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DESCRIPTION
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4/11/12Prepared by Yalçın KOÇ
Preface
Competency §Level 2
Workshop Content
ü Add cell ParametersüNeighbor ParametersüFeatures
4/11/12
IDLE MODE VALUE REMARKSCELL ACCESS
cell_bar_qualify 0; disabledcellBarAccClass 0; disabledcellBarAccess 0; depends on system (DCS1800)
EMERGENCY CALL ACCESSemergencyClass 0; enabled for all access class
C1 & MS ACCESS MINIMUMrxlev_access_min 5;6;8;9;10;12; higher the value, more score for call set upms_power_offset 0; no offsetms_txpwr_max_cch 5; maximum ms output power (33 dBm)
RESELECTION ACROSS LOCATION AREAcellReselectHys 3;4; depends on LAC border design
CELL RESELECTION C2cellReselectOffs 0;2;3; dependentcellReselParamInd 0;1; enable only for particular cellpenalty_time 0;1; 20;31; dependent
temporary_offset0; dependentCHANNEL AND BLOCK CONFIGURATION
bs_ag_blks_res 2; provide enough common channel block for access grantccch_conf 0; depends on the number of channel equipped n a cell
INTERFERENCE AVERAGING (IOI)intave 8; use for channel allocation priority
PLMN ALLOWEDnccOfPlmnAllowed 255; must be equal to the NCC
PAGINGbs_pa_mfrms 2; depends on the paging loadextendedPagingAct 1; enabled extended paging
Add Cell Parameters – Idle Mode
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CALL SETUP VALUE REMARKSCALL RE-ESTABLIHMENT
reestablishAllwd 1; disabledCHANNEL ALLOCATION BY INTERFERENCE BAND
interfer_band0 1; highest tch allocation priorityinterfer_band1 3; interfer_band2 6; interfer_band3 10; interfer_band4 63; tch not allocated if exceeded I-band4
CHANNEL REQUESTS
max_retran 1;2;3;maximum [2]; [4]; [7] retransmission of channel request messages respectively
tx_integer 15; 50 RACH slots are used to spread the transmission
threshold 7;CRM (Cell Resource Manager) maximum 7 attempts to assign SCCP
IMPROVED SDCCH & TCH CONTROL (GSR9)sdcch_priority 0;1;2;3 0 for BCCH, 1;2;3 for non-BCCH RTFschan_alloc_priority 3;1; 3 for BCCH, 1 for non-BCCH RTFs
MS ACCESS POWER OUTPUTms_power_offset 0; no offsetms_txpwr_max_cch 5; maximum ms output power (33 dBm)
OUT RANGE TIMING ADVANCEpoor_initial_assignment 0; disabled the out of range timing advancems_max_range 63; depends on the site distance
PERIODIC LOCATION UPDATE TIMERrr_t3212 60; MSC detach timer must longer than it
SIGNALING ESTABLISHMENT TIMERtt_3101 5000; time for ms to establish on SDCCH
WAIT INDICATION TIMER
waitIndicParams 5;waiting time after IMM ASSIGN REJECT message received (T3122 on MS)
SECOND ASSIGNMENTsecond_asgnmnt 1; enabled second assignment
Add Cell Parameters – Call Setup
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CALL QUEUE VALUE REMARKSTCH QUEUE
maxQLengthChan 0; depends on MSC featuresqueueMgtInfo 0; depends on MSC features
assign_successful 15000;Wait time to sent “CLEAR REQUEST MESSAGE” to MSC for successful assignment
bssmap_t11 10000; specifies the wait time for a queued resource requestHANDOVER QUEUING
bssmap_tqho 30000; no free TCHs exist on the target BTS for an inter-BSS handover. SDCCH QUEUE
maxQLgtSdcchs 0; depends on MSC features
Add Cell Parameters – Call Queue
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SDCCH CONTROLS VALUE REMARKSASSIGNMENT OF RESOURCES
immediateAssMode N/A; assign SDCCH only.(deleted by Fast Call Setup Feature)CHANNEL RECONFIGURATION
channelReconfig 1; dynamic channel reconfigurationmaxNumberOfSdcch 128; depends on cch_conf
sdcchNeedHighWm2;3;4;5;6;7;8;11;
sdcchNeedLowWm12;13;14;15;16;17;18;20;25; LowWm-HighWm≥9; the value is suitable for all cch_conf type
tchFullNeedLowWm 0;2;3;4; minimum number of TCH reserved for dynamic reconfigurationEXPLICIT SDCCH ASSIGNMENT
sd_load 2;maximum number of timeslots which will be configured as SDCCHs on an RTF
sd_priority 0;0 for BCCH; 1 for non-BCCH. BCCH should have the highest priority
PREFERRED NUMBER OF SDCCHnumSdcchsPref depends on cch_conf
SDCCH HANDOVERsdcch_ho 0; depends on MSC featuressdcch_timer_ho 2; depends on MSC features
Add Cell Parameters – SDCCH Control
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PAGING VALUE REMARKSCHANNEL AND BLOCK CONFIGURATION
bs_ag_blks_res 2; provide enough common channel block for access grantccch_conf 0; depends on the number of channel equipped in a cell
PAGINGbs_pa_mfrms 2; depends on the paging loadextendedPagingAct 1; enabled extended paging
PERIODIC LOCATION UPDATE TIMER
rr_t3212 60;MSC detach timer must longer than it but short enough to remove dead mobile ASAP
Add Cell Parameters – Paging
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CALL CLEARING VALUE REMARKS
CRM TIMERSdealloc_inact 10000; time to govern the deallocation of channel
NORMAL CHANNEL RELEASE TIMER
rr_t310914400;23000; time to govern channel release due to radio link timeout, rr_t3109>radioLinkTimeout
rr_t3110 timer in ms that is hard coded by the ms manufacturer
rr_t3111_sd 1500;time allowed to delay the deactivation of an SDCCH channel after the disconnection of the main signaling link
rr_t3111_tch 1500;time allowed to delay the deactivation of an traffic channel (TCH) after the disconnection of the main signaling link
RADIO LINK REVIVALfull_pwr_rfloss 1; full power transmit from both ms and bts if llinkAboutToFaillinkAboutToFail 3;6;8; 12;24;32 SACCH frames (5.76; 11.52;15.36 seconds)
RADIO LINK TIMEOUT (DOWNLINK)radioLinkTimeout 4;7;9; 20;32;40 SACCH frames (9.6;15.36;19.2 seconds)
RSS UPLINK FAILURE DETECTION
link_fail 4;7;8;
20;32;36 SACCH frames (9.6;15.36;17.28 seconds) the number of lost SACCH multiframes before a loss ofSACCH is reported to Abis
Add Cell Parameters – Call Clearing
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STANDART HANDOVER VALUE REMARKS
INTER-CELL HANDOVERinterCellHoAllowd 1; enabled
INTRA-CELL HANDOVERintraCellHoAllowd 1; enabled
ho_ack 10000;timer specifies the interval allowed to wait for the BTS/BSC assignment of the target handover channel
hop_count 1; limits the number of intra-cell interference handovers for a call
hop_count_timer 30; within the time set by the hop_count_timer, the system escalates the handover to an RXQUAL handover to another cell
Add Cell Parameters – HandOver
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STANDART HANDOVERVALUE REMARKS
UPLINK QUALITYulRxqualHoAllowed 1; enabledalg_num 0; unweightedrxqual_ul_ho (hreqave;hreqt;qual_weight; qual_power_flag;qual_margin_flag;adj_qual_margin) 1;4;1;;;; rxquality handover mechanismdec1UlRxqualAv_h 0; bin numberl_rxqual_ul_h 250;400; thresholdho_margin_rxqual 2; data_qual_enabled 0; data use the same threshold. A data call such as modem-to-modem callhop_qual_enabled 1; hopping use differentlRxqualUlHData 0; threshold is meaningless for datalRxqualUlHHopping 250;460; threshold for hopping calldecision_1_n6 1;2;3;4; rxquality handover votingdecision_1_p6 1;2;3; rxquality handover voting
UPLINK INTERFERENCEinterferHoAllowed 1; enabledalg_num 0; unweightedrxlev_ul_ho (hreqave;hreqt;qual_margin_flag; adj_qual_margin) 8;1;;; interference handover mechanismdec1UlRxlevAv_ih 0; bin numberu_rxlev_ul_ih 40; thresholddecision_1_n7 1; interference handover votingdecision_1_p7 1; interference handover voting
DOWNLINK QUALITYdlRxqualHoAllowed 1; enabledrxqual_dl_ho (hreqave;hreqt;qual_weight; qual_power_flag;qual_margin_flag;adj_qual_margin) 1;4;1;; rxquality handover mechanismdec1DlRxqualAv_h 0; bin numberl_rxqual_dl_h 250;300;450; thresholdho_margin_rxqual 2; data_qual_enabled 0; data use the same thresholdhop_qual_enabled 1; hopping use differentlRxqualDlHData 0; threshold is meaningless for datalRxqualDlHHopping 250;460; threshold for hopping calldecision_1_n6 1;2;3;4; rxquality handover votingdecision_1_p6 1;2;3; rxquality handover voting
UPLINK INTERFERENCEinterferHoAllowed 1; enabledrxlev_ul_ho (hreqave;hreqt;qual_margin_flag; adj_qual_margin) 8;1;;; interference handover mechanismdec1UlRxlevAv_ih 0; bin numberu_rxlev_ul_ih 40; thresholddecision_1_n7 1; interference handover votingdecision_1_p7 1; interference handover voting
Add Cell Parameters – HandOver
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STANDART HANDOVER VALUE REMARKSUPLINK LEVEL
ulRxlevHoAllowed 0;1; disabled;enabled;alg_num 0; unweightedrxlev_ul_ho (hreqave;hreqt;qual_margin_flag; adj_qual_margin) 8;1;;; use as interference handover mechanismdec1UlRxlevAv_h 0; bin numberl_rxlev_ul_h 5; thresholdho_margin_rxlev decision_1_n5 1; rxlevel handover votingdecision_1_p5 1; rxlevel handover voting
DOWNLINK LEVELdlRxlevHoAllowed 1; enabledalg_num 0; unweightedrxlev_dl_ho (hreqave;hreqt;qual_margin_flag; adj_qual_margin) 8;1;;; use as interference handover mechanismdec1DlRxlevAv_h 0bin numberl_rxlev_dl_h 8; thresholdho_margin_rxlev decision_1_n5 1; rxlevel handover votingdecision_1_p5 1; rxlevel handover voting
DISTANCEmsDistanceAllowed 0; disabled ms_max_range 20;63; use for poor_initial_assignmentrel_tim_adv (hreqave;hreqt) 4;1; don't caredec1TimAdvAv_alg 0; bin numberdecision_1_n8 1; don't caredecision_1_p8 1; don't care
POWER BUDGETpwrHoAllowed 1; enabledalg_num 0; unweightedrxlev_dl_ho (hreqave;hreqt;qual_margin_flag; adj_qual_margin) 8;1;; use for serving cellsurround_cell (hreqave;hreqt) 4;1; use for neighbor celldec1PBgtRxlevAv_h 0; bin numberdec1NcellRxlevAvH 0; bin numberho_margin_pbgt max_tx_ms (serving cell) 33; use for serving cellms_txpwr_max_def (internal neighbor default) 33; use for internal neighborms_txpwr_max_cell (external neigbor) 33; use for external neighboruseNeiPbgtHreqave 0;1; not using / using the neighbor hreqave hreqave 4; used for neighbor hreqave
Add Cell Parameters – HandOver
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OTHER HANDOVER VALUE REMARKSCRITERIA 1
rxlev_min_def (internal neighbor default) 6;8;10;12;14; use for internal neighborrxlev_min_cell (external neighbor) 6; use for external neighbor
CRITERIA 2ho_margin_def 3;6; use if no specific margin defined
NEIGHBORING CELL PROCESSINGdisuse_cnt_flag 0; disabled; Maximum disuse count is set to 8ho_onlymax_pwr 0; disabled
neighbor_journ 1;no warm up periods for neighbor. 0 rxlev is used for the neighbor if it is missing in the measurement period
worse_nei_ho 0; disabledALTERNATIVE PROCESSING OF RXQUAL MEASUREMENTS
alt_qual_proc 0; rxquality represented by %. Bit Error Rate (BER)MISSING REPORT
missing_rpt 0;1; disabled; enabledSTANDART MS HANDOVER POWER
handoverPwrLevel 5; maximum ms power use for handoverMS HANDOVER POWER LEVEL BASED ON PATH LOSS
use_drv_ho_pwr 0; BSS Derive Handover Power
Add Cell Parameters – Other HandOver
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OTHER HANDOVER VALUE REMARKSDIRECT RETRY & CONGESTION HANDOVER
bnce_prt_mgn 0;6;8;12; specifies the level by which a target cell must exceed the serving cellbnce_prt_qual_tmr 0;12;18; bnce_prt_cong_tmr 12;60; congest_at_target 0;1; congest_at_source 1; congest_ho_margin (per neighbor) 0; congestion handover margindr_std_congest 0; directed retry for TCH allocation not alloweddr_ho_dur_assign 0; directed retry during assignment not allowedmsc_preference 0; directed retry is supported within the BSS, but NOT across the A-interfaceho_exist_congest 1;2; retry_cand_period 4000; exRtryCandPrd 4000; validCandPeriod 4000;
tch_congprev_thr70;90;100; any mobile handover to other cell if threshold is reached
mb_tch_cong_thres 1; dualband mobile handover to other cell if threshold is reachedHANDOVER CHANNEL ESTABLISHMENT
rr_ny1_rep 20; maximum number of repetitions for the PHYSICAL INFORMATION messagerr_t3105 60; repetition between transmissions
HANDOVER EVALUATING
bssmap_17 minimum time interval between the BSS sending of handover required messages for the same connections
HANDOVER MARGIN PER CAUSEho_mgn_use_flag (ho_mgn_rxl/ho_mgn_rxq) 1; enabled
HANDOVER REJECTIONhandover_required_reject_switch the BSS will not expect to receive a "HANDOVER REQUIRED REJECT" message
HANDOVER REPORTING
handoverRecPeriod 8;minimum interval between successive "HANDOVER REQUIRED" messages for the same connection sent by the BTS to the BSC
INCOMING HANDOVERen_incom_ho 1; enabled incoming handover
PREFERRED TARGET CELLnumOfPrefCells 6; maximum number of target cells to be included in a "HANDOVER REQUIRED" message
Add Cell Parameters – Other HandOver
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ADAPTIVE HANDOVER VALUE REMARKS
ADAPTIVE POWER BUDGETadap_ho_pbgt 0; disabledadap_trigger_pbgt 0;
ADAPTIVE RXLEVEL HANDOVERadap_ho_rxlev 0; disabledadap_trig_rl_dl 0; adap_trig_rl_ul 0;
ADAPTIVE RXLEVEL HANDOVERadap_ho_al_trg_rq 0; disabledadap_ho_rxqual 0; adap_trg_hop_rqdl 0; adap_trg_hop_rqul 0; adap_trig_rq_dl 0; adap_trig_rq_ul 0;
Add Cell Parameters – Adaptive HandOver
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POWER CONTROL VALUE REMARKSDOWNLINK (BTS) POWERCONTROL DUE TO LEVEL
decision_alg_type 1; enables the use of p_con_ack timersbts_p_con_ack 1;2; timerbts_p_con_intervl 2; timerbtsPwrCntlAllowed 1; enable downlink power controlpow_inc_stepsz_dl 6; power increment step sizepow_red_stepsz_dl 2; power decrement step sizerxlev_dl_pc (hreqave, hreqt) power control mechanismdec1DlRxlevAv_p 0; bin numberl_rxlev_dl_p 17;20; optimizing valueu_rxlev_dl_p 23;26;27;30 optimizing valuedecision_1_n1 1; power increment votingdecision_1_n2 1; power decrement votingdecision_1_p1 1; power increment votingdecision_1_p2 1; power decrement voting
DOWNLINK (BTS) POWERCONTROL DUE TO QUALITYdecision_alg_type 1; enables the use of p_con_ack timersbts_p_con_ack 1;2; timerbts_p_con_intervl 2; timerbtsPwrCntlAllowed 1; enable downlink power controlpow_inc_stepsz_dl 6; power increment step sizepow_red_stepsz_dl 2; power decrement step sizerx_qual_pc (hreqave, hreqt) power control mechanismdec1DlRxqualAv_p 0; bin numberl_rxqual_dl_p 150;256; optimizing valueu_rxqual_dl_p 50; optimizing valuedata_qual_enabled 0; hop_qual_enabled 1; lRxqualDlPData 0; optimizing valuelRxqualDlPHopping 120;150;226; optimizing valuedecision_1_n3 2;4; power increment votingdecision_1_n4 1;2;4; power decrement votingdecision_1_p3 1;2; power increment votingdecision_1_p4 1;2;4; power decrement voting
Add Cell Parameters – Power Control
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POWER CONTROL VALUE REMARKSUPLINK (MS) POWERCONTROL DUE TO LEVEL
decision_alg_type 1; enables the use of p_con_ack timersms_p_con_ack 2;3; timerms_p_con_interval 2; timermsPowerCntlAllowd 1; enable uplink power controlpow_inc_stepsz_ul 6; power increment step sizepow_red_stepsz_ul 2; power decrement step sizerxlev_ul_pc (hreqave, hreqt) power control mechanismdec1UlRxlevAv_p 0; bin numberl_rxlev_ul_p 18;20;21;22;27; optimizing valueu_rxlev_ul_p 24;28;30;32;35;37; optimizing valuedecision_1_n1 1; power increment votingdecision_1_n2 1; power decrement votingdecision_1_p1 1; power increment votingdecision_1_p2 1; power decrement voting
UPLINK (MS) POWERCONTROL DUE TO QUALITYdecision_alg_type 1; enables the use of p_con_ack timersms_p_con_ack 1;2; timerms_p_con_intervl 2; timermsPowerCntlAllowd 1; enable uplink power controlpow_inc_stepsz_ul 6; power increment step sizepow_red_stepsz_ul 2; power decrement step sizerx_qual_pc (hreqave, hreqt) power control mechanismdec1UlRxqualAv_p 0; bin numberl_rxqual_ul_p 150; optimizing valueu_rxqual_ul_p 50; optimizing valuedata_qual_enabled 0; hop_qual_enabled 1; lRxqualUlPData 0; optimizing valuelRxqualUlPHopping 120;226; optimizing valuedecision_1_n3 2;4; power increment votingdecision_1_n4 1;2;4; power decrement votingdecision_1_p3 1;2; power increment votingdecision_1_p4 1;2;4; power decrement voting
Add Cell Parameters – Power Control
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POWER CONTROL VALUE REMARKSOPTIMIZED POWER CONTROL
dyn_step_adj 1; enabled
dyn_step_adj_fmpr 3;5;10;the percentage power reduction used in the dynamic power reduction calculation
pow_inc_stepsz_dl 6; power increment step sizepow_red_stepsz_dl 2; power decrement step sizepow_inc_stepsz_ul 6; power increment step sizepow_red_stepsz_ul 2; power decrement step size
OSCILLATION PREVENTION FOR MS POWER CONTROLmspwr_alg 1; enabled
RAPID MS POWER DOWNrapid_pwr_down 0;1; disabled;enabledrpd_offset 0; power down level in dBrpd_period 2; measuring periodrpd_trigger 30; threshold
DOWNLINK DISCONTINUOUS TRANSMISSONdnlk_vad_dtx enables downlink DTX at XCDRmsc_qt defaultdl_dtx_voice_data 0; enables downlink DTX at BSC
DOWNLINK DISCONTINUOUS TRANSMISSONdtx_required 1; ms must use DTX
Add Cell Parameters – Power Control
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Add Cell Parameters – TCH Flow Control
TCH FLOW CONTROL VALUE REMARKStch_flow_control 0; disabledtch_busy_critical_threshold 2 access class will be barred when TCH usage reached the thresholdtch_busy_norm_threshold 1 access class will be barred when TCH usage reached the threshold
flow_control_t1 10000;wait time before the Flow Control mechanism considers new overload messages
flow_control_t220000;30000;
wait time before a previously flow control barred access class is brought back in service
There is no parameters that can be optimized to reduce theTCH allocation failure rateSince it is related to the system design. However, TCH Flow control can restrict mobile to access the cell when the cell is busy and hence reduce the occurrence of TCH allocation Failure.
If TCH flow control is activated the paging response rate may lowered.
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Neighbor Parameters – HO Algorithm Type
Ø Type 1 – Standart Power Budget
ØType 2 – Macro Neighbor
ØType 3 – Round the corner neighbor
ØType 4 – Micro - Micro Neighbor
ØType 5 – Micro Neighbor
ØType 6 – Siemens Power Budget
ØType 7 – Adjacent Channel
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server
HO Neig
HANDOVER
Server MacroHO NeigMacro
SSI (HO Neig) > SSI (Server)
Neighbor Parameters – HO Algorithm Type
Type 1 – Standart Power Budget
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HANDOVER
Server MicroHO NeigMacro
RxQuality (Server) < Threshold)
Neighbor Parameters – HO Algorithm Type
Type 2 – Macro Neighbor
server
HO Neig
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HANDOVER
Server MicroHO NeigMacro
SSI (Server) < Threshold); Type 1
Neighbor Parameters – HO Algorithm Type
Type 3 – Round the Neighbor
server
HO Neig
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HANDOVER
Server MicroHO NeigMicro
Timer(Server) >Threshold); Type 1
Neighbor Parameters – HO Algorithm Type
Type 4 – Micro – Micro Neighbor
server
HO Neig
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HANDOVER
Server MacroHO NeigMicro
SSI, Timer (Neighbor) >Threshold); Type 1
Neighbor Parameters – HO Algorithm Type
Type 5 – Micro Neighbor
server
HO Neig
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HANDOVER
Server MacroHO NeigMacro
Offset, Timer (Overshoot Cell) > Threshold, Type 1
Neighbor Parameters – HO Algorithm Type
Type 6 – Transient Power Budget
HO Neig
Server
Cell
Overs
hoot
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HANDOVER
Server MacroHO NeigMacro
SSI (Adjacent Channel)- SSI (Server) > Threshold, Type 1
Neighbor Parameters – HO Algorithm Type
Type 7 – Adjacent Channel
HO Neig
Server
Adjacen
t
Channel
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MICRO CELL HANDOVER SETTINGSSERVER
HO NEIGHBOR
HO MARGIN
HO ALGORITHM TYPE
HO ALGORITHM TYPE PARAMTERS
Micro Macro 6 3UL & DL Threshold = 18Micro Micro 6 1
Macro Micro -12 ~ - 18 5Delay Timer= 10; Neighbor Threshold = 25
Neighbor Parameters – HO Algorithm Type
All the algorithm type can also be used for Macro –to –Macro cell handover for traffic sharing.
The fallowing is the suggested setting for microcell handover
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Features– Adaptive Handover
Handover per cause statistic should be collected before activate the adaptive handover.
It is used to compare the handover causes before and after activate the adaptive handover.
Handover cause ratio should remain no change after activation.
For a non-hoping systems, the ration of the downlink rxqualiy and uplink rxquality to Handover cause attempt is normaly 10% to 15 %
For a hopping system the ratio is around %20 to 30%
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POWER CONTROLVALUE REMARKS
ADAPTIVE POWER BUDGETadap_ho_pbgt 1; enable PBGT Adaptive Handoveradap_trigger_pbgt 20; PBGT handover trigger thresholdho_margin_cell (per neighbor) 0;
value accumulate when PBGT > ho_margin_cell, reset to 0 if PBGT< ho_margin_cell
use_neighbor_pbgt_hreqave 0; rxlev_dl_ho[0] (hreqave) 1; surround_cell[0] (hreqave) 1;
ADAPTIVE RXLEVEL HANDOVERadap_ho_rxlev 0; disabled (not recommended)adap_trig_rl_dl 0; adap_trig_rl_ul 0;
ADAPTIVE RXQUAL HANDOVERadap_ho_al_trg_rq 1; enable different trigger threshold for hoppingadap_ho_rxqual 1; enable rxquality adaptive handover
adap_trg_hop_rqdl1200; hopping trigger threshold
adap_trg_hop_rqul1200; hopping trigger threshold
adap_trig_rq_dl1000; non-hopping trigger threshold
adap_trig_rq_ul1000; non-hopping trigger threshold
l_rxqual_dl_h 226;value accumulate when rxqual>l_rxqual_dl_h, reset to 0 if rxqual<l_rxqual_dl_h
l_rxqual_ul_h 226;value accumulate when rxqual>l_rxqual_ul_h, reset to 0 if rxqual<l_rxqual_ul_h
rxqual_dl_ho[0] (hreqave) 1 rxqual_ul_ho[0] (hreqave) 1
Features– Adaptive Handover