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2G RNO BASIC TRAININGPrepare By: Agung KriswantoroDropped CallsDropped calls show the number of abnormal disconnections during call setup or during conversation. From a subscriber point of view, the most serious dropped calls are those that interrupts an ongoing conversation, i.e. a call dropped on the TCH.

Radio Link FailureEvery time a SACCH message can not be decoded the radio link time-out counter is decreased by 1. If the message can be decoded the counter is incremented by 2. However, the value can not exceed the initial value. The initial value is set by the parameter RLT for radio link time-out in the mobile station and by SACCH Multi Frame for time-out in the BSS. If the mobile moves out of coverage and no measurement reports are received in the BSS, there will be a radio link time-out and the message Channel Release (cause: abnormal release) sent to the mobile station and the SACCH is deactivated in the BTS. A Clear Request message is sent to the MSC. To be sure that the mobile has stopped transmitting, the BSS now waits RLT SACCH periods before the timeslot is released and a new call can be established on the channel.Dropped Calls

Radio Link Timeout BSS Radio Link Timeout MS because MS Should release radio channel firstRadio Link Timeout BSS Radio Link Timeout MS because MS Should release radio channel firstToo High Radio Link Timeout BSS can cause congestion due to longer channel holding time.Too High Radio Link Timeout MS can cause costumer complain due to connect no voice.

Causes of Radio Link FailureRadio Link Failure event are due to below problem:Interference Internal interferenceExternal interferenceEquipment interference Poor coverage Coverage holeIsland sitesUplink/downlink imbalanceImproper parameter settingRadio link timeout, SACCH multi-framesHandover parametersPower control parametersEquipment problem (Antenna, feeder, combiner, TRX)Clock problemTransmission problemPage 66Radio Link Failure- InterferencePage 7CategoryCo-channel interferenceAdjacent-channel interferenceInter-modulation interference and other external interference

C/I : GSM Recommendation >9 dBPlanning Criteria >12 dB (Non Hopping)Planning Criteria >9 dB (Hopping)C/I is to measure Co channel Interference tolerance.C/A :GSM Recommendation >-9 dBPlanning Criteria >3 dBC/A is to measure Adjacent channel Interference tolerance.7Radio Link Failure- InterferencePage 8C/I : GSM Recommendation >9 dBPlanning Criteria >12 dB (Non Hopping)Planning Criteria >9 dB (Hopping)C/I is to measure Co channel Interference tolerance.C/A :GSM Recommendation >-9 dBPlanning Criteria >3 dBC/A is to measure Adjacent channel Interference tolerance.

8Radio Link Failure- InterferencePage 9Action:First check equipment problems for inter-modulation interference. Mostly is bad feeder installation or bad hardware output signal.Perform drive test to check interference area and distribution of Rx-Quality to find the interferer frequency for internal interference. Then do Cell/Cluster MAL/MAIO/HSN retune.Further search for the interference source with the spectrum analyzer to search external interferer then escalate to proper part. Mostly repeater or illegal transmitter, then escalate to proper part.Activate Frequency hopping, DTX (Discontinuous Transmit) and power control functions to reduce internal interference of the system. This is parameter setting.Analysis:If Scan-TRX of cell results in the interference band 3, 4, and 5, usually the interference problem should be taken into consideration. If there are too many times of good Rx-Level but low Rx-Quality, it means: co-frequency or adjacent frequency interference or external interference.Handover measurement function from outgoing handover attempts distribution. If there are too many times of handover caused by UL/DL Quality, it indicates possibly there is interference.See from Scan TRX for Rx-Quality level of TRX for reference.See from Scan TRX for Rx-Level and Rx-Quality upon call drop for reference.9Radio Link Failure- InterferencePage 10

Not Overshoot, but has ICM band 5 and Bad UL Signal Quality1011

Sample of Clear spectrum resultSample of external interference from CDMA which impact to Telkomsel cells performanceDL CDMA Band suspected has too high power that disturb TSEL UL GSM Band (900.2Mhz).Radio Link Failure- Interference1112Radio Link Failure- InterferenceConsider as interference issue.

12Radio Link Failure- CoveragePage 131. Island Sites/Standalone sitesIsland sites is a site which work alone to cover wide traffic area.2. Coverage hole: uncovered area between cellsBlank Spot.3. Signal attenuation: serious fading occurs during signal propagation so that handover cannot be implemented in time and this causes a call drop. 4. The adjacent cell definition: incomplete neighbor relation definition, so that MS keeps conversation in the current cell until it goes beyond this cell coverage edge and as a result, call drop occurs.5. Imbalance UL/DL: If the uplink signal coverage is larger than the downlink signal coverage, the downlink signal of the cell edge will become weak and can easily be submerged by the intensive signals of other cells. While if the downlink signal coverage is larger than the uplink signal coverage, MS has to remain under this intensive signal. However, if the uplink signal is too weak or the voice quality is too bad, call drop will occur. 13System Balance

Double UL receiver = Double UL Receive power (UL Coverage become wider))14Radio Link Failure- CoveragePage 15

Uplink Loss is Large (Uplink Coverage is small)Downlink Loss is Large (Downlink Coverage is small)15Radio Link Failure- CoveragePage 16Analysis:Drive test result is the best information to found the coverage problem.1.Idle Receiving level report show proportion of low receiving level times is too large.2.Inter-cell handover measurement function, the level when triggering a handover is too low and the average receiving level is too low.3.Receiving level during a call drop is too low and the TA value before a call drop is big (Check from Scan-TRX report).4.From scanning result, founded undefined adjacent cell receiving level is too high (over-shooting coverage).The average level of undefined adjacent cells is too high (isolated island phenomenon).5. In outgoing-cell handover measurement function, the handover success rate to a certain adjacent cell is low.Solution for Coverage:Adjust network parameters Activate EDGE handoverFaster Edge (ULEDGETHRES/DLEDGETHRES) and Interlayer handover (HOTHRES)Adjust Cell Reselection Parameter (CRO/PT/CRH/RXMIN)Add new sitesIncrease antenna gain (change antenna type)Adjust antenna direction (Tilt / Azimuth)162. Layer 2 Time-OutT200 is a timer of acknowledgement transmission from BTS to MS through LAPD. When BTS transmits a acknowledgement message to MS, T200 times is started in LAPD. If this acknowledgement message is not received by MS until T200 timer is expired then the transmission will be repeated (retransmission).The maximum retransmission is N200+1 times. T200 will be restarted in each retransmission. So, N200 is the maximum number of retransmission of LAPD (Layer-2). If until N200+1 times of retransmission the acknowledgement message, MS still doesnt receive this message, then the connection will be dropped.

Longer T200 value, means longer BSS to wait. Longer T200 value, means longer channel will hold by an UE. This will cause congestion for sites which have hi Channel utilization.

Shorter T200 Value , means Faster BSS to trigger disconnection. This will cause low SDSR.Shorter T200 value , means easy for BSS to release channel which hold by UE previously. This will reduce congestion at cell channel due to shorter channel holding time.

3. Excessive Timing AdvanceThe TCH Drop counters due to Excessive Timing Advance will pegged during the time of disconnection, the last Timing Advance value recorded was higher than the Max TA Parameter. This drop reason is commonly apparent to isolated or island sites with a wide coverage area.Action: Check if the cell parameter Max TA is < 63. Check if the co-channel cells are overshooting.Solution: Set Max TA to a value close to 63. Activate TAHOEN.Faster handover trigger due to TA -> Adjust TALIMIT to proper TA value base on site to site distance.Tilt antenna/reduce antenna height/output power, etc. for co-channel cells.

4. Low Signal Strength on Downlink or Uplink or Both LinksNormally a call is dropped at the border of large rural cell with insufficient coverage. Bad tunnel coverage cause many dropped calls as well as so called coverage holes. Bad indoor coverage will result in dropped calls. Building shadowing could be another reason.Action: Check coverage plots. Check output power. Check power balance and link budget. Check if Omni site. Check antenna configuration & type. Check antenna installation.Perform drive tests & site survey.Check TRX with high Fail Number. Solution:Add a repeater to increase coverage in for example a tunnel.Change to a better antenna (with higher gain) for the base station.Add a new base station if there are large coverage holes.Block/unblock TRXAdjust Power control parameter (SET GCELLPWRBASIC/SET GCELLPWR2/SET GCELLPWR3)On 7th Nov. the power control optimization, improved DL/UL quality to reducedrop callsdue to handover.On 16th Nov. the power control optimization, improved DL/UL quality to reducedrop callsdue to handover.

Parameter typeDLAFSREXQUALHIGHTHREDDLAFSREXQUALLOWTHREDDLAHSREXQUALHIGHTHREDDLAHSREXQUALLOWTHREDDLMAXDOWNSTEPULAFSREXQUALHIGHTHREDULAFSREXQUALLOWTHREDULAHSREXQUALHIGHTHREDULAHSREXQUALLOWTHREDULMAXDOWNSTEPDLRXLEVPROTECTFACTORDLRXQUALPROTECTFACTORBefore1616181881616181881060After1414161641414161641065Parameter typeDLFSREXQUALHIGHTHREDDLFSREXQUALLOWTHREDDLHSREXQUALHIGHTHREDDLHSREXQUALLOWTHREDULFSREXQUALHIGHTHREDULFSREXQUALLOWTHREDULHSREXQUALHIGHTHREDULHSREXQUALLOWTHREDULRXQUALPROTECTFACTORDLRXLEVPROTECTFACTORDLRXQUALPROTECTFACTORBefore1818181818181818651065After14141515141415157515755. Poor Quality on Downlink or Uplink or Both LinksProblem on Bad Quality is usually associated with Co-channel Interference on BCCH or TCH. Faulty MAIO assignment can cause frequency collisions on co-sited cells especially on 1x1 Reuse. External interference is also one possible cause of problem on quality.Action: Check C/I and C/A plots. Check Frequency Plan (Co-BCCH or Co-BSIC Problem).Check MAIO, HOP, HSN parameters.Check FHOP if correctly configured (BB or SFH).Check for External Interference.Perform drive tests.Solution: Change BCCH frequency.Change BSIC.Change MAIO, HOP, HSN.Change MAL.

6. Sudden Loss of ConnectionThere are some common scenarios that could lead to Sudden Loss of connections such as very sudden and severe drops in signal strength, such as when subscribers enter into buildings, elevators, parking garages, etc., very sudden and severe occurrence of interference, MS runs out of battery during conversation, Handover Lost, BTS HW faults, Synchronization or A-bis link fault (transmission faults), and MS Faults.Action: Check BTS Error Logs, Alarms and Fault Codes.Check Fail number per TRX and TS.Check Transmission Link (A-bis).Check LAPD Congestion.Correlate Handover Lost to Drops due to Sudden LossSolution: Fix Hardware Faults and Alarms.Reset TRX with high Fail Number.Ensure that Synchronization and A-bis Link are stable.increase Transmission CapacityInvestigate HO Lost Problem7. Improper feature activationFeature activation which activated not in proper cell will cause new problem.Incorrect use of radio features such as Dynamic Power Control, handover, Intra-Cell Handover, Frequency Hopping, etc.Action: Check Feature parameter setting.Solution: Correct strange and erroneous parameter setting. Below is the sample

Adjusted 119 cells INTRACELLHOEN YES->NO at 16 Nov, Observe the performance of the adjusted, Call Drops on Radio Interface in Handover State decreased, Call Drops on Radio Interface in Stable State did not significantly improve. Significantly improved the overall call drop number.

8. Bad Parameter ConfigurationSome idle and dedicated parameter which adjusted not in rule will cause KPI degradation.Action: Check parameter setting.Solution: Correct strange and erroneous parameter setting. Below is the sample

After the cellHandoverparameters optimization, improved the handover performance to reducedrop callsdue to handover.

Parameter typeT3103AT3103CT7T8T3109T3105MAXRESENDBefore1500015000100001600027000730After20000200002200022000300001560SDCCH Drop PerformanceLow Signal Strength on Down or Uplink The reason for poor coverage could be too few sites, wrong output power, shadowing, no indoor coverage or network equipment failure.Action: Check coverage plots. Check output power. Perform drive tests. Check BTS error logSolution: Add new sites. Increase output power. Repair faulty equipment.Adjust TRX POWER parameter (POWT/POWL)Adjust antenna direction & Tilt

Poor Quality on Down or UplinkAction: Check C/I and C/A plots. Check frequency plan. Perform drive tests.Solution: Change frequency.Adjust TRX POWER parameter (POWT/POWL)Move SDCCH to BCCH TRX

Too High Timing AdvanceAction: Check if the cell parameter Max TA is < 63. Check if the co-channel cells are over-heard.Solution: Set Max TA to a value close to 63. Tilt antenna/reduce antenna height/output power, etc. for co-channel cells.

Mobile ErrorSome old mobiles may cause dropped calls if certain radio network features are used. Another reason is that the MS is damaged and not working properly.Action: .Check MS type from Core team.Solution: Inform operator.Probable Reasons of Drops on SDCCHSubscriber BehaviorPoorly educated subscribers could use their handsets incorrectly by not raising antennas, choosing ill-advised locations to attempt calls, etc.Action: Check customer complaints and their MS.

Battery FlawWhen a subscriber runs out of battery during a conversation, the call will be registered as dropped call due to low signal strength or others.Action: Check if MS power regulation is used. Check if DTX uplink is used.

Congestion on TCHThe SDCCH is dropped when congestion on TCH.Action: Check TCH congestionSolution: Increase capacity on TCH or using features like Assignment to another cell (Direct retry), Cell Load Sharing, HCS, Half rate parameter(TCHAJFLAG,TCHBUSYTHRESH) etc.

Probable Reasons of Drops on SDCCHHandover PerformanceHandover PerformanceHandover is a key function in a GSM network and a key technology of mobile communication system which make continued conversation become possible. If the handover performance is poor the subscriber will perceive the quality of the network as bad.

targetMSC 1MSC 2MSC controlledBSC 1 out-goingintracell inter BSCsourceBSC 2 in-comingintercellMSC controlledBad handover Parameter SettingA bad setting of handover control parameters might result that the handover will seldom rank the cell as a candidate.Action: Check parameter setting.Solution: Correct bad parameter setting (GCELLHOBASIC/GCELLHOEMG/GCELLHOCTRL, etc)

Unnecessary Neighboring Cell RelationNone or very few handovers might indicate an unnecessary neighboring cell relation.Action: Check neighbor cell relationsSolution: Check if the relations really should be defined. Remove unnecessary cell relations. Maximum relation are 32 for inter2G and 32 for Inter System (2g to 3G). But recommended are 15 for each handover type. To reduce signaling load.

The Base Station is Defined But Not in Service.Action: Check reason for BTS not in service.Solution: Take action to set the base station in service.

HW faults.Action: Check BTS error log.

Wrong Output Power due to Faulty Transceiver Action: Check output power setting. Check BTS error log

Probable Reasons of Bad Handover PerformanceWrong External Cell ConfigurationThis will cause no handover decisions to the an external cell.Action: Check external cell data (BCCH/NCC/BCC/LAC/CI)Solution: Change it to correct Value.

Permitted Network Color Code problemIf NCCPERMIT doesnt include neighboring cells NCC, there will be no handovers.Action: Check NCCPERMIT.Solution: Add NCC of neighbors to NCCPERMiT.

Wrong Use of LayerAction: Check Layer related parameters. Wrong layer will influence traffic share strategy. Then it will give impact to other KPI.Solution: Change to proper value. SET GCELLBASICPARA: LAYER= x;

Poor inter-MSC/BSC handover performanceIf the cell is at the border of inter-BSC or inter-MSC, poor inter-MSC/BSC handover performance will cause few or no handover attempts.Action: Check inter-MSC/BSC handover performance

The MS Measures Signal Strength of Another Co- or Adjacent. Action: Check frequency plan..Perform drive tests.Solution: Decrease interference. .

Bad Use of Radio Network FeaturesIncorrect use of radio features such as Dynamic Power Control, handover, Intra-Cell Handover, Frequency Hopping, etc.Action: Check Feature parameter setting.Solution: Correct strange and erroneous parameter setting.

Probable Reasons of Bad Handover PerformanceCongestionA high congestion might lead to dragged calls (handover performed at a improper location) and a lot of unsuccessful handovers.Action: Check TCH congestion at both origin and destination cells.Solution: Add more TCH capacity. Activate Half rate feature (TCHAJFLAG), Adjust Share traffic parameter.

Timer Expire After MS is Lost (T3103A/C,T7,T8,etc)The MS never answers the base station.Action: Check coverage. Check interference. Longer the timer may improve it, but will make longer channel holding time.

Link Connection or HW FailureAction: Check BTS error log. Perform site visit. Perform link performance measurements.Solution: Repair faulty equipment.

Bad Antenna Installation Action: Perform site survey and check antenna installation. Check antenna cabling.Solution: Adjust antenna installation, antenna type or cabling.

Antennas Connected to Wrong Feeder Action: Perform site survey and check antenna installation. Check antenna cabling.Solution: Correct the antenna to the right sector.

Incorrect Down Tilt Action: Perform site survey and check antenna installation.Solution: Correct antenna tilting. To much down tilt value will cause blank coverage and dragging. Too Big tilt value will cause overshoot till N Layer, which neighbor not create at N layer area.Probable Reasons of Bad Handover Performance

TRX346 & 223 Hardware problem of site 2131103_AntsnKecilTimur. After solved the problem, the incoming handover success number became normal.

Link Connection or HW FailureSDCCH CongestionLow AvailabilityAction: Check SDCCH Availability. Check if the channels are manual, control or automatic blocked.Solution: Change and repair faulty equipment. Review the O&M procedures.

Increasing Traffic Demand The high traffic could be related to an occasional event or due to a long term growth.Action: Check if short term traffic growth. Make trend comparisons. Check SDCCH dimensioning.Solution: Increase the number of SDCCH channels. Note, that an increase may lead to the need for new transceivers.

Long Mean Holding Time If the mean holding time is long, this generates a higher traffic load.Action: Check SDCCH Mean Holding Time.

Too Frequent Periodic RegistrationAction: Check Random Access Distribution. Check the timer T3212 in the BSC and the parametersBTDM and GTDM in the MSCSolution: Decrease the periodic registration (t3212) and Adjust CRH (Cell Reselection Hysteresis).Probable Reasons of SDCCH CongestionLocation Area Border CellIf the cell is situated on a misplaced Location Area border, this means that unnecessary many normal LUs are performed.Action: Check site position and location area border. Check Location Update Performance. Check parameter CRH etc.Solution: If the site is located close to major road or railway, consider to move the Location Area border. Increase the hysteresis CRH. The CRH is the hysteresis value used when the MS in idle mode crosses a LA border. The default value for this parameter is 4. If a high number of Location Updating occurs in a Location Area border cell, a higher CRH can be set in order to reduce the number of LUs.

Extensive SMS UsageExtensive SMS usage increases the SDCCH traffic and could cause congestion if badly dimensioned SDCCH channels.Action: Check SMS activity.Solution: Re-dimension the SDCCH channels with consideration taken to SMS usage.

Cell Broadcast UsedAction: Check if Cell Broadcast is active. .If active, check if it is used by the operator.Solution: Remove Cell Broadcast if not used (SDCCH_CBCH).

IMSI Attach/Detach in Use. An introduction of IMSI attach/detach will increase the traffic on SDCCH. However, the benefits are that the paging success rate will increase. The recommendation is to use Attach/Detach.

BTS /Cell Software HangAction: Reset BTS . It will restart all hardware onsite.. Probable Reasons of SDCCH CongestionCongestion on TCH Action: Check TCH Congestion Solution: Increase the TCH capacity.

Congestion on Signaling RoutesAction: Check signaling performance & transmission capacity.Solution: Add more transmission capacity or re-route traffic if possible.

False AccessesNo response from MS after Channel Request. The system waits about T200 seconds before performing a disconnection and the channel is available again.Action: Check frequency plan. Check interference.Solution: Improve frequency plan and reduce interference. Reduce T200 SDCCH value.

Faulty TransceiverAction: Check BTS error log.Solution: Change & repair faulty equipmentProbable Reasons of SDCCH Congestion due to Long Mean Holding TimeTCH CongestionIncreasing Traffic Demand The high traffic could be related to an occasional event or due to a long term growth.Action:. Check if short term traffic growth. Make trend comparisons..Check TCH dimensioning. Check the use of congestion relieving features such as Assignment to Worse cell, Cell Load Sharing and HCS.Solution: Increase the number of transceivers. But check for frequency availability.

Bad DimensioningBad allocation of TCH in a system may cause unnecessary congestion. Investigate if possible to move transceivers from non-congested areas to congested areas (Rebalancing). Of course, the base station type, current number of transceivers, floor space, combiner type, etc., should be considered before a recommendation to move transceiver could be made.Action: Check TCH traffic and dimensioning.Solution: Re-dimension the TCH.

Hardware Fault & Installation Fault Faulty equipment will lead to that all time slots could not be used for handling traffic causing congestion. Low availability can happen if the channels have been manually or automatically blocked and taken out of service.Action: Check TCH Availability. Check TCH blocking.Solution: Change and repair faulty equipment. Review the O&M procedures.Probable Reasons of TCH CongestionHigh Antenna Position A high antenna position could mean a too large service area. Also antennas placed on hilltops will cover large areas. A large coverage area might mean that the cell takes a lot of traffic.Action: Check antenna height. Check antenna type. Check antenna tiltSolution: Lower antenna if there is no risk for loss of coverage (no coverage at all). Tilting of the antenna or changing antenna type may also decrease the coverage area.

Wrong Use of LayerAction: Check Layer related parameters. Wrong layer will influence traffic share strategy. Then it will give impact to other KPI.Solution: Change to proper value. SET GCELLBASICPARA: LAYER= x;

Low Handover Activity A low handover activity may lead to congestion if the MS is forced to stay on a cell longer than necessary.Action: Check if congestion in neighboring cell. Check handover performance. Check neighboring cell definitions. Missing relationscould cause handover problems.Solution: Correct handover parameters such as too high or too low hysteresis/Thresholdvalues, missing neighbor relations, one-way handovers.

Low Congestion in Surrounding Cells Action: Check congestion in neighboring cells. Review neighbor cell list. New relation could relieve the congestion. Solution: Add new neighbor cells if appropriate. Then adjust CRO/GCELLHOBASIC/GCELLHOEMG parameter.Probable Reasons of TCH CongestionPS Access Success RateRadio Channel CongestionHigh PS traffic compare to available PS channel.Action:. Check if PS has higher traffic load but CS is not. Or PS and CS has same high load.Solution: Add more PS capacity (TCHFR or PDTCH)SET GTRXCHAN and adjust PS channel conversion threshold.

TCHs are set to TCHHRWhile a TCH is on TCHHR status, then it can not become a PS channel.Action: Check PS traffic compare to TCHFR+PDTCH.Solution: Change TCHHR to TCHFR as initial channel state.

Fail Conversion from TCH to PDTCHWhile PDTCH capacity in a cell already full, then system will try to convert TCHFR to PDTCH. But it will fail if TCH in congestion stateAction: Check TCH Availability. Check TCH blocking.Solution: Change and repair faulty equipment. Review the O&M procedures. Do CS traffic share to improve PS capacity.

Imbalance/Overload PDTCH distribution at DSP board.DSP use in BSC to process PS service before forward to SGSN. When DSP load is more than 80% then some cells under this DSP will have low PS accessibility.Action: Check DSP load distribution for every slot number.Solution: If Imbalance load: try to make Cell-DSP mapping become automatic (SET PSCELLTODSP: IDXTYPE=BYBSC;)If Overload DSP: Add more DSP board.

Abis Congestion2G system using PCM30 technology. 1E1=2.048Mbps. 1 E1=32 Abis Timeslot. 1 Abis timeslot=4 Sub slot.Action: Check Abis Load between E1 if Site has more than 1 E1. Sometime, 1 Sites has 3 E1 (example), but load mostly at E1 number 2. This is not good for TR which connected to E1 number 2.Solution: Balance E1 Load with TRX-E1 mapping. Add E1 if existing E1 already has >80% utilization.Probable Reasons of Low PS Access Success

E1 Description1 E1 contain 32 timeslot (0-31)1 Timeslot in E1 contain 4 Sub slot.1 E1 =2.048 Mbps1 Timeslot in E1 = 2.048 Mbps/32 = 64 Kbps1 E1 Sub slot in E1 = 64 Kbps/4 = 16 Kbps

If user get 1 E1 sub slot and single/alone TBF in 1 PDTCH, then he has 16 Kbps throughput at maximum (Theoretical). Then we have coding scheme to compress the data become smaller. GPRS has CS1-CS4/EDGE has MCS1-9.HI TBF number In Uplink and DownlinkHigh PS traffic compare to TBF capacity in 1 PDTCH.Action:. Check for maximum TBF in BH.Solution: Adjust UL/DL multiplexing. Too high will cause throughput degradation/Too Small will cause high throughput but small TBF capacity.Probable Reasons of Low PS Access Success

ParameterLQCMODET3168UPDYNCHNTRANLEVDWNDYNCHNTRANLEVPDCHUPLEVPDCHDWNLEVBeforeLA500ms40407080AfterIR1000ms202070160LQCMODE: Use IR can to obtain better effect when the UM transmission quality is poor.T3168:Decrease the number of times of MS no response .UPDYNCHNTRANLEV: Faster uplink switch PDCH request.DWDYNCHNTRANLEV: Faster downlink switch PDCH request.PDCHDWNLEV:TBF to increase the number of carrying PDCH.GPRS AND EDGEBoth GPRS and EDGE using same 2G GSM technology. EDGE developed to improve 2G data Rate better than GPRS.EDGE is a method to increase the data rates on the radio link for GSM. Basically, EDGE only introduces a new modulation technique and new channel codingthat can be used to transmit both packet-switched and circuit-switched voice and data services.

Although GPRS and EDGE share the same symbol rate, the modulation bit rate differs. EDGE can transmit three times as many bits as GPRS during the same period of time. This is the main reason for the higher EDGE bit rates.GPRS AND EDGE

EDGE using GMSK for MCS1-4 then 8PSK for MCS5-9.

GPRS using GMSK modulation technology.

Both GPRS CS1 to CS4 and EGPRS MCS1 to MCS4 use GMSK modulation with slightly different throughput performances. This is due to differences in header size (and payload size) of the EGPRS packets.

Frequency HoppingThere are 3 Types of Frequency Hopping:Baseband Hopping (BB)Baseband Hopping concept, assign Frequency for every TRX in a cell.This Frequency planning method has less capacity, because limitation TRX count base on frequency availability. 1 TRX= 1 Frequency

Minimum MAL Frequency should provide/Sites= Count TRX Hopping

Synthesizer Frequency Hopping (SFH)SFH 1*3SFH 1*1SFH Concept offer more TRX capacity with efficient frequency management. Result are: increment capacity which improve CS and PS performanceImproved voice quality and prevention of dropped calls in GSM

Minimum MAL Frequency should provide= 2 * Count TRX Hopping * 3

Enhanced SFH

Frequency Hopping ParameterMAL (Mobile Allocation Set): MA is the set of available RF bands when hopping, containing at most 64 frequency carriers. The frequency being used must be those of the available frequencyMAIO (Mobile Allocation Index Offset)MAIO is used to define the initial frequency of the hopping.Be careful to configure the MAIO of same timeslot in all channels, otherwise interference occurs.HSN (hopping sequence number)HSN is used to define the hopping sequence from one frequency list.HSN=0cycle hopping.HSN0random hopping. Every sequence number corresponds a pseudo random sequence.

Baseband Frequency Hopping MappingEvery TRX have 1 Frequency result. If we have 4 TRX then we should have 4 clean frequency.

SFH 1*3 Frequency Hopping Mapping

MAL is drawn up from high to low

Every sector has different MAL.MAIO is depend on TRX HOPPING Count.

SFH 1*1 Frequency Hopping MappingEvery sector has Same MAL.MAIO is depend on TRX HOPPING Count.

Cell Selection / ReselectionCell Selection and Reselection ParameterC1 is a cell selection algorithm employed in GSM and GPRS. The algorithm uses the power received from cells plus additional parameters in order to assess the cell that will provide the best radio connection for the MS (Mobile Station).

C2 is the GSM cell reselection algorithm. Once the MS (Mobile Station) has camped onto a cell it will continue to assess the surrounding cells to ensure it is monitoring the cell that will offer the best radio connection. As the user moves the camped on cell may become unsuitable. This situation will generate a cell reselection.

C31 is a criteria based algorithm used as part of the GPRS cell reselection process. It is used to assess if prospective cells qualify as reselection candidates prior to applying the C32 GPRS cell reselection algorithm.

C32 is the GPRS cell reselection algorithm. Once the MS (Mobile Station) has camped onto a cell it will continue to assess the surrounding cells to ensure it is monitoring the cell that will offer the best radio connection. As the user moves the camped on cell may become unsuitable. This situation will generate a cell reselection.Cell Selection ParameterC1 = (Amax(B,0))where A = Average Received level from Cell RX_ACCESS_MIN (in dBm)B = MS_TXPWR_MAX_CCH P (in dBm).The Average received level (AV_RXLEV) is found by averaging RXLEV samples over a period. RX_ACCESS_MIN is a cell parameter which set minimum allowed RXLEV for an MS to access that cell.MS_TXPWR_MAX_CCH is the maximum TX power an MS may use when accessing the system (using RACH). P is the maximum RF output power of the MS, usually 33dBm for a handheld GSM900 and 30dBm for a handheld GSM1800 MS. Often the latter term in C1 equals 0 and equation (1) can be simplified to;

C1 = AV_RXLEV RX_ACCESS_MIN

For example, if the minimum allowed level to gain access to a cell is 100dBm and the received average level at the cells BCCH frequency is -80 dBm, MS calculates C1 as +20 for that particular cell. MS camps to the cell with the highest C1 value.There is an exception to the standard procedure described above. When MS evaluates C1 values for cells belonging to a different Location Area (LA), it subtracts a parameter called CELL_RESELECT_HYSTERESIS from the C1 value, which means that those cells are given a negative offset. The reason for this is that changing LA requires a Location Update (LU) procedure that consumes network signaling capacity. Thus, by assigning a negative offset to C1, unnecessary LUs caused by slow fading can be reduced. MS receives information of the cell dependent CELL_RESELECT_HYSTERESIS values through BCCH.Cell Re-Selection ParameterCell reselection criterion C2 is defined asC2 = C1 + CELL_RESELECT_OFFSET TEMPORARY_OFFSET*H

when timer T > PENALTY_TIME then H=0 >>>> C2 = C1 + CELL_RESELECT_OFFSET timer T PENALTY_TIME then H=1 >>>> C2=C1 + CELL_RESELECT_OFFSET TEMPORARY_OFFSETPenalty Time=31 >>>> C2 = C1 - CELL_RESELECT_OFFSET

BCCH Re-selection in Border LAC

Higher CRH value will hold an UE in a cell longer. Then give decrement of Location update attempt.2G SYSTEM INFORMATIONIMPORTANT TO KNOWSystem Information Overview

SYSTEM INFORMATION sent on BCCHSYSTEM INFORMATION Includes:1, 2, 2BIS, 2TER, 3, and 4 Used by MS in idle mode.

SYSTEM INFORMATION sent on SACCHSYSTEM INFORMATION Includes:5, 5BIS, 5TER, and 6 Used by MS in Dedicated mode.

SYSTEM INFORMATION 1:Cell Channel Descriptioncontains all the frequencies used in this cell RACH Control Parameter

SYSTEM INFORMATION 2:Neighbor Cell Frequency DescriptionNCC permittedRACH Control Parameter

SYSTEM INFORMATION 2BIS: Extended neighbor cell BCCH frequency descriptionRACH Control Parameter SYSTEM INFORMATION 2TER :Extended neighbor cell BCCH frequency descriptionMS using dual band

IDLE SYSTEM INFORMATIONSYSTEM INFORMATION 3:Cell IdentityLAI( location area identity)Control Channel DescriptionMS ATTACH/DEATTACH allowed Indicator ATT, BS-AG-BLKS-RES, CCCH-CONF, BA-PA-MFRMS, and T3212.Cell Option (BCCHCell Selection Parameter RACH Control Parameter

SYSTEM INFORMATION 4:LAICell Selection ParameterRACH Control ParameterCBCH Channel Description CBCH Mobile ConfigurationSI4 Rest Oct. (parameters related to cell reselection)

SYSTEM INFORMATION 7 & 8:Cell reselection parameter indicator (PI)Cell Bar Qualify (CBQ)Cell Bar Access (CBA)Cell_Reselect_Offset (CRO)Temporary Offset (TO)Penalty Time (PT)SYSTEM INFORMATION 5: Neighbor Cell BCCH Frequency Description.SYSTEM INFORMATION 5BIS:Extended neighbor cell BCCH frequency descriptionSYSTEM INFORMATION 5TER:Extended neighbor cell BCCH frequency descriptionOnly dual band MS can read information.SYSTEM INFORMATION 6:Cell Global Identity (CGI)LAICell OptionNCC PermittedDEDICATED SYSTEM INFORMATION2G CHANNEL CONFIGURATIONIMPORTANT TO KNOWImportant Type of TRX Channel TypeTCHFR(TCH Full Rate)Can automatically converted to PDTCH at PS BH base on Dynamic PDTCH Conversion parameterIt has 13 kbit/sTCHHR(TCH Half Rate)Cannot automatically converted to PDTCH at PS BH base on Dynamic PDTCH Conversion parameterIt has 5.6 kbit/sSDCCH8(SDCCH8)Contain 8 sub slot = 8 user at same timeMBCCH(Main BCCH)Every cell in 2G should have BCCH for system information broadcast CBCCH(Combined BCCH)BCCH + CCCHBCH(BCH),Extended BCCHBCCH_CBCH(BCCH+CBCH)BCCH + Cell BroadcastSDCCH_CBCH(SDCCH+CBCH)SDCCH/4+ Cell BroadcastPDTCHFor Static PS ChannelDL have 16 TBF at maximum an UL have 7 TBF capacity at MaximumOther:PBCCH_PDTCH(PBCCH+PDTCH), PCCCH_PDTCH(PCCCH+PDTCH), DPDCH(Dynamic PDCH)

Some Sample of Parameter Adjustment referencePower Control 3 INTRACELLHOENEDGESTAT1/ EDGELAST1EGPRS11BITCHANREQ/LQCMODEMAXRESEND SUPPSDLPC

Power Control 3 Implementation Site Information

Change power control type II to power control type III for all cells of cluster Kudus on Mar 26.Type III have more efficient power control than power control II.All CS KPI improve after adjust.

CSSR increased after adjusted

SDSR increased after adjustedPower Control 3 Implementation Site Information63TDR decreased after adjustedHOSR increased after adjust.

Power Control 3 Implementation Site Information64Site Information

INTRACELLHOEN

Adjust parameter INTRACELLHOEN from Yes to No for all NPI cells on February 10.All cells use the RF Hopping, the all TRX quality almost same in the one cell due to use the same frequency.TDR improve after adjust. but HOSR decreased due to more HO requests in the case of bad quality.

CSSR increased after adjustedSDSR increased after adjusted

Site InformationINTRACELLHOEN 66TDR decreased after adjustedHOSR decreased after adjust.

Site InformationINTRACELLHOEN 67Site InformationEDGESTAT1/ EDGELAST1

Adjust EDGESTAT1/ EDGELAST1 to faster for all cells of cluster Kudus on Mar 12MS easier to execute EDGE Handover in the case of the poor Receive Level.TDR &HOSR improve after adjusted.

TDR decreased after adjustedHOSR increased after adjusted

Site InformationEDGESTAT1/ EDGELAST1 69Site InformationEGPRS11BITCHANREQ/LQCMODE

Adjust NO to YES for EGPRS11BITCHANREQ for all cells of cluster Kudus on February 15Speed up the MS access to PDCH channel.IRs error correction better than LA.The PS performance improved after adjusted.

TBF completion Success rate increased after adjusted

Site InformationEGPRS11BITCHANREQ/LQCMODE71 Uplink TBF establish Success Rate increased after adjust Downlink TBF establish Success Rate increased after adjust.

Site InformationEGPRS11BITCHANREQ/LQCMODE72Site Information

MAXRESEND

Adjust 40 to 150 for MAXRESEND for all cells of cluster Purwokerto on February 15The CS performance improved after adjusted.

Uplink TBF establish Success Rate increased after adjust Downlink TBF establish Success Rate increased after adjust.

Site InformationMAXRESEND74

TDR decreased after adjustedHOSR increased after adjust.Site InformationMAXRESEND75Page 76Parameter SummaryFeature activation for PS power control for cluster 4 of Yogya on Apr 12.Reduce the PS interference of CS. improve the quality of CS.The TDR&CSSR&HOSR improved after adjusted. But SDSR decreased due to many cells still have interference.SUPPSDLPC

76 CSSR increased after adjust SDSR decreased after adjust.

Parameter SummarySUPPSDLPC77TDR decreased after adjustedHOSR increased after adjust.

Parameter SummarySUPPSDLPC78CRDATABASE CHANGE REQUESTREQUEST NUMBER102/CCSI/CJ/CW07/2012DATE26-Mar-12CELL NAMEAll cells in listBSC NAMEKudusDESCRIPTION OF CHANGE REQUESTEDTDR optimizationCAUSE OF CHANGE REQUESTREMARKS (if any)

CELL2GNCPARABeforeAfterMMLNE NameCell NameTRXlactationNeighborDLREXLEVHIGHTHREDDLREXLEVLOWTHREDDLFSREXQUALHIGHTHREDDLFSREXQUALLOWTHREDDLREXLEVADJFCTRDLREXQUALADJFCTRDLMAXDOWNSTEPDLMAXUPSTEPULREXLEVHIGHTHREDULREXLEVLOWTHREDULFSREXQUALHIGHTHREDULFSREXQUALLOWTHREDULREXLEVADJFCTRULREXQUALADJFCTRULMAXDOWNSTEPULMAXUPSTEPMejobo-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Mejobo-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Mejobo-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Mejobo-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Mejobo-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Mejobo-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Mejobo-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Mejobo-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Mejobo-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Mejobo-3252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Mejobo-3", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Mejobo-3",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Mejobo DCS-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Mejobo DCS-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Mejobo DCS-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Mejobo DCS-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Mejobo DCS-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Mejobo DCS-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Mejobo DCS-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Mejobo DCS-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Mejobo DCS-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Mejobo DCS-3252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Mejobo DCS-3", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Mejobo DCS-3",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Bulung-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Bulung-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Bulung-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Bulung-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Bulung-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Bulung-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Bulung-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Bulung-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Bulung-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Combat Pura Kudus DCS-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Combat Pura Kudus DCS-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Combat Pura Kudus DCS-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Combat Pura Kudus DCS-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Combat Pura Kudus DCS-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Combat Pura Kudus DCS-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Combat Pura Kudus DCS-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Combat Pura Kudus DCS-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Combat Pura Kudus DCS-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Polytron Kudus-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Polytron Kudus-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Polytron Kudus-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Polytron Kudus-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Polytron Kudus-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Polytron Kudus-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Polytron Kudus-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Polytron Kudus-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Polytron Kudus-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Polytron Kudus DCS-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Polytron Kudus DCS-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Polytron Kudus DCS-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Polytron Kudus DCS-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Polytron Kudus DCS-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Polytron Kudus DCS-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Polytron Kudus DCS-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Polytron Kudus DCS-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Polytron Kudus DCS-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Kudus-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Kudus-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Kudus-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Kudus-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Kudus-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Kudus-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Kudus-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Kudus-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Kudus-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Kudus DCS-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Kudus DCS-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Kudus DCS-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Kudus DCS-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Kudus DCS-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Kudus DCS-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Kudus DCS-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Kudus DCS-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Kudus DCS-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Kudus II Inner-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Kudus II Inner-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Kudus II Inner-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Kudus II Inner-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Kudus II Inner-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Kudus II Inner-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Kudus II Inner-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Kudus II Inner-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Kudus II Inner-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Kudus II Inner DCS-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Kudus II Inner DCS-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Kudus II Inner DCS-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Kudus II Inner DCS-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Kudus II Inner DCS-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Kudus II Inner DCS-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Kudus II Inner DCS-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Kudus II Inner DCS-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Kudus II Inner DCS-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Combat Pura Kudus-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Combat Pura Kudus-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Combat Pura Kudus-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Combat Pura Kudus-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Combat Pura Kudus-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Combat Pura Kudus-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Combat Pura Kudus-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Combat Pura Kudus-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Combat Pura Kudus-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Combat Kudus Timur-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Combat Kudus Timur-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Combat Kudus Timur-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Combat Kudus Timur-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Combat Kudus Timur-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Combat Kudus Timur-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Combat Kudus Timur-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Combat Kudus Timur-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Combat Kudus Timur-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Combat Kudus Timur DCS-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Combat Kudus Timur DCS-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Combat Kudus Timur DCS-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Combat Kudus Timur DCS-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Combat Kudus Timur DCS-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Combat Kudus Timur DCS-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Combat Kudus Timur DCS-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Combat Kudus Timur DCS-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Combat Kudus Timur DCS-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;PTP Kudus-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="PTP Kudus-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="PTP Kudus-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;PTP Kudus-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="PTP Kudus-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="PTP Kudus-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;PTP Kudus-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="PTP Kudus-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="PTP Kudus-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;PTP Kudus DCS-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="PTP Kudus DCS-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="PTP Kudus DCS-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;PTP Kudus DCS-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="PTP Kudus DCS-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="PTP Kudus DCS-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;PTP Kudus DCS-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="PTP Kudus DCS-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="PTP Kudus DCS-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Matahari Kudus-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Matahari Kudus-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Matahari Kudus-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Matahari Kudus-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Matahari Kudus-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Matahari Kudus-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Matahari Kudus-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Matahari Kudus-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Matahari Kudus-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Djarum Kudus Indoor-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Djarum Kudus Indoor-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Djarum Kudus Indoor-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Pasuruhan-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Pasuruhan-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Pasuruhan-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Pasuruhan-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Pasuruhan-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Pasuruhan-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Pasuruhan-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Pasuruhan-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Pasuruhan-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Pendopo Kudus-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Pendopo Kudus-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Pendopo Kudus-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Pendopo Kudus-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Pendopo Kudus-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Pendopo Kudus-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Pendopo Kudus-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Pendopo Kudus-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Pendopo Kudus-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Jatikulon-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Jatikulon-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Jatikulon-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Jatikulon-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Jatikulon-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Jatikulon-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Jatikulon-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Jatikulon-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Jatikulon-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Melati Kidul DCS-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Melati Kidul DCS-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Melati Kidul DCS-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Melati Kidul DCS-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Melati Kidul DCS-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Melati Kidul DCS-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Melati Kidul DCS-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Melati Kidul DCS-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Melati Kidul DCS-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Kalipitu (NS)-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Kalipitu (NS)-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Kalipitu (NS)-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Kalipitu (NS)-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Kalipitu (NS)-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Kalipitu (NS)-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Kalipitu (NS)-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Kalipitu (NS)-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Kalipitu (NS)-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Bulung DCS-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Bulung DCS-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Bulung DCS-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Bulung DCS-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Bulung DCS-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Bulung DCS-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Bulung DCS-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Bulung DCS-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Bulung DCS-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Jatikulon DCS-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Jatikulon DCS-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Jatikulon DCS-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Jatikulon DCS-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Jatikulon DCS-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Jatikulon DCS-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Jatikulon DCS-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Jatikulon DCS-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Jatikulon DCS-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Pasuruhan DCS-0252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Pasuruhan DCS-0", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Pasuruhan DCS-0",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Pasuruhan DCS-1252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Pasuruhan DCS-1", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Pasuruhan DCS-1",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;Pasuruhan DCS-2252516162648202016162648SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="Pasuruhan DCS-2", PWRCTRLSW=PWR3;SET GCELLPWR3: IDTYPE=BYNAME, CELLNAME="Pasuruhan DCS-2",DLREXLEVHIGHTHRED=25,DLREXLEVLOWTHRED=25,DLFSREXQUALHIGHTHRED=16,DLFSREXQUALLOWTHRED=16,DLREXLEVADJFCTR=2,DLREXQUALADJFCTR=6,DLMAXDOWNSTEP=4,DLMAXUPSTEP=8,ULREXLEVHIGHTHRED=20,ULREXLEVLOWTHRED=20,ULFSREXQUALHIGHTHRED=16,ULFSREXQUALLOWTHRED=16,ULREXLEVADJFCTR=2,ULREXQUALADJFCTR=6,ULMAXDOWNSTEP=4,ULMAXUPSTEP=8;SET GCELLPWRBASIC: IDTYPE=BYNAME, CELLNAME="1", PWRCTRLSW=PWR3;

Sheet1Cell NameCSSR (%)Kudus DCS-098.16Bulung-091.67Mejobo DCS-195.94Kudus II Inner DCS-197.21Bulung-192.59Polytron Kudus DCS-198.15Combat Pura Kudus DCS-197.46Bulung-294.36Combat Kudus Timur-095.26Combat Kudus Timur-194.05Combat Kudus Timur-294.55Mejobo DCS-397.37Polytron Kudus DCS-297.61Mejobo DCS-297.74Combat Pura Kudus-091.74Kudus II Inner DCS-098.15Combat Pura Kudus-192.40Combat Pura Kudus-296.53Djarum Kudus Indoor-099.64Jatikulon-091.40Jatikulon-196.29Jatikulon-296.06Kalipitu (NS)-097.56Kalipitu (NS)-197.57Combat Kudus Timur DCS-198.35Kalipitu (NS)-295.94Combat Pura Kudus DCS-297.29Kudus II Inner-095.82Kudus II Inner-188.66Kudus DCS-198.21Polytron Kudus DCS-097.84Kudus II Inner-295.60Kudus-095.71Kudus-194.45PTP Kudus DCS-297.15Kudus-294.10Matahari Kudus-092.70Matahari Kudus-196.39Matahari Kudus-297.91Mejobo-091.45Mejobo-189.53PTP Kudus DCS-098.58PTP Kudus DCS-197.44Combat Kudus Timur DCS-098.45Jatikulon DCS-198.12Combat Kudus Timur DCS-298.29Mejobo-292.73Mejobo-386.12Bulung DCS-097.54Combat Pura Kudus DCS-098.54Kudus II Inner DCS-298.35Bulung DCS-198.61Pasuruhan-089.52Pasuruhan-188.26Melati Kidul DCS-097.85Pasuruhan DCS-197.45Kudus DCS-297.93Bulung DCS-298.34Pasuruhan-284.50Pendopo Kudus-094.27Jatikulon DCS-098.49Melati Kidul DCS-197.42Pendopo Kudus-193.27Jatikulon DCS-298.52Melati Kidul DCS-298.24Pendopo Kudus-297.70Polytron Kudus-095.48Polytron Kudus-193.78Polytron Kudus-294.50Pasuruhan DCS-297.69Mejobo DCS-098.45PTP Kudus-094.47Pasuruhan DCS-097.91PTP Kudus-192.89PTP Kudus-294.65

CRDATABASE CHANGE REQUESTREQUEST NUMBER/CCSI/CJ/CW06/2012DATE10-Feb-12CELL NAMEAll cells in listBSC NAMEKudus-Solobaru-Teluk1-Gombel1-Gombel2-Johar1DESCRIPTION OF CHANGE REQUESTEDSet INTRACELLHOEN from YES to NO in a Cell for improve Traffic Dropcall rateCAUSE OF CHANGE REQUESTto improve Taffice Dropcall rateREMARKS (if any)

CELL2GNCPARABeforeAfterNE NameCell NameINTRACELLHOENINTRACELLHOENGKudusBulung-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Bulung-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusBulung-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Bulung-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusBulung-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Bulung-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusCombat Kudus Timur-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Combat Kudus Timur-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusCombat Kudus Timur-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Combat Kudus Timur-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusCombat Kudus Timur-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Combat Kudus Timur-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusCombat Pura Kudus-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Combat Pura Kudus-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusCombat Pura Kudus-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Combat Pura Kudus-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusCombat Pura Kudus-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Combat Pura Kudus-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusCombat Pura Kudus DCS-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Combat Pura Kudus DCS-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusCombat Pura Kudus DCS-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Combat Pura Kudus DCS-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusCombat Pura Kudus DCS-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Combat Pura Kudus DCS-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusDjarum Kudus Indoor-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Djarum Kudus Indoor-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusJatikulon DCS-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Jatikulon DCS-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusJatikulon DCS-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Jatikulon DCS-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusJatikulon DCS-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Jatikulon DCS-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusJatikulon-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Jatikulon-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusJatikulon-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Jatikulon-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusJatikulon-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Jatikulon-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusKudus-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Kudus-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusKudus-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Kudus-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusKudus-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Kudus-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusKudus II Inner-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Kudus II Inner-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusKudus II Inner-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Kudus II Inner-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusKudus II Inner-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Kudus II Inner-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusKudus II Inner DCS-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Kudus II Inner DCS-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusKudus II Inner DCS-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Kudus II Inner DCS-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusKudus II Inner DCS-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Kudus II Inner DCS-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusKudus DCS-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Kudus DCS-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusKudus DCS-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Kudus DCS-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusKudus DCS-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Kudus DCS-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusMatahari Kudus-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Matahari Kudus-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusMatahari Kudus-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Matahari Kudus-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusMatahari Kudus-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Matahari Kudus-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusMejobo-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Mejobo-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusMejobo-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Mejobo-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusMejobo-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Mejobo-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusMejobo-3YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Mejobo-3", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusMejobo DCS-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Mejobo DCS-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusMejobo DCS-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Mejobo DCS-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusMejobo DCS-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Mejobo DCS-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusMejobo DCS-3YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Mejobo DCS-3", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusPasuruhan-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Pasuruhan-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusPasuruhan-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Pasuruhan-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusPasuruhan-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Pasuruhan-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusPendopo Kudus-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Pendopo Kudus-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusPendopo Kudus-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Pendopo Kudus-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusPendopo Kudus-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Pendopo Kudus-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusPolytron Kudus-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Polytron Kudus-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusPolytron Kudus-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Polytron Kudus-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusPolytron Kudus-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Polytron Kudus-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusPolytron Kudus DCS-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Polytron Kudus DCS-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusPolytron Kudus DCS-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Polytron Kudus DCS-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusPolytron Kudus DCS-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Polytron Kudus DCS-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusPTP Kudus-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="PTP Kudus-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusPTP Kudus-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="PTP Kudus-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusPTP Kudus-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="PTP Kudus-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusPTP Kudus DCS-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="PTP Kudus DCS-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusPTP Kudus DCS-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="PTP Kudus DCS-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;KudusPTP Kudus DCS-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="PTP Kudus DCS-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruAdem Ayem-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Adem Ayem-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruAdem Ayem-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Adem Ayem-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruAdem Ayem-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Adem Ayem-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruAdem Ayem DCS-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Adem Ayem DCS-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruAdem Ayem DCS-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Adem Ayem DCS-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruAdem Ayem DCS-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Adem Ayem DCS-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruAsia Motor-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Asia Motor-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruAsia Motor-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Asia Motor-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruAsia Motor-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Asia Motor-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruAsia Motor DCS-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Asia Motor DCS-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruAsia Motor DCS-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Asia Motor DCS-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruAsia Motor DCS-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Asia Motor DCS-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruBanjarsari-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Banjarsari-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruBanjarsari-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Banjarsari-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruBanjarsari-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Banjarsari-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruBanjarsari DCS-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Banjarsari DCS-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruBanjarsari DCS-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Banjarsari DCS-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruBanjarsari DCS-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Banjarsari DCS-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruBello-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Bello-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruBello-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Bello-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruBello-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Bello-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruBello DCS-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Bello DCS-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruBello DCS-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Bello DCS-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruBello DCS-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Bello DCS-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruBeteng Trade Center-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Beteng Trade Center-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruColomadu-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Colomadu-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruColomadu-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Colomadu-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruColomadu-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Colomadu-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruColomadu DCS-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Colomadu DCS-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruColomadu DCS-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Colomadu DCS-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruColomadu DCS-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Colomadu DCS-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruCoyudan-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Coyudan-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruCoyudan-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Coyudan-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruCoyudan-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Coyudan-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruCoyudan DCS-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Coyudan DCS-0", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruCoyudan DCS-1YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Coyudan DCS-1", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruCoyudan DCS-2YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Coyudan DCS-2", HOCTRLSWITCH=HOALGORITHM1, INTRACELLHOEN=NO;SolobaruDr Rajiman DCS-0YESNOSET CELLHOBASIC: IDXTYPE=BYNAME, CELLNAME="Dr Rajiman DCS-0", HOCTRLSWITCH=HO