PO1_60 PowerRamp PtxAICH PtxBCCHH PtxBCCHH PtxMaxEHI PtxOffsetE PtxOffset PtxOffset PtxOffsetE PtxOffset PtxOffsetH PtxPrimar PtxPrimary PtxSCCPCH PtxSCCPCH PtxSCCPCH PtxSCCPCH PtxSecSCH RsrvdSigna AltScrambl CPCEnable DCellAndM DCellHSDP DeltaPrxM DeltaPrxM DeltaPtxM DeltaPtxM EDCHMinSe EDCHMinim

WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS

FachLoadM FachLoadT HSDPAMPO HSDPAMaxB HSFACHActT HSFACHActi HSFACHActi HSFACHRLCT HSFACHVol HSPAQoSEn HSUPAEnab HspaMultiN InitialBitR InitialBitR MIMOEnabl MIMOWith6 MaxNumbHS MaxNumbH MaxNumber MaxNumber MaxNumbe MaxNumbe MaxNumbe MaxNumbe MaxTotalUp MinAllowed MinAllowed NASsignVol NASsignVol NumberEDC OCULNRTDC OCdlNrtDCH PBSgranted PBSgranted PBSgranted PrxLoadMa PrxMaxOrig PrxMaxTarg PrxTargetP PrxTargetP PrxTargetP PrxTargetP PtxHighHS PtxMargin PtxTargetP

WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_PS WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB

PtxTargetP PtxTargetP PtxTargetP PtxTargetP PtxThresho RachLoadM RachLoadT TargetNSE TrafVolThr ULLoadSta ULLoadStat ACBarredLi AICHTraTim AbsPrioCell AllowedPre AllowedRA CellBarred CellSelQua Cell_Reser HCS_PRIO InterFreqSc InterRATSca IntraFreq_C KforCTCH LTECellRese N300 N312 N312Conn N313 N315 NCr NbrOfSCCP NforCTCH NonHCSNcr NonHCSTcr NonHCSTcr PI_amount PRACHScra PRACH_prea QHCS Qhyst1 Qhyst1FAC Qhyst1PCH Qhyst2 Qhyst2FAC

WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB WCEL_SIB

Qhyst2PCH QqualMin QrxlevMin RACHInter RACHIntraF RACH_Tx_N RACH_Tx_N RACH_tx_M SHCS_RAT SHCS_RATC SIB4Indicat SIB7factor Sintersearc Sintersear Sintrasearc Sintrasear Slimit_Sea Slimit_Sea SpeedScale Spriorityse Spriorityse SsearchHC SsearchHC Ssearch_RA Ssearch_R T300 T312 T312Conn T313 T315 TBarred TCrmax TCrmaxHys Threshserv Treselectio Treselecti Treselecti UseOfHCS

Based HO only. RNC 119, RNC 121 and RNC 126 having Load Based HO.

C C C C C C C C C C C C C C

126 126 126 126 126 126 126 126 126 126 126 126 126 126

and and and and and and and and and and and and and and

RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC RNC

127 127 127 127 127 127 127 127 127 127 127 127 127 127

is is is is is is is is is is is is is is

using using using using using using using using using using using using using using

default. default. default. default. default. default. default. default. default. default. default. default. default. default.

TEMPLATE 1 rf 900 1rf 2100 2rf+2hs 2100 default Celcom Deviation Remarks Modificatiocarrier 1 carrier 1 carrier 1 0 1 0 Cell lock/unlock status. 0 0 1 0 0 0 0 0 0 0 0 31 31 31 31 31 -92 -92 -92 -92 -92 1 0 0 no value 0 0 0 0 0 1 0 0 0 0 1 0 24 kbps paging channe 1 1 1 3 3 1 3 3 3 0 0 0 0 0 10 10 10 10 10 10 10 10 10 10 37 37 37 37 37 0 0 0 0 0 31 31 31 31 31 37 37 37 37 37 0 0 0 0 0 37 37 37 37 37 5 5 5 5 5 5 5 5 5 5 10 10 10 10 10 5 5 5 5 5 10 10 10 10 10 5 5 5 5 5 34 34 34 34 34 37 37 37 37 37 34 34 34 34 34 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 330 354 0 cell specif Yes Refer to worksheet " summary configuration" 2 2 1 2 2 2 0 0 0 0 0 6 6 6 6 6 5 5 5 5 5 0 0 0 0 0 0 0 0 0 0 10 10 10 10 10 15 15 15 15 15 10 10 10 10 10 25 25 25 25 25

5 65535 65535 0 1 1 0 90 9 -10 0 20 -2 70 8 -20 -10 0 50 2 -100 -100 -100 1 0 0 -44 -16 -92 20 0 0 30 3600 1 40 5 0 -10 -5 -30 0 0 8 4320

5 1 2 0 1 1 0 90 9 -10 0 20 -2 70 8 -20 -10 0 50 2 -100 -100 -100 1 0 1 -44 -16 -92 -40 7 1 30 3600 1 40 5 0 -10 -5 -30 0 0 0 0

0 ok ok 1

0 Common channel setup 1

0 Celcom defa Yes ok ok 1

0 no value no value

5 1 2 0 1 1 0 90 9 -10 0 20 -2 70 8 -20 -10 0 50 2 -100 -100 -100 1 0 1 -44 -16 -92 -40 7 1 30 3600 1 40 5 0 -10 -5 -30 0 0 0 0

5 1 2 0 1 1 0 90 9 -10 0 20 -2 70 8 -20 -10 0 50 2 -100 -100 -100 1 0 1 -44 -16 -92 -40 7 1 30 3600 1 40 5 0 -10 -5 -30 0 0 0 0

5 1 2 0 1 1 0 90 9 -10 0 20 -2 70 8 -20 -10 0 50 2 -100 -100 -100 1 0 1 -44 -16 -92 -40 7 1 30 3600 1 40 5 0 -10 -5 -30 0 0 0 0

216 6 0 0 0 0 0 0 458124 0 32 8 0 0 2 0 384 384 40 1 1 20 0 8 430 370 90 200 430 20 12 6 8 8 370 385 32767 32767 0 1 0 66559 457728 4 24

0 6 0 0 1 1 1 0 0 1 54560 8 0 1 0 0 384 384 40 4 1 40 0 0 460 370 90 200 460 20 12 6 10 0 370 450 32767 32767 0 1 0 508927 310272 4 24

no value

0 0 0 1 6 6 6 0 0 0 0 0 0 0 HSDPA 64 QAM feature 1 1 1 HSDPA 64 users featur 1 1 1 enabled 1 1 1 1 0 0 0 0 no value. Related to H 0 0 0 HSPA 72 users license 1 1 1 ok 54560 54560 54560 1 8 8 8 0 0 0 0 HSUPA 2ms TTI featur 1 1 1 no value. Related to 0 0 0 1 0 0 0 384 384 384 384 384 384 40 40 40 0 4 HS SCCHYes 4 4 4 1 1 1 1 0 ok 40 40 40 1 0 0 0 0 no value 0 0 0 depends onYes Refer to worksheet " summary configuration" 1 370 370 370 90 90 90 200 200 200 0 depends onYes Refer to worksheet " summary configuration" 1 20 20 20 12 12 12 6 6 6 0 ok 10 10 10 no value 0 0 0 1 370 370 370 0 depends on power sett Refer to worksheet " summary configuration" 1 32767 32767 32767 32767 32767 32767 0 0 0 1 1 1 0 0 0 0 ok 508927 508927 508927 ok 310272 310272 310272 1 4 4 4 24 24 24

21 21 30 -24 -95 100 0 4 SDPAFmcgIdentifier SDPAFmciIdentifier SDPAFmcsIdentifier SPAFmcsIdentifier 1 0 32 32 3 5 0 32 127 24 127 2 0 0 70 70 30 30 30 30 10 50 2 2 2 2 10 0 0 -15 -7 80 5

21 21 0 0 -25 100 0 4

0 1 64 64 3 0 1 32 127 24 127 2 0 1 70 70 30 30 30 30 10 50 2 2 2 2 10 0 0 -15 -7 80 5

0 no value ok, RACH EYes ok Yes 1

0 not enabled as MBLB i Enabled for HSDPA ok Yes ok Yes 1 0 ok Yes enabled. Yes 1

0 ok, based oYes 1

21 21 0 0 -25 100 0 4

21 21 0 0 -25 100 0 4

21 21 0 0 -25 100 0 4

0 1 64 64 3 0 1 32 127 24 127 2 0 1 70 70 30 30 30 30 10 50 2 2 2 2 10 0 0 -15 -7 80 5

0 1 64 64 3 0 1 32 127 24 127 2 0 1 70 70 30 30 30 30 10 50 2 2 2 2 10 0 0 -15 -7 80 5

0 1 64 64 3 0 1 32 127 24 127 2 0 1 70 70 30 30 30 30 10 50 2 2 2 2 10 0 0 -15 -7 80 5

5 5 5 0 0 0 0 -25 0 0 0 0 1 0 0 6

5 5 5 0 0 0 0 -25 0 0 0 1 1 1 0 6

rtFmcgIdentifier rtFmciIdentifier rtFmcsIdentifier FLIdentifier TWithHSDPAFmcgIdentifier TWithHSDPAFmciIdentifier TWithHSDPAFmcsIdentifier TWithHSPAFmcsIdentifier tFmcgIdentifier tFmciIdentifier tFmcsIdentifier 1 2 1 1 0 0 0 0 10 10 1 0 2 2 -1050 -1050 1 1 10 10 40 80 65535 65535 80 0 2 2 10 5 400 455 80 0 80 0

0 MBLB enablYes 1 0 MBLB enablYes 1

5 5 5 0 0 0 0 -25 0 0 0 0 1 0 0 6

5 5 5 0 0 0 0 -25 0 0 0 0 1 0 0 6

5 5 5 0 0 0 0 -25 0 0 0 0 1 0 0 6

1

0 Service and Load Base 1

0 no value 1

0 ok 1 0 no value 1 0 ok depends no value no value

2 2 2 1 1 1 0 0 0 0 0 0 10 10 10 0 0 0 2 2 2 -1050 -1050 -1050 1 1 1 10 10 10 Yes 80 80 80 65535 65535 65535 0 0 0 2 2 2 Yes 5 5 5 on power sett Refer to worksheet " summary configuration" 0 0 0 0 0 0

10 1 20 1 2 20 1 2 1 1 -25 -8 2 8 12 16 2 -8 70 -20 84 108 128 128 84 128 140 -50 -30 0 -50 -20 -20 -30 10 0 0 0 0 4 6 4 6 29 4

10 0 0 0 0 0 0 0 1 1 -20 -8 -3 8 12 16 3 -3 0 0 84 108 128 128 84 128 0 -50 -30 0 0 0 -20 -30 10 0 0 0 1 10 6 4 15 29 4

1 0 no no no no no no no 1

value value value value value value value

0 ok 1 0 ok 1

0 ok ok no value no value 1

0 no value 1

0 ok ok 1

0 enabled feature ok 1 0 ok 1

10 0 0 0 0 0 0 0 1 1 -20 -8 -3 8 12 16 3 -3 0 0 84 108 128 128 84 128 0 -50 -30 0 0 0 -20 -30 10 0 0 0 1 10 6 4 15 29 4

10 0 0 0 0 0 0 0 1 1 -20 -8 -3 8 12 16 3 -3 0 0 84 108 128 128 84 128 0 -50 -30 0 0 0 -20 -30 10 0 0 0 1 10 6 4 15 29 4

10 0 0 0 0 0 0 0 1 1 -20 -8 -3 8 12 16 3 -3 0 0 84 108 128 128 84 128 0 -50 -30 0 0 0 -20 -30 10 0 0 0 1 10 6 4 15 29 4

5 75 12 6 0 1 16 0 512 0 0 0 64 64 0 0 0 0 0 0 0 16 10 5 0 8 8 8 8 2 10 60 20 30 15 20 80 60 40 40 5 5 410 5 5

5 75 0 6 0 0 0 0 0 2 1 1 64 64 0 0 0 0 72 0 0 16 10 5 3 64 64 8 8 2 10 60 20 30 15 20 80 100 80 80 5 5 455 5 10

0 no value 1 0 no value no value 1 0 no value ok enabled enabled 1

0 ok 1

0 ok, for 5.8 Yes ok Yes ok yes 1

0 ok, in shr1 Yes ok Yes ok Yes 1 0 depends onYes 1 0 ok Yes

5 5 5 75 75 75 0 0 0 6 6 6 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2 2 2 1 1 1 1 1 1 64 64 64 64 64 64 0 0 0 0 0 0 0 0 0 0 0 0 72 72 72 0 0 0 0 0 0 16 16 16 10 10 10 5 5 5 3 3 3 64 64 64 64 64 64 8 8 8 8 8 8 2 2 2 10 10 10 60 60 60 20 20 20 30 30 30 15 15 15 20 20 20 80 80 80 100 100 100 80 80 80 80 80 80 5 5 5 5 5 5 Refer to worksheet " summary configuration" 5 5 5 10 10 10

400 360 10 10 -10 5 75 30 128 8 -5 0 0 0 15 4095 1 0 1 0 4 4 0 0 0 3 2 2 4 0 8 1 2 8 0 0 2 0 8 0 0 0 0 1 2

450 390 10 10 -10 5 75 50 512 8 127 0 0 0 15 4095 1 0 1 0 4 4 0 0 1 2 2 2 4 0 8 2 2 8 0 0 2 0 8 0 0 0 0 1 2

depends onYes depends onYes 1

0 ok ok 1 0 ok 1

Yes Yes Yes

0 ok, based oYes ok Yes 1

0 ok 1

Yes

Refer to worksheet " summary configuration" Refer to worksheet " summary configuration" 10 10 10 10 10 10 -10 -10 -10 5 5 5 75 75 75 50 50 50 512 512 512 8 8 8 127 127 127 0 0 0 0 0 0 0 3 3 15 15 15 4095 4095 4095 1 1 1 0 0 0 1 1 1 0 0 0 4 4 4 4 4 4 0 0 0 0 0 0 1 1 1 2 2 2 2 2 2 2 2 2 4 4 4 0 0 0 8 8 8 2 2 2 2 2 2 8 8 8 0 0 0 0 0 0 2 2 2 0 0 0 8 8 8 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 2 2 2

2 -18 -58 1 0 50 0 8 -1 -1 0 0 4 4 5 5 1 1 7 0 0 -1 -1 2 2 10 6 1 3 4 2 2 0 0 2 10 2 0

2 -18 -58 0 1 50 20 4 -1 -1 1 0 3 3 5 5 1 1 7 3 2 -1 -1 1 1 10 6 6 2 2 2 2 0 1 2 10 2 0

0 ok, for MBLYes ok, for MBLYes 1 0 ok Yes ok Yes 1 0 ok Yes 1 0 ok for U2100 Yes ok for U2100 Yes 1

0 ok ok 1

Yes Yes

0 ok ok 1

Yes Yes

0 ok ok ok 1

Yes Yes Yes

0 ok, it is a Yes 1

2 -18 -58 1 0 50 20 4 -1 -1 1 0 7 7 5 5 1 1 7 3 2 -1 -1 1 1 10 6 6 2 2 2 2 0 1 2 10 2 0

2 -18 -58 1 0 50 20 4 -1 -1 1 0 3 3 5 5 1 1 7 3 2 -1 -1 1 1 10 6 6 2 2 2 2 0 1 2 10 2 0

2 -18 -58 1 0 50 20 4 -1 -1 1 0 3 3 5 5 1 1 7 3 2 -1 -1 1 1 10 6 6 2 2 2 2 0 1 2 10 2 0

2rf+2hs 2100 carrier 2

3rf+3hs 2100 carrier 1 carrier 2

0 0 31 -92 0 0 1 3 0 10 10 37 0 31 37 0 37 5 5 10 5 10 5 34 37 34 0 0 0 ummary configuration" 2 0 6 5 0 0 10 15 10 25

0 0 31 -92 0 0 1 3 0 10 10 37 0 31 37 0 37 5 5 10 5 10 5 34 37 34 0 0 0

0 0 31 -92 0 0 1 3 0 10 10 37 0 31 37 0 37 5 5 10 5 10 5 34 37 34 0 0 0

carrier 3

POWER (W) 20

2 0 6 5 0 0 10 15 10 25

40

60

354

354

354

0 0 31 -92 0 0 1 3 0 10 10 37 0 31 37 0 37 5 5 10 5 10 5 34 37 34 0 0 0 330

2 0 6 5 0 0 10 15 10 25

30

2 0 6 5 0 0 10 15 10 25

5 1 2 0 1 1 0 90 9 -10 0 20 -2 70 8 -20 -10 0 50 2 -100 -100 -100 1 0 1 -44 -16 -92 -40 7 1 30 3600 1 40 5 0 -10 -5 -30 0 0 0 0

5 1 2 0 1 1 0 90 9 -10 0 20 -2 70 8 -20 -10 0 50 2 -100 -100 -100 1 0 1 -44 -16 -92 -40 7 1 30 3600 1 40 5 0 -10 -5 -30 0 0 0 0

5 1 2 0 1 1 0 90 9 -10 0 20 -2 70 8 -20 -10 0 50 2 -100 -100 -100 1 0 1 -44 -16 -92 -40 7 1 30 3600 1 40 5 0 -10 -5 -30 0 0 0 0

5 1 2 0 1 1 0 90 9 -10 0 20 -2 70 8 -20 -10 0 50 2 -100 -100 -100 1 0 1 -44 -16 -92 -40 7 1 30 3600 1 40 5 0 -10 -5 -30 0 0 0 0

0 0 6 6 0 0 0 0 1 1 1 1 1 1 0 0 0 0 1 1 54560 54560 8 8 0 0 1 1 0 0 0 0 384 384 384 384 40 40 4 4 1 1 40 40 0 0 0 0 ummary configuration" 370 370 90 90 200 200 ummary configuration" 20 20 12 12 6 6 10 10 0 0 370 370 ummary configuration" 32767 32767 32767 32767 0 0 1 1 0 0 508927 508927 310272 310272 4 4 24 24

0 6 0 0 1 1 1 0 0 1 54560 8 0 1 0 0 384 384 40 4 1 40 0 0 370 90 200 20 12 6 10 0 370 32767 32767 0 1 0 508927 310272 4 24

0 6 0 0 1 1 1 0 0 1 54560 8 0 1 0 0 384 384 40 4 1 40 0 0 430

478

448

460

430

478

448

460

420

468

438

450

370 90 200 20 12 6 10 0 370 32767 32767 0 1 0 508927 310272 4 24

21 21 0 0 -25 100 0 4

21 21 0 0 -25 100 0 4

21 21 0 0 -25 100 0 4

21 21 0 0 -25 100 0 4

0 1 64 64 3 0 1 32 127 24 127 2 0 1 70 70 30 30 30 30 10 50 2 2 2 2 10 0 0 -15 -7 80 5

0 1 64 64 3 0 1 32 127 24 127 2 0 1 70 70 30 30 30 30 10 50 2 2 2 2 10 0 0 -15 -7 80 5

0 1 64 64 3 0 1 32 127 24 127 2 0 1 70 70 30 30 30 30 10 50 2 2 2 2 10 0 0 -15 -7 80 5

0 1 64 64 3 0 1 32 127 24 127 2 0 1 70 70 30 30 30 30 10 50 2 2 2 2 10 0 0 -15 -7 80 5

5 5 5 0 0 0 0 -25 0 0 0 0 1 0 0 6

2 1 0 0 10 0 2 -1050 1 10 80 65535 0 2 5 ummary configuration" 0 0

5 5 5 0 0 0 0 -25 0 0 0 0 1 0 0 6

5 5 5 0 0 0 0 -25 0 0 0 0 1 0 0 6

5 5 5 0 0 0 0 -25 0 0 0 0 1 0 0 6

2 1 0 0 10 0 2 -1050 1 10 80 65535 0 2 5

2 1 0 0 10 0 2 -1050 1 10 80 65535 0 2 5

2 1 0 0 10 0 2 -1050 1 10 80 65535 0 2 5

0 0

0 0

0 0

5 425

5 473

5 443

5 455

10 0 0 0 0 0 0 0 1 1 -20 -8 -3 8 12 16 3 -3 0 0 84 108 128 128 84 128 0 -50 -30 0 0 0 -20 -30 10 0 0 0 1 10 6 4 15 29 4

10 0 0 0 0 0 0 0 1 1 -20 -8 -3 8 12 16 3 -3 0 0 84 108 128 128 84 128 0 -50 -30 0 0 0 -20 -30 10 0 0 0 1 10 6 4 15 29 4

10 0 0 0 0 0 0 0 1 1 -20 -8 -3 8 12 16 3 -3 0 0 84 108 128 128 84 128 0 -50 -30 0 0 0 -20 -30 10 0 0 0 1 10 6 4 15 29 4

10 0 0 0 0 0 0 0 1 1 -20 -8 -3 8 12 16 3 -3 0 0 84 108 128 128 84 128 0 -50 -30 0 0 0 -20 -30 10 0 0 0 1 10 6 4 15 29 4

5 75 0 6 0 0 0 0 0 2 1 1 64 64 0 0 0 0 72 0 0 16 10 5 3 64 64 8 8 2 10 60 20 30 15 20 80 100 80 80 5 5 ummary configuration" 5 10

5 75 0 6 0 0 0 0 0 2 1 1 64 64 0 0 0 0 72 0 0 16 10 5 3 64 64 8 8 2 10 60 20 30 15 20 80 100 80 80 5 5

5 75 0 6 0 0 0 0 0 2 1 1 64 64 0 0 0 0 72 0 0 16 10 5 3 64 64 8 8 2 10 60 20 30 15 20 80 100 80 80 5 5

5 75 0 6 0 0 0 0 0 2 1 1 64 64 0 0 0 0 72 0 0 16 10 5 3 64 64 8 8 2 10 60 20 30 15 20 80 100 80 80 5 5 425

5 10

5 10

5 10

473

443

455

ummary configuration" ummary configuration" 10 10 -10 5 75 50 512 8 127 0 0 2 15 4095 1 0 1 0 4 4 0 0 1 2 2 2 4 0 8 2 2 8 0 0 2 0 8 0 0 0 0 1 2

420 360 10 10 -10 5 75 50 512 8 127 0 0 3 15 4095 1 0 1 0 4 4 0 0 1 2 2 2 4 0 8 2 2 8 0 0 2 0 8 0 0 0 0 1 2

10 10 -10 5 75 50 512 8 127 0 0 2 15 4095 1 0 1 0 4 4 0 0 1 2 2 2 4 0 8 2 2 8 0 0 2 0 8 0 0 0 0 1 2

10 10 -10 5 75 50 512 8 127 0 0 2 15 4095 1 0 1 0 4 4 0 0 1 2 2 2 4 0 8 2 2 8 0 0 2 0 8 0 0 0 0 1 2

468 408

438 378

450 390

2 -18 -58 1 0 50 20 4 -1 -1 1 0 3 3 5 5 1 1 7 3 2 -1 -1 1 1 10 6 6 2 2 2 2 0 1 2 10 2 0

2 -18 -58 1 0 50 20 4 -1 -1 1 0 3 3 5 5 1 1 7 3 2 -1 -1 1 1 10 6 6 2 2 2 2 0 1 2 10 2 0

2 -18 -58 1 0 50 20 4 -1 -1 1 0 3 3 5 5 1 1 7 3 2 -1 -1 1 1 10 6 6 2 2 2 2 0 1 2 10 2 0

2 -18 -58 1 0 50 20 4 -1 -1 1 0 3 3 5 5 1 1 7 3 2 -1 -1 1 1 10 6 6 2 2 2 2 0 1 2 10 2 0

LTE InterwoMBLB 10762

10712

10737 U9

0 0 31 -92 0 0 1 3 0 10 10 37 0 31 37 0 37 5 5 10 5 10 5 34 37 34 0 0 0

0 0 31 -92 0 0 1 3 0 10 10 37 0 31 37 0 37 5 5 10 5 10 5 34 37 34 0 0 0

0 0 31 -92 0 0 1 3 0 10 10 37 0 31 37 0 37 5 5 10 5 10 5 34 37 34 0 0 0

0 0 31 -92 0 0 1 3 0 10 10 37 0 31 37 0 37 5 5 10 5 10 5 34 37 34 0 0 0

0 0 31 -92 0 0 1 3 0 10 10 37 0 31 37 0 37 5 5 10 5 10 5 34 37 34 0 0 0

2 0 6 5 0 0 10 15 10 25

2 0 6 5 0 0 10 15 10 25

2 0 6 5 0 0 10 15 10 25

2 0 6 5 0 0 10 15 10 25

2 0 6 5 0 0 10 15 10 25

5 1 2 0 1 1 0 90 9 -10 0 20 -2 70 8 -20 -10 0 50 2 -100 -100 -100 1 0 1 -44 -16 -92 -40 7 1 30 3600 1 40 5 0 -10 -5 -30 0 0 0 0

5 1 2 0 1 1 0 90 9 -10 0 20 -2 70 8 -20 -10 0 50 2 -100 -100 -100 1 0 1 -44 -16 -92 -40 7 1 30 3600 1 40 5 0 -10 -5 -30 0 0 0 0

5 1 2 0 1 1 0 90 9 -10 0 20 -2 70 8 -20 -10 0 50 2 -100 -100 -100 1 0 1 -44 -16 -92 -40 7 1 30 3600 1 40 5 0 -10 -5 -30 0 0 0 0

5 1 2 0 1 1 0 90 9 -10 0 20 -2 70 8 -20 -10 0 50 2 -100 -100 -100 1 0 1 -44 -16 -92 -40 7 1 30 3600 1 40 5 0 -10 -5 -30 0 0 0 0

5 1 2 0 1 1 0 90 9 -10 0 20 -2 70 8 -20 -10 0 50 2 -100 -100 -100 1 0 1 -44 -16 -92 -40 7 1 30 3600 1 40 5 0 -10 -5 -30 0 0 0 0

0 6 0 0 1 1 1 0 0 1 54560 8 0 1 0 0 384 384 40 4 1 40 0 0

0 6 0 0 1 1 1 0 0 1 54560 8 0 1 0 0 384 384 40 4 1 40 0 0

0 6 0 0 1 1 1 0 0 1 54560 8 0 1 0 0 384 384 40 4 1 40 0 0

0 6 0 0 1 1 1 0 0 1 54560 8 0 1 0 0 384 384 40 4 1 40 0 0

0 6 0 0 1 1 1 0 0 1 54560 8 0 1 0 0 384 384 40 4 1 40 0 0

370 90 200

370 90 200

370 90 200

370 90 200

370 90 200

20 12 6 10 0 370

20 12 6 10 0 370

20 12 6 10 0 370

20 12 6 10 0 370

20 12 6 10 0 370

32767 32767 0 1 0 508927 310272 4 24

32767 32767 0 1 0 508927 310272 4 24

32767 32767 0 1 0 508927 310272 4 24

32767 32767 0 1 0 508927 310272 4 24

32767 32767 0 1 0 508927 310272 4 24

21 21 0 0 -25 100 0 4

0 1 64 64 3 0 1 32 127 24 127 2 0 1 70 70 30 30 30 30 10 50 2 2 2 2 10 0 0 -15 -7 80 5

21 21 0 0 -25 100 33 4 33 33 33 33 0 1 64 64 3 0 1 32 127 24 127 2 0 1 70 70 30 30 30 30 10 50 2 2 2 2 10 0 0 -15 -7 80 5

21 21 0 0 -25 100 37 4 37 37 37 37 0 1 64 64 3 0 1 32 127 24 127 2 0 1 70 70 30 30 30 30 10 50 2 2 2 2 10 0 0 -15 -7 80 5

21 21 0 0 -25 100 41 4 41 41 41 41 0 1 64 64 3 0 1 32 127 24 127 2 0 1 70 70 30 30 30 30 10 50 2 2 2 2 10 0 0 -15 -7 80 5

21 21 0 0 -25 80 45 4 45 45 45 45 0 1 64 64 3 0 1 32 127 24 127 2 0 1 70 70 30 30 30 30 10 50 2 2 2 2 10 0 0 -15 -7 80 5

5 5 5 0 0 0 0 -25 0 0 0 0 1 0 0 6

2 1 0 0 10 0 2 -1050 1 10 80 65535 0 2 5

5 5 5 0 0 0 0 -25 0 0 0 1 1 1 0 6 32 32 32 47 34 34 34 34 31 31 31 2 1 0 0 10 0 2 -1050 1 10 80 65535 0 2 5

5 5 5 0 0 0 0 -25 0 0 0 1 1 1 0 6 36 36 36 48 38 38 38 38 35 35 35 2 1 0 0 10 0 2 -1050 1 10 80 65535 0 2 5

5 5 5 0 0 0 0 -25 0 0 0 1 1 1 0 6 40 40 40 49 42 42 42 42 39 39 39 2 1 0 0 10 0 2 -1050 1 10 80 65535 0 2 5

5 5 5 0 0 0 0 -25 0 0 0 1 1 1 0 6 44 44 44 50 46 46 46 46 43 43 43 2 1 0 0 10 0 2 -1050 1 10 80 65535 0 2 5

0 0

0 0

0 0

0 0

0 0

10 0 0 0 0 0 0 0 1 1 -20 -8 -3 8 12 16 3 -3 0 0 84 108 128 128 84 128 0 -50 -30 0 0 0 -20 -30 10 0 0 0 1 10 6 4 15 29 4

10 0 0 0 0 0 0 0 1 1 -20 -8 -3 8 12 16 3 -3 0 0 84 108 128 128 84 128 0 -50 -30 0 0 0 -20 -30 10 0 0 0 1 10 6 4 15 29 4

10 0 0 0 0 0 0 0 1 1 -20 -8 -3 8 12 16 3 -3 0 0 84 108 128 128 84 128 0 -50 -30 0 0 0 -20 -30 10 0 0 0 1 10 6 4 15 29 4

10 0 0 0 0 0 0 0 1 1 -20 -8 -3 8 12 16 3 -3 0 0 84 108 128 128 84 128 0 -50 -30 0 0 0 -20 -30 10 0 0 0 1 10 6 4 15 29 4

10 0 0 0 0 0 0 0 1 1 -20 -8 -3 8 12 16 3 -3 0 0 84 108 128 128 84 128 0 -50 -30 0 0 0 -20 -30 10 0 0 0 1 10 6 4 15 29 4

5 75 0 6 0 0 0 0 0 2 1 1 64 64 0 0 0 0 72 0 0 16 10 5 3 64 64 8 8 2 10 60 20 30 15 20 80 100 80 80 5 5

5 75 0 6 0 0 0 0 0 2 1 1 64 64 0 0 0 0 72 0 0 16 10 5 3 64 64 8 8 2 10 60 20 30 15 20 80 100 80 80 5 5

5 75 0 6 0 0 0 0 0 2 1 1 64 64 0 0 0 0 72 0 0 16 10 5 3 64 64 8 8 2 10 60 20 30 15 20 80 100 80 80 5 5

5 75 0 6 0 0 0 0 0 2 1 1 64 64 0 0 0 0 72 0 0 16 10 5 3 64 64 8 8 2 10 60 20 30 15 20 80 100 80 80 5 5

5 75 0 6 0 0 0 0 0 2 1 1 64 64 0 0 0 0 72 0 0 16 10 5 3 64 64 8 8 2 10 60 20 30 15 20 80 100 80 80 5 5

5 10

5 10

5 10

5 10

5 10

10 10 -10 5 75 50 512 8 127 0 0 3 15 4095 1 0 1 0 4 4 0 0 1 2 2 2 4 0 8 2 2 8 0 0 2 0 8 0 0 0 0 1 2

10 10 -10 5 75 50 512 8 127 0 0 3 15 4095 1 0 1 0 4 4 0 0 1 2 2 2 4 0 8 2 2 8 0 0 2 0 8 0 0 0 0 1 2

10 10 -10 5 75 50 512 8 127 0 0 2 15 4095 1 0 1 0 4 4 0 0 1 2 2 2 4 0 8 2 2 8 0 0 2 0 8 0 0 0 0 1 2

10 10 -10 5 75 50 512 8 127 0 0 2 15 4095 1 0 1 0 4 4 0 0 1 2 2 2 4 0 8 2 2 8 0 0 2 0 8 0 0 0 0 1 2

10 10 -10 5 75 50 512 8 127 0 0 0 15 4095 1 0 1 0 4 4 0 0 2 2 2 4 0 8 2 2 8 0 0 2 0 8 0 0 0 0 1 2

2 -18 -58 1 0 50 20 4 -1 -1 1 0 3 3 5 5 1 1 7 3 2 -1 -1 1 1 10 6 6 2 2 2 2 0 1 2 10 2 0

2 -18 -58 0 1 50 20 4 -1 -1 1 0 3 3 5 5 1 1 7 3 2 -1 -1 1 1 10 6 6 2 2 2 2 0 1 2 10 2 0

2 -18 -58 0 1 50 20 4 -1 -1 1 0 3 3 5 5 1 1 7 3 2 -1 -1 1 1 10 6 6 2 2 2 2 0 1 2 10 2 0

2 -18 -58 0 1 50 20 4 -1 -1 1 0 3 3 5 5 1 1 7 3 2 -1 -1 1 1 10 6 6 2 2 2 2 0 1 2 10 2 0

2 -18 -58 0 1 50 20 4 -1 -1 1 0 7 7 5 5 1 1 7 3 2 -1 -1 1 1 10 6 6 2 2 2 2 0 1 2 10 2 0

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