Huawei Radio Parameters v1 0 4

Huawei

Siemens

Huawei Parameter Name

Huawei Range

Huawei Default Value

Huawei Proposed Value

Huawei Command

Parameter

MCC

000~999.

-

-

ADD CNOPERATOR

MCC

MNC

00~99 or 000~999

-

ADD CNOPERATOR

NNC

-

drxclc_cs ADD CNDOMAIN DRXCycleLenCoef

6 to 9

6

6 drxclc_ps ADD CNDOMAIN

DRXCycleLenCoef

6 to 9

6

6 Parameter of interfrequency handover mmco

COEXIST_MEAS_TH D_CHOICE_INTERF REQ, COEXIST_MEAS_TH COEXIST_MEA COEXIST_MEA D_CHOICE_INTERR S_THD_CHOIC S_THD_CHOIC AT. E_INTERFREQ E_INTERFREQ SET HOCOMM COEXISTMEASTHDCHOICE

BLINDHOFLAG

FALSE,TRUE

FALSE

FALSE

ADD INTERFREQNC ELL

Null hyst_2a Null

Null

Null Null

Null

Null IFHOUsedFreqCSThdEcN0 UsedFreqR99PsThdEcN0 UsedFreqHThdEcN0

SET INTERFREQHO COV

-24 to 0 [dB] -12

thruf_2b

-115 to -25 [dBm] IFHOUsedFreqCSThdRSCP UsedFreqR99PsThdRSCP UsedFreqHThdRSCP

SET INTERFREQHO COV

-92

wuf_2b

WEIGHTFORUSEDFREQ

0 to 20 Physical value range: 0 to 2, step: 0.1

0

0

SET INTERFREQHO COV

PERIODICAL_REPO SET RTING, PERIODICAL_ PERIODICAL_ INTERFREQHO REPORTING REPORTING COV INTERFREQREPORTMODE EVENT_TRIGGER SET 0 to 14.5, INTERFREQHO step: 0.5 4 2 COV HYSTFOR2B

TRIGTIME2B

D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D240, D320, D640, D1280, D2560, D5000(ms)

tmtrg_2b

640

SET INTERFREQHO COV

-12

SET INTERFREQHO COV

-92

SET INTERFREQHO COV

0

SET INTERFREQHO COV

-24 to 0 [dB] InterFreqCovHOCSThdEcN0 TargetFreqHThdEcN0 TargetFreqR99PsThdEcN0 InterFreqCovHOCSThdRSC -115 to -25 [dBm] P TargetFreqHThdRSCP TargetFreqR99PsThdRSCP 0 to 20 Physical value range: 0 to 2, step: 0.1 WEIGHTFORUSEDFREQ InterFreqCSThd2FEcN0 InterFreqR99PsThd2FEcN0 InterFreqHThd2FEcN0

hyst_2b

thrnouf_2b

wnouf_2b

-24 to 0 [dB] -12

0

SET INTERFREQHO COV

-115 to -25 [dBm] InterFreqCSThd2FRSCP InterFreqR99PsThd2FRSCP InterFreqHThd2FRSCP

-92

WEIGHTFORUSEDFREQ


HYSTFOR2F

0~29 Physical value range: 0~14.5, step: 0.5

TrigTime2F


INTERFREQMEASQUANTIT Y

CPICH_Ec/No, CPICH_RSCP, BOTH*

INTERFREQFILTERCOEF

D0, D1, D2, D3, D4, D5, D6, D7, D8, D9, D11, D13, D15, D17, D19

InterFreqCSThd2DEcN0 InterFreqR99PsThd2DEcN0 InterFreqHThd2DEcN0 InterFreqCSThd2DRSCP InterFreqR99PsThd2DRSCP InterFreqHThd2DRSCP

thruf_2f

wuf_2f

0

0

hyst_2f SET INTERFREQHO COV

4

tmtrg_2f

1280

1280

Hystfor2D


TRIGTIME2D


mq_fqe

ftce

D3

D3

SET INTERFREQHO COV thruf_2d

-14

SET INTERFREQHO COV

-95

SET INTERFREQHO COV

0

0

SET INTERFREQHO COV

0

SET INTERFREQHO COV

-115 a -25 dBm(RSCP)

WEIGHTFORUSEDFREQ

SET INTERFREQHO COV

SET INTERFREQHO CPICH_Ec/No CPICH_Ec/No COV

-24 a 0 dB(Ec/No)


SET INTERFREQHO COV

wuf_2d

hyst_2d

4

tmtrg_2d

D320

D200

SET INTERFREQHO COV

Parameter of intersystem

BANDIND

RATCELLTYPE InterRATCSThd2DEcN0 InterRATR99PsThd2DEcN0 InterRATHThd2DEcN0 InterRATCSThd2DRSCP InterRATR99PsThd2DRSCP InterRATHThd2DRSCP

GSM900_DCS1800_ BAND_USED, GSM900_DCS1 GSM900_DCS1 PCS1900_BAND_US 800_BAND_US 800_BAND_US ED. ED ED ADD GSMCELL

NO_CAPABILITY, GSM, GPRS, EDGE -24 a 0 dB(Ec/No) -115 a -25 dBm(RSCP)

WEIGHTFORUSEDFREQ


HYSTFOR2D


2D2FFILTERCOEF


TRIGTIME2D


2D2FMeasQuantity

CPICH_Ec/No, CPICH_RSCP, BOTH

-

-

fband_gsm

ADD GSMCELL

-14 -15 -15

SET INTERRATHOC OV

-100 -110 -110

SET INTERRATHOC OV

0

SET INTERRATHOC OV

thruf_2dug

wuf_2dug

0

hyst_2dug SET INTERRATHOC OV

4

ftce

3

3

SET INTERRATHOC OV tmtrg_2dug

D320

D320

SET INTERRATHOC OV mq_uqe

INTERRATREPORTMODE InterRATCSThd2FEcN0 InterRATR99PsThd2FEcN0 InterRATHThd2FEcN0 InterRATCSThd2FRSCP InterRATR99PsThd2FRSCP InterRATHThd2FRSCP

CPICH_RSCP

SET INTERRATHOC CPICH_RSCP OV

PERIODICAL_REPO SET RTING, PERIODICAL_ PERIODICAL_ INTERRATHOC EVENT_TRIGGER REPORTING REPORTING OV -24 a 0 dB(Ec/No) -115 a -25 dBm(RSCP)

-12 -13 -13

SET INTERRATHOC OV

-97 -107 -107

SET INTERRATHOC OV

thruf_2f

HYSTFOR2F


TRIGTIME2F


INTER_RAT_PS_OUT_SWI TCH

OFF, ON.

BSICVERIFY

REQUIRE, NOT_REQUIRE

IRHOUsedFreqCSThdEcN0 UsedFreqR99PsThdEcN0 UsedFreqHThdEcN0 IRHOUsedFreqCSThdRSCP UsedFreqR99PsThdRSCP UsedFreqHThdRSCP

-24 a 0 dB(Ec/No) -115 a -25 dBm(RSCP)

hyst_2f

4

2

SET INTERRATHOC OV tmtrg_2f

1280

ON

REQUIRE

1280

SET INTERRATHOC OV

ON

SET CORRMALGOSW ITCH

REQUIRE

SET INTERRATHOC OV

-12 -13 -13

bsic_veri

SET INTERRATHOC OV thrown_3a

-97 -107 -107 throth_3a

InterRATCovHOCSThd TargetRatR99PsThd TargetRatHThd

-110~ -48(1:110; 2:-109; ...; 63:-48 )

WEIGHTFORUSEDFREQ

Value range: 0~20 Physical value range: 0~2; step: 0.1

HYSTFOR3A

Value range: 0~15 Physical value range: 0~7.5dB, step: 0.5

TRIGTIME3A


SIRMEASFILTERCOEF


16(-95dBm)

SET INTERRATHOC OV

0

SET INTERRATHOC OV

w_3a

0

hyst_3a

4

0

SET INTERRATHOC OV tmtrg_3a

SET INTERRATHOC OV

D0

Parameter of Outer Loop P mmfc_sierr

D0

D0

SET OLPC

SIRerror,min

SIRCONVERGETHD

0~63. Physical value range: 0~31.5; step: 0.5dB

6 (3dB)

6 (3dB)

SET OLPC SIRerror,max

SIRCONVERGETHD


6 (3dB)

6 (3dB)

SET OLPC

Parameter of syncro no_isync

NINSYNCIND

1~256

5

5

ADD CELLSETUP no_osync

NOUTSYNCIND

1~256

TRLFAILURE

Value range: 0~255. Physical value range: 0~25.5 with the step size of 0.1s

50

50

ADD CELLSETUP t_rlfl

50 (5s)

50 (5s)

ADD CELLSETUP tdch_fachr

DTOFSTATETRANSTIMER

D2F2PTVMTHD

D2FTVMTIMETOTRIG

D2FTVMPTAT

1~65535s D8, D16, D32, D64, D128, D256, D512, D1024, D2k, D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D250, D500, D1000, D2000, D4000, D8000,

180s

D64

5s

SET UESTATETRAN S

D64

SET UESTATETRAN S

D5000

D5000

D16000

D1000

SET UESTATETRAN S SET UESTATETRAN S

BEH2FSTATETRANSTIMER

BEH2FTVMTHD

BEH2FTVMTIMETOTRIG

D8,1~65535s D16, D32, D64, D128, D256, D512, D1024, D2k, D0, D10, D20, D40, D60, D80, D100, D120, D250, D160, D500, D200, D1000, D2000, D4000, D8000, D16000

180s

5s

D64

D64

SET UESTATETRAN S SET UESTATETRAN S

D5000

SET UESTATETRAN S

D1000

SET UESTATETRAN S

D5000 (5000ms)

D16000

BEH2FTVMPTAT

thsdsch_fach

tpch_idler

Null tfach_pchr

FtoPStateTransTimer

F2PTVMTIMETOTRIG

F2PTVMPTAT

FTODTVMTHD

FTODTVMTIMETOTRIG

BEFTOHTVMTHD

1 to 65535s D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D240, D320, D640, D1280, D250, D500, D1000, D2000, D4000, D8000, D16000 D16, D32, D64, D128, D256, D512, D1024, D2k, D3k, D4k, D6k, D8k, D12k, D16k, D24k, D32k, D48k, D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D240, D320, D640, D1280, D2560, D16, D32, D64, D128, D256, D512, D1024, D2k, D3k, D4k, D6k, D8k, D12k, D16k, D24k, D32k, D48k,

180s

D5000

D16000

65535

SET UESTATETRAN S

D5000

SET UESTATETRAN S

D16000

SET UESTATETRAN S dl_upt + ul_fdpt

D1024

D512

SET UESTATETRAN S tfach_dchue

240 ms

D1024

240 ms

SET UESTATETRAN S

D512

SET UESTATETRAN S

BEFTOHTVMTIMETOTRIG

CELLRESELECTTIMER

CELLRESELECTCOUNTER

D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D240, D320, D640, D1280, D2560,

1 to 65535s

1 to 65535

240 ms

180

9

240 ms

SET UESTATETRAN S

180

SET UESTATETRAN S

9

SET UESTATETRAN S

20

SET PSINACTTIME R

max_ccros

t_strminact

PsInactTmrForStr

0~14400.sec

20

dch_inact SET PSINACTTI MER

0~14400.sec PSINACTTMRFORINT PSINACTTMRFORBAC

20

20 ulbra_ript

EVENT4ATHD

TIMETOTRIGGER4A

D16, D32, D64, D128, D256, D512, D1024, D2k, D3k, D4k, D6k, D8k, D12k, D16k, D24k, D32k, D48k, D64k, D96k, D128k, D192k, D256k, D384k, D512k, D768k(byte) D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D240, D320,

D1024

D1024

ADD TYPRABDCCCM C tbra_riue

240 ms

240 ms

ADD TYPRABDCCCM C

EVENT4BTHD

TIMETOTRIGGER4B

REGISTEST ORIGHIGHPRIORSIGEST TERMHIGHPRIORSIGEST

D8, D16, D32, D64, D128, D256, D512, D1024, D2k, D3k, D4k, D6k, D8k, D12k, D16k, D24k, D32k, D48k, D64k, D96k, D128k, D192k, D256k, D384k, D512k Physical value range: 8, 16, 32, 64, 128, 256, 512, 1024, 2k, 3k, 4k, 6k, 8k, 12k, 16k, 24k, 32k, 48k, 64k, 96k, 128k, 192k, 256k, 384k, 512k(byte) D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D240, D320, D640, D1280,

ulbra_rdpt

D128

D128

ADD TYPRABDCCCM C tbra_rdue

2560ms

2560ms

ADD TYPRABDCCCM C

FACH, DCH_3.4K_SIGNAL LING, DCH_13.6K_SIGNA DCH_13.6K_S DCH_13.6K_S SET LLING. IGNALLING IGNALLING RRCESTCAUSE

ch_nonrab

ch_nonrab

ORIGLOWPRIORSIGEST TERMLOWPRIORSIGEST DETACHEST

FACH, DCH_3.4K_SIGNAL LING, DCH_13.6K_SIGNA LLING.

FACH

FACH

SET RRCESTCAUSE ch_ibrab

ORIGINTERCALLEST ORIGBKGCALLEST TERMINTERCALLEST TERMBKGCALLEST

ULBETraffInitBitRate DLBETraffInitBitRate

FACH, DCH_3.4K_SIGNAL LING, DCH_13.6K_SIGNA DCH_13.6K_S DCH_13.6K_S SET LLING. IGNALLING IGNALLING RRCESTCAUSE D8, D16, D32, D64, D128, D144, D256, D384, D768, D1024, D1536, D2048 kbit/s

ini_pib

D64 D64

D64 D64

SET FRC

Null UlRateAdjLevel DlRateAdjLevel

2_Rates, 3_Rates 2_Rates, 3_Rates

3_RATES

3_RATES

SET DCCC

3_RATES

3_RATES

SET DCCC po_thra

EVENTEATHD

EVENTEBTHD PWRMARGIN


1 (0.5dB)

1 (0.5dB)

0~111. Physical value range: 0~55.5; step: 0.5dB 0~100. Physical unit: 0.1db.

1 (0.5dB) 20 (2dB)

1 (0.5dB) 20 (2dB)

SET DCCC

SET DCCC SET DCCC mmht_a

DLHYSTTIMEFORE

1~6000. Physical value range: 10~60000; step: 10ms.

64 (640ms)

64 (640ms)

SET DCCC mmht_f

DLHYSTTIMEFORF

1~6000. Physical value range: 10~60000; step: 10ms.

64 (640ms)

64 (640ms)

SET DCCC

DLPSBEGUARRATE

D8, D16, D32, D64, D128, D144, D256, D384. Physical value range: 8, 16, 32, 64, 128, 144, 256, 384 kbit/s.

D64

D64

ADD CELLDCCC

ULPSBEGUARRATE

D8, D16, D32, D64, D128, D144, D256, D384. Physical value range: 8, 16, 32, 64, 128, 144, 256, 384 kbit/s.

D64

D64

ADD CELLDCCC

Parameter of buffer Utilization Mea

Null

Null

Null

Null

Null

Null

Null

Null

Null

Parameter of Dedicated Measu po_thrai Null mmfc_a Null po_thra Null

Null pwrmargin ???? Line 102 ???

thrh_f

thrh_fi Null

TCPMRFILTERCOEF

D0, D1, D2, D3, D4, D5, D6, D7, D8, D9, D11, D13, D15, D17, D19.

mmfc_f

D1

D1

DLHYSTTIMEFORF 1~6000. Physical value range: 10~60000; 64(640ms) step: 10ms. 64(640ms)

SET DCCC SET DCCC

mmht_f mmht_a

Null

Intrafrequency han

FILTERCOEF


ftce

D3

D2

SET INTRAFREQHO mmq

INTRAFREQMEASQUANTIT Y

CPICH_Ec/No, CPICH_RSCP

MAXCELLINACTIVESET

0 1~6 to 29 Physical Value Range(0 to 14.5dB), 0 to 29step Physical Value Range(0 to

IntraRelThdFor1ACS IntraRelThdFor1APS IntraRelThdFor1BCS IntraRelThdFor1BPS

SET CPICH_EC/NO CPICH_EC/NO INTRAFREQHO SET 3 3 INTRAFREQHO

actset rng_repo1a

6 (3dB) 12 (6dB)

6 (3dB)

SET INTRAFREQHO SET INTRAFREQHO

rng_repo1b ofs_reporng

Null WEIGHT

0 to 20 Physical Value Range(0 to 2),

0

0

SET INTRAFREQHO

w1a

Hystfor1A

0 to 15 Physical Value Range(0 to 7.5dB), step 0.5dB

TrigTime1A

D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D240, D320, D640, D1280, D2560, D1,D5000(ms) D2, D4, D8,

D16, D32, D64, infinity NON_PERIODIC_RE PORT, D250, D500, D1000, D2000, D4000, D8000, D16000 REPORTINTERVALFOR1A 0 (ms) to 20

PERIODMRREPORTNUMF OR1A

WEIGHT

Physical Value Range(0 0 to to 15 2),

Hystfor1B

Physical Value Range(0 to 7.5dB), step

TrigTime1B


Hystfor1C


TrigTime1C


hyst1a

0

0

SET INTRAFREQHO tmtrg1a

D320 (320ms)

D320 (320ms)

SET INTRAFREQHO

D16

D16

SET INTRAFREQHO

ramnt1a rintvl1a

4000

4000

SET INTRAFREQHO

0

0

SET INTRAFREQHO

0

SET INTRAFREQHO

w1b hyst1b

0

tmtrg1b

D640 (640ms)

D640 (640ms)

SET INTRAFREQHO hyst1c

8 (4dB)

8 (4dB)

SET INTRAFREQHO tmtrg1c

D640 (640ms)

D640 (640ms)

SET INTRAFREQHO ramnt1c

D1, D2, D4, D8, PERIODMRREPORTNUMF D16, D32, D64, infinity OR1C

D16

D16

SET INTRAFREQHO

NON_PERIODIC_RE PORT, D250, D500, D1000, D2000, D4000, D8000, D16000 (ms) REPORTINTERVALFOR1C

TrigTime1D


Hystfor1D


rintvl1c

4000

4000

SET INTRAFREQHO tmtrg1d

D640 (640ms)

D640 (640ms)

SET INTRAFREQHO hyst1d

8 (4dB)

8 (4dB)

SET INTRAFREQHO

Downlink Power Ba DOWNLINK_POWER_BALA NCE_SWITCH ADJUSTPERIOD

ON,OFF 1~256

ON 2

ON 2

SET CORRMALGOSW ITCH SET DPB

ADJUSTRATIO

0~100. Physical value range: 0~1; step: 0.01.

0

0

SET DPB

MAXADJUSTSTEP

1~10

4

4

SET DPB

DPBSTARTTHD

0~255. Physical value range: 0~127.5; step: 0.5dB.

flag_pb

adj_prd adj_rto

max_adj_stp thr_upd

8(4dB)

8(4dB)

SET DPB Set CAC Algorithm

NODEB_CREDIT_CAC_SWI TCH

ON,OFF

ON

ON

SET CACALGOSWIT CH

LdcSwitch

NODEB_CREDIT_LD R_SWITCH LCG_CREDIT_LDR_ SWITCH LC_CREDIT_LDR_S WITCH

OFF

OFF

SET LDCALGOPARA

LdrFirstPri， LdrSecondPri， LdrThirdPri， LdrFourthPri

IUBLDR CREDITLDR CODELDR UULDR

IUBLDR CREDITLDR CODELDR UULDR

IUBLDR CREDITLDR CODELDR SET UULDR LDCALGOPARA

PreemptAlgoSwitch

QueueAlgoSwitch

DRD_SWITCH

HSDPA_DRD_SWITCH

RAB_DCCC_DRD_SWITCH RAB_SETUP_DRD_SWITC H INTRA_HO_D2H_DRD_SWI TCH INTER_HO_D2H_DRD_SWI TCH

OFF, ON

OFF, ON

ON,OFF

ON,OFF

ON,OFF

ON,OFF

ON,OFF

ON,OFF

OFF

OFF

OFF

OFF

OFF

OFF

OFF

OFF

OFF

SET QUEUEPREEMP T

OFF

SET QUEUEPREEMP T

ON


ON


ON


ON


ON


ON


Siemens Description

Range

NSN Live Network Value

Parameter

Mobile country code

000 to 999

502

MCC

Mobile network codeMCC+MNC.

00 to 99 or 000 to 999

12

MNC

Used to calculate time interval between 2 paging occasion UE should monitor with DRX active for PS services.

6..9

7

cnDrxCycleLength Cs

Used to calculate time interval between 2 paging occasion UE should monitor with DRX active for CS services.

6..9

7

cnDrxCycleLength Ps

iffst: Interfrequency handover first (2d) isfst: Inter-system handover first (2d’)

iffst

hoType

enable blind handover .

True, False.

Parameter not found in UMR5. Closest is ifho_wocm = false

#N/A

Weighting factor to be applied to the freq used relating to event2A

0.0 to 2.0 step 0.1

0.1

#N/A

Hysteresis for event 2A

0.0 to 14.5 step 0.5

4

#N/A

Time between evant 2a and 0, 10, 20, 40, 60, send of Measurement 80, 100, 120, report. 160, 200, 240, 320, 640, 1280, 2560, 5000

640

#N/A

Weighting factor to be applied to the freq not used relating to event2A.

0.0 to 2.0 step 0.1

0.1

#N/A

Hysteresis for event 2A’

0.0 to 14.5 step 0.5

6

#N/A

nterfrequency handover Decide if IFHO or ISHO first.

Ericsson Description

IFHO_PREFERRED = 0

Time between event 2A’ and send of Measurement report.

0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000

640

#N/A

Weighting factor to be applied to the freq not used relating to event 2A’

0.0 to 2.0 step 0.1

0.1

#N/A

Threshold of used frequency for event 2b

-24 to 0 [dB] -115 to -25 [dBm]

-12

usedFreqRelThres h4_2bEcno usedFreqRelThres h4_2bRscp

Weighting factor to be applied to the freq used relating to event 2b

0.0 to 2.0 step 0.1

0

usedFreqW4_2b

Weighting factor for measurement 4 event 2b for the currently used frequency. Unit: 0.1 Resolution: 1

#N/A

Hysteresis for event 2b

0.0 to 14.5 step 0.5

0

hyst4_2b

Trigger time for 2b

0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000

640

timeTrigg4_2b

-24 to 0 [dB] -115 to -25 [dBm]

-10

Threshold non used frequency for event 2b.

Unit: 0.1 dB Resolution: 5

nonUsedFreqThre sh4_2bEcno

nonUsedFreqThre sh4_2bRscp

Weighting factor to be applied to the freq not used relating to event 2b

0.0 to 2.0 step 0.1

Hysteresis for measurement 4 event 2b.

0

nonUsedFreqW4_ 2b

-9

usedFreqRelThres h2fEcno

Threshold of event 2f

-115 to -25 [dBm]

-97

usedFreqRelThres h2fRscp

Weighting factor to be applied to the freq used relating to event 2f

0.0 to 2.0 step 0.1

0

usedFreqW2f

Hyst of event 2f

0.0 to 14.5 step 0.5

0

hysteresis2f

640

timeToTrigger2fEc no timeToTrigger2fRs cp

Time between event 2f and 0, 10, 20, 40, 60, send of Measurement 80, 100, 120, report. 160, 200, 240, 320, 640, 1280, 2560, 5000

Quantity measured for estimation of quality in the frequency, for HO

CPICH Ec/N0,CPICH RSCP-ecn0,rscp

RSCP

measQuant4_2b

Filter coefficient for measurements fo interfrequency handover.

0,1,2,3,4,5,6,7,8, 9,11,13,15,17,19

2

filterCoeff4_2b

Threshold for 2d event


-12

usedFreqThresh2d Ecno

usedFreqThresh2d Rscp

Weighting factor to be applied to event 2d

0.0,..,2.0

0

usedFreqW2d

Hysteresis for event 2d (interfrequency handover)

0.0,..,14.5

0

hysteresis2d

200

timeToTrigger2dE cno timeToTrigger2dR scp

Time to trigger for event2d 0,10,20,40,60,80, (interfrequency handover) 100,120,160,200, 240,320,640, 1280,2560,5000

Parameter of intersystem Handover

#N/A

Preferred GSM band in caso di ISHO

None, GSM900, DCS1800

None

bandIndicator

#N/A

Threshold for triggering of 2d event (entering compressed mode for HO to 2G).


-102


Weighting factor for event 2D’

0.0 a 2.0 a step di 0.1

0

usedFreqW2d

Specify hysteresis to be 0.0 a 14.5 a step subtract to the active set di 0.5 quality, for the verification of 2D’ event.

2

hysteresis2d

2

#N/A

200

timeToTrigger2dE cno timeToTrigger2dR scp

rscp

measQuantity2

Filter coefficient

0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 11, 13, 15, 17, 19

Time between 2d’ and when 0, 10, 20, 40, 60, 'UE send measurement 80, 100, 120, report 160, 200, 240, 320, 640, 1280, 2560, 5000

Quantity measured for UMTS quality estimation

ecn0=CPICH Ec/No rscp=CPICH RSCP

#N/A

usedFreqThresh2d Ecno Threshold for event 2f.


-97


Hysteresis for event 2F.

0.0 a 14.5 a step di 0.5

2

hysteresis2f

Time between trigger of 2F 0, 10, 20, 40, 60, and when UE sends 80, 100, 120, measurement report to 160, 200, 240, network. 320, 640, 1280, 2560, 5000

1280

timeToTrigger2fEc no timeToTrigger2fRs cp

enable Cell Change Order

True-false.

TRUE

fddGsmHOSupp

BSIC verification

rqr: Required

rqr

#N/A

utranRelThresh3a Ecno Threshold own system used frequency


-100

utranRelThresh3a Rscp

Threshold other system


-100

gsmThresh3a

Weighting factor for utran quality estimation

0 to 2.0 step by 0.1

0

utranW3a

Hysteresis for 3A event

0 to 7.5 step by 0.5 dB

0

hysteresis3a

60

timeToTrigger3a

0

#N/A #N/A

Time trigger for 3A event.. 0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000

Parameter of Outer Loop Power Control Measurement filter 0, 1, 2, 3, 4, 5, 6, coefficient for SIRerror 7, 8, 9, 11, 13, 15, 17, 19

Lower threshold of SIR error -31.0, -30.5, Note: If the difference with 30.0, ..., 30.0, SIRerror,max is within 1.0 30.5, 31.0 a step dB, UL di 0.5 OLPC may not work correctly.

-3

#N/A

Upper threshold of SIR error Note: If the difference with SIRerror,min is within 1.0 dB, UL OLPC may not work correctly.

3

#N/A

2

#N/A nInSyncInd

10

nOutSyncInd

Radio link failure procedure 0 to 25.5 step by start after this period and 0.1 after out of sync indications.

3

rlFailureT

Timer for triggering transition from CELL_DCH to CELL_FACH state. the trigger is for DL or UL measurements together.

5

downswitchTimer

-31.0, -30.5, 30.0, ..., 30.0, 30.5, 31.0 step by 0.5

Parameter of syncronization Number of consecutive in1 to 256 sync indications that trigger di Radio link restore procedure of nodeB. Number of consecutive out of sync indications after T_RLFAILURE has activated

1 to 256

0 to 65535

Time during which throughput has to be low in order to trigger a downswitch (dedicated to common substate) for a UE in state DCH/DCH. If downswitchTimer is set to 0, no downswitches will be issued, irrespective of user throughput.

Timer for switch from HSDSCH to FACH

0 to 65535

30

Time during which #N/A hsdschInactivityTi throughput has to be low in order to trigger a mer downswitch (dedicated

#N/A

Timer for transition from CELL_PCH to Idle

0 to 65535 sec

1

Timer for transition from CELL_FACH to CELL_PCH.

0 to 65535 sec

25

#N/A inactivityTimer

256 +256

dlRlcBufUpswitch + ulRlcBufUpswitch

640

#N/A

Threshold for traffic volume 8, 16, 32, 64, in DL. For fach to dch 128, 256, 512, transition 1024, 2K, 3K, 4K, 6K, 8K, 12K, 16K, 24K, 32K, 48K, 64K, 96K, 128K, 192K, Timer to trigger the 0, 256K, 10, 20,384K, 40, 60, transiction from 80, 100, 120, CELL_FACH to 160, 200, 240, CELL_DCH state.the trigger 320, 640, 1280, is for DL or UL 2560, 5000 measurements.

Timer for sending of IU #N/A inactivityTimerPch RELEASE REQUEST message to CN for UE in state URA_PCH

Fach to Dch timer not exist, use only rlc buffer line#82

Time, without data transmission, after which a UE in state CELL_FACH is switched down to state URA_PCH. If

Maximum number of cell crossing to enter in URA state

0 to 65535

20

#N/A

Timer for release of RAB streaming PS inactive. 0 means RAB is not released

0 to 65535

0

0 psStreamingInacti vityTimer

Allowed: Inactive Interactive/ background PS RABs on multicall are reconfigured to UL:0 DL: 0 kbit/s. Not allowed: Inactive PS RABs Threshold in UL for upgrade

True , false.

TRUE wrong map

psStreamingInacti vityTimer wrong map

8, 16, 32, 64, 128, 256, 512, 1024, 2k, 3k, 4k, 6k, 8k, 12k, 16k, 24k, 32k, 48k, 64k, 96k, 128k, 192k, 256k, 384k, 512k, 768k

1024

#N/A not exist Ericsson use bandwidthMargin, bandwidthMargin UL,dlThroughputA llowUpswitchThre shold, ulThroughputAllo wUpswitchThresh old, upswitchTimer, upswitchTimerUL

0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000

640

#N/A not exist Ericsson use bandwidthMargin, bandwidthMargin

on DCH. *UL BRA only

Timer to trigger BRA for higher bit rate *UL BRA only

Threshold in UL for downgrade on DCH. *UL BRA only

8, 16, 32, 64, 128, 256, 512, 1024, 2k, 3k, 4k, 6k, 8k, 12k, 16k, 24k, 32k, 48k, 64k, 96k, 128k, 192k, 256k, 384k, 512k, 768k

8

#N/A not exist Ericsson use dlDownswitchBan dwidthMargin, ulDownswitchBan dwidthMargin, dlThroughputDow nswitchTimer, ulThroughputDow nswitchTimer

Timer to trigger BRA for lower bit rate *UL BRA only

0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000

5000

Type of channel where RRC connection should be setup for these causes: Registration - Detach - Originating High Priority Signalling Type of channel where RRC

Dedicated Common

dedc

#N/A not exist Ericsson use dlDownswitchBan dwidthMargin, ulDownswitchBan #N/A

Dedicated Common

dedc

#N/A

Dedicated Common

dedc

#N/A

32/32, 64/64, 64/128, 64/384 kbit/s

64/64

#N/A

connection should be setup for these causes: Registration - Detach - Originating High Priority Signalling - Originating Low Priority Type of channel where RRC connection should be setup for these causes: Originating Interactive Call - Originating Background Call - Terminating Interactive Initial PS Interactive or Background data rate

rate for DCCH standalone

3.4 or 13.6

Parameter in UMR5, Closest is srbr=13.6kbps

#N/A

#N/A #N/A Power offset relative to the maximum DPCCH DL Txpower and threshold A.When the power goes above this threshold the PS I/B data rate is reduced. Event A threshold (dB) = max Tx Code power - po_thra

3db

downswitchPwrMa Margin, in relation to maximum allowed code rgin power, which indicates a high power usage

reportHysteresis

#N/A Hysteresis for upgrade The Node B reports event A when the DL transmitted code power rises above Threshold A and stays there for the hysteresis time mmht_a

500 to 50000 step 100

Hysteresis for downgrade The Node B reports event F when the DL transmitted power falls below Threshold F and stays there for the hysteresis time mmht_f

500 to 50000 step 100

Parameter not found in UMR5. Closest is ptrg_incr=1000m s

coverageTimer

Time during which the power is allowed to be high before a downswitch (DCH to DCH) is issued

100ms

Parameter not #N/A found in UMR5. upswitchTimer Closest is + ptrg_decr=1000m upswitchTimerUl s 100ms

#N/A

Time during which the DL or UL throughput should be higher than threshold, defined by bandwidthMargin, before an upswitch is issued.

#N/A

Parameter of buffer Utilization Measurement Information Threshold for Buffer 0 to 100 Parameter in utilization per la BRA DL in UMR5, Closest is case of upgrade uthr_incr=80% Threshold for Buffer utilization per la BRA DL in case of downgrade

Parameter in UMR5, Closest is uthr_decr=10%

#N/A

Time to trigger for BRA DL in case of upgrade

0 to 100 in Parameter in termini di UMR5, Closest is averaging tmtrg_incr=0.5s periods(avgperi)

#N/A

Time to trigger for BRA DL in case of downgrade

0 to 100 in Parameter in termini di UMR5, Closest is averaging tmtrg_decr=7.5s periods(avgperi)

#N/A

Call trace period

0.01 to 3600 0.01 to 60 step 0.01 60 to 3600 step 60

Parameter in UMR5, Closest is peri_ct=1s

#N/A

Filter coefficient for call trace of sir

0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 11, 13, 15, 17, 19

Parameter not found in UMR5

#N/A

Filter coefficient for sir measurements

Parameter in 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 11, 13, UMR5, Closest is mmfc_sir=0 15, 17, 19

#N/A

Filter coefficient for TXPOwer measurements

0, 1, 2, 3, 4, 5, 6, Parameter in 7, 8, 9, 11, 13, UMR5, Closest is 15, 17, 19 mmfc_tcdp=0

#N/A

Period for BRA.

0 to 100

#N/A #N/A

500 a 50000 a step 100

Parameter in UMR5, Closest is avgperi=500ms

Parameter of Dedicated Measurement Information Power offset for 0 to 6 step 0.5 threshold A over Iur Filter coefficiente for event 0, 1, 2, 3, 4, 5, 6, A 7, 8, 9, 11, 13, 15, 17, 19 Power offset for threshold A

0 to 6 step 0.5

#N/A

3

#N/A #N/A

0

#N/A

3

#N/A

Power offset for threshold F (relative to threshold A) Threshold F [dB] = Threshold A - thrh_f

0 to 6 step 0.5

3db

upswitchPwrMargi n

Power offset for threshold F (relative to threshold A) over Iur

0 to 6 step 0.5

3

#N/A

Coefficinete di filtro per evento F

0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 11, 13, 15, 17, 19

0

#N/A

1 to 6000 1 to 6000

10 10

#N/A #N/A

2

#N/A filterCoefficient1

Measurementhysteresis time Measurement hysteresis time

Intrafrequency handover Filter coefficient for 0,1,2,3,4,5,6,7,8, intrafrequency handover 9,11,13,15,17,19 measurements.

Meaured quantity for qualuity estimation. Pathloss = Primary_CPICH_Tx_power – CPICH_RSCP

ecn0: CPICH Ec/N0 rscp: CPICH RSCP path: Pathloss rssi: UTRA Carrier Received Signal Strength Indicator (RSSI)

ecno

Measured Quantity measQuantity1

Maximum active set size

1-3

3

maxActiveSet

Reporting range for event 1a

0.0 a 14.5 a step di 0.5 dB

3 dB

reportingRange1a

Reporting range for event 0.0 a 14.5 a step 1b. di 0.5 dB Reporting offset used for 0.0..14.5 reporting range calculation for event 1A'. R1A'=R1A-Roffset.

6 dB

reportingRange1b

3

#N/A

Weight factor (W) for event 0.0 to 2.0 step by 1a 0.1

0

w1a

Upswitch (DCH to DCH) power margin. Upswitch power threshold is = Max Code Pwr downswitchPwrMargin relative power increase upswitchPwrMargin

Coefficient for layer 3 filtering before intrafrequency reporting evaluation

Hysteresis for event 1a

0.0 to 7.5 step by 0.5

0

hysteresis1a

Time to trigger for event 1a 0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000

320

timeToTrigger1a

Maximum number of 1, 2, 4, 8, 16, 32, measurement reports to be 64, inf (Infinity) sent by UE for 1a Time interval forevent periodic 0, 250, 500, reporting of event 1a. 0 1000, 2000, indicates event based 4000, 8000, reporting (periodical 16000 reporting not enabled).

2

#N/A

1000ms

reportingInterval1 Time between periodic reports at eventa triggered periodic reporting for event 1a

Weigh factor (W) for event 0.0 to 2.0 step by 1b. 0.1 Hysteresis for event 1b 0.0 – 7.5 step by 0.5

0

w1b

0

hysteresis1b

Time to trigger for event 1b 0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000

640

timeToTrigger1b

2

hysteresis1c

Time to trigger for event 1c. 0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000

200

timeToTrigger1c

Maximum number of 1, 2, 4, 8, 16, 32, measurement reports to be 64, inf (Infinity) sent by UE for event 1c reporting.

2

#N/A

Hysteresis for event 1c

0.0 – 7.5 step by 0.5

not exist

no limit

Time interval for periodic reporting of event1c. 0 indicates event based reporting (periodical reporting not enabled).

0, 250, 500, 1000, 2000, 4000, 8000, 16000

Time to trigger for event 1d. 0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000

Hysteresis for event 1d

0.0 to 7.5 step 0.5

Downlink Power Balancing Switch to enable Power false: False Balancing System Upgrade true: True

1000

reportingInterval1 c

640

timeToTrigger1d

4db

hysteresis1d

FALSE

#N/A dlPcMethod

Power adjustment period Convergence for multiple radio links

1 to 256 0 to 100 Granularity of 0.01 0 -> 0.00 1 -> 0.01 … 100 -> 1.00

1 50

#N/A #N/A

Periodo in cui la potenza ha il max valore di 1dB.

1 to 10

2

#N/A

Threshold for reference power updating.

0.0 to 2.0 step 0.1

0.5

#N/A

Set CAC Algorithm Switch

#N/A #N/A

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A

sson

Maxis E/// Live Network Value

Maxis Optimized Value

502 12 6

7

0

#N/A

For huawei this parameter is per neighbour basis #N/A Not exists in HW #N/A Not exists in HW #N/A

Not exists in HW #N/A Not exists in HW #N/A Not exists in HW

Discuss

#N/A

Not exists in HW #N/A Not exists in HW -13

-3

Different algorithm 0

#N/A

1dB

100

-13

-105

0

3

3

0

0

1280

2

2

-12

-104

0

0

200

#N/A

DCS1800 = 0

#N/A

-95

#N/A

0

#N/A

200

Ec/No

#N/A

-12

-104

0

1280

On

#N/A

2

3

-95

0

0

6

#N/A #N/A

#N/A

#N/A

#N/A 3

10

10

10

#N/A 2s

#N/A only for 4b event

#N/A 30s

#N/A 30min

Suggest to keep it disable

Suggest to keep it disable

Suggest to keep it disable 100bytes 500bytes (DL) +256bytes(UL)

#N/A

Suggest to keep it disable, this is for Cell_pch to URA_Pch #N/A

Huawei = 9 times within 180s (CellReSelectTimer) Siemens = 20 times no timer involved Ericsson = no cell_pch

Suggest to keep it disable, thi

30s

Not using PS Streaming RAB - to keep default 30 what is the difference btw this and DTOFSTATETRANSTIMER - different daniel to check this parameter

Zero user data throughput for c #N/A

#N/A

#N/A

#N/A

#N/A follow Huawei, no need to map

#N/A

follow Huawei, no need to map

#N/A

follow Huawei, no need to map

#N/A 64/64

#N/A no need to map #N/A #N/A

follow Huawei, no need to map follow Huawei, no need to map

1db

For PS only to trigger downswitch/upswitch. Per dpcch basis

6 Event E = TCP above threshold,can trigger downswitch if Event A satisfies Event A = BLER above threshold, both Event E & F will consider event A Event F = TCP below threshold, upswitch allowed

#N/A 1s

#N/A 500ms + 500ms

#N/A

For F event.

As long as Ea & A fullfills, the PS rate will be reducted.

#N/A

#N/A #N/A

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A #N/A

Same as po_thra, this is for IuR (Siemens specific)

#N/A

Not used, propose no need to map

#N/A

Repeat from line 100, propose to delete

3db

#N/A

Same as thrh_f, this is for IuR (Siemens specific)

#N/A

??? What does this means?

#N/A #N/A

Repeat from line 104, propose to delete Repeat from line 103, propose to delete

#N/A 2

Ec/No

3 6

10 follow Maxis E/// setting. #N/A

0

Relates to event E & F. The D1 is a coeff in the formuula.

0

11

#N/A follow HW defa=ult 3

follow HW default 0 HW have only one ewight for both 1a & 1b. 0

12

2

11 =320ms

HW default #N/A

change to 4 times in every 4s

4s one 1A reporting for 15 times, plus one time for the first 1a. Calculate for the best

3 =1s

HW default 14

follow HW default. If best cell detected for 1d, it will be change to be the serving cell for HSDPA, that's y the timer is 640ms. 15 =7.5db

follow HW default #N/A 3 follow HW default. Will perform power balancing for multiple radio link. #N/A #N/A

HW default ( every 2 frames)

HW default #N/A HW default #N/A

HW default #N/A #N/A

turn on all 3 if want to enable the LDR switch.

UU means radio interface between UE to RNC- could means load ( UL -RTWP, DL- power).

#N/A

#N/A to be used on 2nd carrier cells. #N/A to be used on 3nd carrier cells. #N/A

#N/A

#N/A

#N/A

Final Agreed Value

502 12

6

6

COEXIST_MEAS _THD_CHOICE_I NTERFREQ

Not required

Not required Not required

Not required

Not required Not required

Not required

Not required

-13

To Test

0 EVENT_TRIGGE R

1 db

100ms

-13

-105

0

-9

-99

0

0

1280

CPICH_Ec/No

D3

-12

-102

0

0

200ms

GSM900_DCS18 00_BAND_USED to provide hw with gsm cell dump, gprs or edge

-12

-102

0

0

D3

200ms

CPICH_RSCP EVENT_TRIGGE R

-9

-97

2(1db)

1280ms

ON

REQUIRE

-10

-100

-95

0

0

60ms

D0

3db

3

10

1s

180s

5s

64byte

D640ms

D1000ms

Huawei to check whether Pch is enable or disable



D1024

240ms

D1024

240ms


9

20s

20s

follow huawei, per rab basis




DCH_13.6K_SIG NALLING

FACH

DCH_13.6K_SIG NALLING

64/64

3_RATES 3_RATES

1 (0.5 dB)

1 (0.5 dB) 20 (2dB)

64 (640ms)

64 (640ms)

D64

D64

NA

NA

NA

NA

NA

NA

NA

NA

NA

NA

NA NA

NA

NA

D1

2

CPICH_EC/NO 3

6 (3 dB) 10 ( 5 dB)

0

0

D320 (320 ms) D16

to ask PCL

4000 to ask PCL 0

0

D640 (640ms)

4 (2 dB)

D640 (640ms)

D4

to ask PCL

4000ms

D640 (640ms)

8 (4 dB)

on 2

0 4

8 ( 4dB)

ON

OFF IUBLDR CREDITLDR CODELDR UULDR

OFF

OFF

ON

ON

ON

ON

ON

ON

Huawei Huawei Default Value

Siemens


Huawei Range

Huawei Proposed Value

Huawei Command

CELLNAME

1~31 characters.

-

ADD CELLSETUP

CELLID

0 to 65535

-

ADD CELLSETUP

Parameter

Iub parameters. CELL NAME CELL ID cellid_lcl LOCELL

0~268435455.

-

ADD LOCELL Node B ID

NODEBID

0~65535.

-

ADD NODEB

SAC

H'0000~H'FFF F(0~65535)

-

ADD CELLSETUP

RAC

H'00~H'FF(0~ 255).

LAC

H'0000~H'FFF F(0~65535), except for H'0000 and H'FFFE.

-

ADD CELLSETUP

URAID

0~65535.

-

ADD URA

SAC RAC

-

ADD CELLSETUP LAC

URA UARFCN

UARFCNUPLINK UARFCNDOWNLINK

Band1: Common frequencies: [9612-9888] Band1 Common frequencies: [1056210838]

-

TCELL

CHIP0, CHIP256, CHIP512, CHIP768, CHIP1024, CHIP1280, CHIP1536, CHIP1792, CHIP2048, CHIP2304

CHIP0 for sector1, CHIP256 for sector2 and CHIP512 for sector3

ADD CELLSETUP t_cell

ADD CELLSETUP nwom

NMO

MODE1, MODE2

MODE2

ADD CNDOMAIN

atdt

ATT

T3212

NOT_ALLOWED, ALLOWED

ALLOWED

Value range: 0~255 Physical unit: 6 min 10(60min) 6

ADD CNDOMAIN tmr_cspu (T3212)

49

ADD CNDOMAIN

T312

1~15s

SET IDLEMODETIMER

N312

D1, D2, D4, D10, D20, D50, D100, D200, D400, D600, D800, D1000

T304

D100, D200, D400, D1000, D2000(ms)

D2000 (2000ms)

SET CONNMODETIMER

N304

0~7

3

SET CONNMODETIMER

T308

D40, D80, D160, D320(ms)

D40 (40ms)

N308

1~8

1

T313

0~15s

3

N313

D1, D2, D4, D10, D20, D50, D100, D200

N315

D1, D2, D4, D10, D20, D50, D100, D200, D400, D600, D800, D1000

T300

D100, D200, D400, D600, D800, D1000, D1200, D1400, D1600, D1800, D2000, D3000, D4000, D6000, D8000(ms)

D2000 (2000ms)

SET IDLEMODETIMER

N300

0~7

3

SET IDLEMODETIMER

n300

T309

1~8s

5

SET CONNMODETIMER

t309

T314

D0, D2, D4, D6, D8, D12, D16, D20(s)

t312 n312

D1 (1)

SET IDLEMODETIMER t304

n304 t308

SET CONNMODETIMER SET CONNMODETIMER

t313 n313

D50 (50)

SET CONNMODETIMER n315

D1 (1)

SET CONNMODETIMER t300

t314 D20 (20s)

SET CONNMODETIMER

T315

D0, D10, D30, D60, D180, D600, D1200, D1800(s)

t315

D30 (30s)

SET CONNMODETIMER

Null t302

T302

D100, D200, D400, D600, D800, D1000, D1200, D1400, D1600, D1800, D2000, D3000, D4000, D6000, D8000(ms)

D2000 (2000ms)

SET CONNMODETIMER

N302

0~7

3

SET CONNMODETIMER

T307

D5, D10, D15, D20, D30, D40, D50(s)

n302 t307

D30 (30s)

SET CONNMODETIMER

D30 (30 min)

T305 DRXCycleLenCoef

3 to 9

T316

D0, D10, D20, D30, D40, D50, INFINITY (s)

T317

D0, D10, D30, D60, D180, D600, D1200, D1800(s)

6

SET FRC

DRX cycle length t316

D30 (30s)

SET CONNMODETIMER t317

D0

SET CONNMODETIMER cio

-20 to +20 Physical value range: -10 to +10, step: 0.5 Physical CELLINDIVIDALOFFSET unit: dB

0

ADD INTRAFREQNCELL sac_cbs

Null plmn_vt

PLMNVALTAGMIN,PLMNV ALTAGMAX

1~256

1~256

add lac/add rac po_thra

Null

flag_asup Null PSCRAMBCODE

0~511

-

ADD CELLSETUP

sc_pcpi max_dltp

MaxTxPower

Value range: 0~500. Physical value range: 0~50 with the step size of 0.1 . Physical unit: dBm.

460 (46dBm)

ADD CELLSETUP pwr_pcpit

PCPICHPOWER

Value range: -100~500. Physical value range: -10~50; step: 0.1. Physical unit: dBm.

350 (35dBm)

BCHPOWER

-350~150; step: 0.1dB

-20 (-2dB)

ADD PCPICH po_bch ADD BCH po_psch

PSCHPOWER

-350~150. Physical value range: -35~15, step: 0.1dB.

-50 (-5dB)

ADD PSCH po_ssch

SSCHPOWER

-350~150. Physical value range: -35~15, step: 0.1dB.

-50 (-5dB)

ADD SSCH poffset

Null pwval_max Null Parameter of Admission Control

Admission control parameters cannot be mapped with Huawei due to different algorithm. Null Null

Null Null Null Null

Null

Null

Null

Null

Null Null Null Null Null Null Null

Null

Null

Null

Null

Null

Null

Null

Null Null

CELLENVTYPE

TU: typical urban district RA: rural area HT: hill terrain

TU

ADD CELLCAC

NONORTHOFACTOR


400

ADD CELLCAC

75

ADD CELLCAC

75

ADD CELLCAC

60

ADD CELLCAC

ULCONVAMRTHD


ULCONVNONAMRTHD


ULOTHERTHD


80

ADD CELLCAC

DLCONVAMRTHD


80

ADD CELLCAC

DLCONVNONAMRTHD


DLOTHERTHD


75

ADD CELLCAC

ULHOTHD


80

ADD CELLCAC

DLHOTHD


90

ADD CELLCAC

DLCELLTOTALTHD


90

ADD CELLCAC

MAXULTXPOWERFORCONV -50 to 33dBm

24

ADD CELLCAC

MAXULTXPOWERFORSTR -50 to 33dBm

24

ADD CELLCAC

MAXULTXPOWERFORINT -50 to 33dBm

24

ADD CELLCAC

MAXULTXPOWERFORBAC -50 to 33dBm

24

ADD CELLCAC

0 to 621. Physical 71 value range: (-105dBm) -112 to -50; step: 0.1dBm

ADD CELLCAC

DEFPCPICHECNO

-30 to 30dB

-13

ADD CELLCAC

DLTOTALEQUSERNUM + ULTOTALEQUSERNUM

1~200

80

ADD CELLCAC

SHOINITPWRPO

0 to 25dB

15

ADD CELLCAC

ULINTERFACTOR

0 to 200 Physical value range: 0 to 2 step:0.01

60

ADD CELLCAC

DLINTERFACTOR

0 to 200 Physical value range: 0 to 2 step:0.01

60

ADD CELLCAC

MAXHSDSCHUSERNUM

0 to 100

64

ADD CELLCAC

BACKGROUNDNOISE

ALGORITHM_OF F, ALGORITHM_FI NBMULCACALGOSELSWIT RST, ALGORITHM_ ALGORITHM_ CH ALGORITHM_SE OFF OFF COND, and ALGORITHM_TH IRD

ADD CELLALGOSWITCH

ALGORITHM_OF F, ALGORITHM_FI NBMDLCACALGOSELSWIT RST, ALGORITHM_ ALGORITHM_ CH ALGORITHM_SE FIRST FIRST COND, and ALGORITHM_TH IRD

ADD CELLALGOSWITCH

UL_UU_LDR DL_UU_LDR UL_UU_OLC DL_UU_OLC NBMLDCALGOSWITCH

CELL_CODE_LD R CELL_CREDIT_ LDR

OFF

OFF

ADD CELLALGOSWITCH

Parameter of Congestion Control

Congestion control parameters cannot be mapped with Huawei due to different vendor using different algorithm. Null

Null

Null Null

Null

Null

Null

Null

Null

Null

Null

Null

NOACT INTERFREQLDH O BERATERED QOSRENEGO CSINTERRATSH OULDBELDHO InterFreqL InterFreqL DlLdrFirstAction, PSINTERRATSH DHO, DHO, DlLdrSecondAction, OULDBELDHO BERateRed, BERateRed, AMRRATERED MBMSDECPOWER CODEADJ CSINTERRATSH OULDNOTLDHO PSINTERRATSH OULDNOTLDHO

ADD CELLLDR

NOACT INTERFREQLDH O BERATERED QOSRENEGO CSINTERRATSH INTERFREQL INTERFREQL OULDBELDHO DHO, DHO, PSINTERRATSH BERATERED BERATERED OULDBELDHO AMRRATERED CSINTERRATSH OULDNOTLDHO PSINTERRATSH OULDNOTLDHO

ADD CELLLDR

ULLDRFIRSTACTION, ULLDRSECONDACTION

DlLdrBERateReductio nRabNum UlLdrBERateReductio nRabNum

1~10

1

1

ADD CELLLDR

1~10

1

1

ADD CELLLDR

0~100

20

20

ADD CELLLDR

DlInterFreqHoCellLo adSpaceThd

0~100

20

20

CellLdrSfResThd

SF4,SF8,SF16 ,SF32,SF64,S F128,SF256

SF8

SF8

MaxUserNumCodeAdj

1~3

1

1

SF4,SF8,SF16 ,SF32,SF64,S UlLdrCreditSfResThd F128,SF256

SF8

SF8

SF4,SF8,SF16 ,SF32,SF64,S DlLdrCreditSfResThd F128,SF256

SF8

SF8

UlInterFreqHoCellLo adSpaceThd

ADD CELLLDR

ADD CELLLDR

ADD CELLLDR

ADD CELLLDR

ADD CELLLDR

ULLDRTRIGTHD

0 to 100 Physical value range: 0 to 1; step: 0.01.

ULLDRRELTHD


DLLDRTRIGTHD


DLLDRRELTHD


60

ULOLCTRIGTHD


95

ADD CELLLDM

ULOLCRELTHD


85

ADD CELLLDM

DLOLCTRIGTHD


95

ADD CELLLDM

DLOLCRELTHD


85

ADD CELLLDM

DLLDTRNSHYSTIME

10 to 600000ms

100

ADD CELLLDM

DlOLCFTFRstrctTimes

0 to 100

3

ADD CELLOLC

UlOLCFTFRstrctTimes

0 to 100

3

ADD CELLOLC

DlOLCFTFRstrctUserN um

1 to 10

3

ADD CELLOLC

ADD CELLLDM 55

55

ADD CELLLDM 45

45

ADD CELLLDM 70

70

ADD CELLLDM 60

UlOLCFTFRstrctUserN um

1 to 10

3

ADD CELLOLC

RATERSTRCTCOEF

1 to 99 %

68

ADD CELLOLC

RateRstrctTimerLen

1 to 65535 ms

3000

ADD CELLOLC

RATERECOVERTIMERLEN

1 to 65535 ms

5000

ADD CELLOLC

DlOLCTraffRelUserNu m

0 to 10

0

ADD CELLOLC

UlOLCTraffRelUserNu m

0 to 10

0

ADD CELLOLC Parameter of Common Channel in uplink sc_wno

SCRAMBCODENO

0~15

0

ADD PRACHBASIC avsgn

SIGNATURE0, SIGNATURE1, SIGNATURE2, SIGNATURE3, SIGNATURE4, SIGNATURE5, SIGNATURE6, SIGNATURE7, SIGNATURE8, SIGNATURE9, SIGNATURE10, SIGNATURE11, SIGNATURE12, SIGNATURE13, SIGNATURE14, PREAMBLESIGNATURES SIGNATURE15.

SIGNATURE0 , SIGNATURE1 , SIGNATURE2 , SIGNATURE3 , SIGNATURE4 , SIGNATURE5 , SIGNATURE6 , SIGNATURE7

ADD PRACHBASIC

-6

ADD CHPWROFFSET

po_aich AICHPOWEROFFSET

-22~5dB

Parameter of Common Channel in downlink po_pch

PCHPOWER

-350~150. Physical value range: -35~15; step: 0.1. Physical unit: dB.

-20 (-2dB)

ADD PCH

PICHPOWEROFFSET

-10~5dB

-7

ADD CHPWROFFSET

-35~-10dB

-20

ADD PRACHBASIC

po_pich Null constval CONSTANTVALUE

subch

RACHSUBCHNO AICHTXTIMING

SUBCHANEL0, SUBCHANEL1, SUBCHANEL2, SUBCHANEL3, SUBCHANEL4, SUBCHANEL5, SUBCHANEL6, SUBCHANEL7, SUBCHANEL8, SUBCHANEL9, SUBCHANEL10, SUBCHANEL11. SELECT ALL 0~1

1

ADD PRACHBASIC ADD AICH

aicht

Null prmthr

PREAMBLETHRESHOLD

0~72. Physical value range: -36.0~0.0: step 0.5 (0:36.0, 1:35.5, 2:35.0, ..., 72:0.0)dB.

40 (-16)

ADD PRACHBASIC

POWERRAMPSTEP

1~8dB

2

ADD PRACHBASIC

PreambleRetransMax

1~64

20

ADD PRACHBASIC

MMAX

1~32

8

ADD RACH

AVAILABLESIGNATURES TARTINDEX

0~15

0

ADD PRACHASC

AVAILABLESIGNATUREE NDINDEX

0~15

7

ADD PRACHASC

pwrs prmretmax mmax avestr aveend

Null D0.9, D0.8, D0.7, D0.6, PERSISTSCALINGFACTO D0.5, D0.4, R D0.3, D0.2

ACCESSSERVICECLASS

ASC0, ASC2, ASC4, ASC6,

ASC1, ASC3, ASC5, ASC7.

factor

D0.9

ADD PRACHASC map_tbl

ASC0~ASC7

ADD PRACHASC

sccpchoff

SCCPCHOFFSET

0~149. Physical value range: 0: 0 chip, 1: 256 chips, 2: 512 chips, ..., 149: 38144 chips.

50

ADD SCCPCHBASIC sccpch_ccd

NULL pich_ccd NULL mfachp

MAXFACHPOWER

-350 ~ 150. Physical value range: -35~15; step: 0.1dB

10 (1dB)

ADD FACH CELLRLPWR PARAMETERS

CnDomainId

CS_DOMAIN, PS_DOMAIN.

CS_DOMAIN

ADD CELLRLPWR

MaxBitRate

0~16000000bi t/s.

12200

ADD CELLRLPWR

RlMaxDlPwr

-350~150. Physical value range: -35~15; step: 0.1dB

0

ADD CELLRLPWR

RlMinDlPwr

-350~150. Physical value range: -35~15; step: 0.1. dB

-150

ADD CELLRLPWR

DlSf

D4, D8, D16, D32, D64, D128, D256, D512.

D128

ADD CELLRLPWR

CnDomainId

-

CS_DOMAIN

ADD CELLRLPWR

MaxBitRate

-

28800

ADD CELLRLPWR

RlMaxDlPwr

-

-20

ADD CELLRLPWR

RlMinDlPwr

-

-170

ADD CELLRLPWR

DlSf

-

D64

ADD CELLRLPWR

CnDomainId

-

CS_DOMAIN

ADD CELLRLPWR

MaxBitRate

-

32000

ADD CELLRLPWR

RlMaxDlPwr

-

-20

ADD CELLRLPWR

RlMinDlPwr

-

-170

ADD CELLRLPWR

DlSf

-

D64

ADD CELLRLPWR

CnDomainId

-

CS_DOMAIN

ADD CELLRLPWR

MaxBitRate

-

56000

ADD CELLRLPWR

RlMaxDlPwr

-

0

ADD CELLRLPWR

RlMinDlPwr

-

-150

ADD CELLRLPWR

DlSf

-

D32

ADD CELLRLPWR

CnDomainId

-

CS_DOMAIN

ADD CELLRLPWR

MaxBitRate

-

57600

ADD CELLRLPWR

RlMaxDlPwr

-

-10

ADD CELLRLPWR

RlMinDlPwr

-

-160

ADD CELLRLPWR

DlSf

-

D32

ADD CELLRLPWR

CnDomainId

-

CS_DOMAIN

ADD CELLRLPWR

MaxBitRate

-

64000

ADD CELLRLPWR

RlMaxDlPwr


30

ADD CELLRLPWR

RlMinDlPwr

-

-120

ADD CELLRLPWR

DlSf

-

D32

ADD CELLRLPWR

CnDomainId

-

PS_DOMAIN

ADD CELLRLPWR

MaxBitRate

-

0

ADD CELLRLPWR

RlMaxDlPwr

-

-20

ADD CELLRLPWR

RlMinDlPwr

-

-170

ADD CELLRLPWR

DlSf

-

D256

ADD CELLRLPWR

CnDomainId

-

PS_DOMAIN

ADD CELLRLPWR

MaxBitRate

-

8000

ADD CELLRLPWR

RlMaxDlPwr

-

-80

ADD CELLRLPWR

RlMinDlPwr

-

-230

ADD CELLRLPWR

DlSf

-

D128

ADD CELLRLPWR

CnDomainId

-

PS_DOMAIN

ADD CELLRLPWR

MaxBitRate

-

32000

ADD CELLRLPWR

RlMaxDlPwr

-

40

ADD CELLRLPWR

RlMinDlPwr

-

-190

ADD CELLRLPWR

DlSf

-

D64

ADD CELLRLPWR

CnDomainId

-

PS_DOMAIN

ADD CELLRLPWR

MaxBitRate

-

64000

ADD CELLRLPWR

RlMaxDlPwr


20

ADD CELLRLPWR

RlMinDlPwr

-

-130

ADD CELLRLPWR

DlSf

-

D32

ADD CELLRLPWR

CnDomainId

-

PS_DOMAIN

ADD CELLRLPWR

MaxBitRate

-

128000

ADD CELLRLPWR

RlMaxDlPwr


30

ADD CELLRLPWR

RlMinDlPwr

-

-120

ADD CELLRLPWR

DlSf

-

D16

ADD CELLRLPWR

CnDomainId

-

PS_DOMAIN

ADD CELLRLPWR

MaxBitRate

-

144000

ADD CELLRLPWR

RlMaxDlPwr

-

0

ADD CELLRLPWR

RlMinDlPwr

-

-150

ADD CELLRLPWR

DlSf

-

D16

ADD CELLRLPWR

CnDomainId

-

PS_DOMAIN

ADD CELLRLPWR

MaxBitRate

-

256000

ADD CELLRLPWR

RlMaxDlPwr

-

20

ADD CELLRLPWR

RlMinDlPwr

-

-130

ADD CELLRLPWR

DlSf

-

D8

ADD CELLRLPWR

CnDomainId

-

PS_DOMAIN

ADD CELLRLPWR

MaxBitRate

-

384000

ADD CELLRLPWR

RlMaxDlPwr


40

ADD CELLRLPWR

RlMinDlPwr

-

-110

ADD CELLRLPWR

DlSf

-

D8

ADD CELLRLPWR Add Typical RAB OLPC Parameters

BLERQUALITY

-63 to 0 Physical value range: 5 x 10^(-7) to 1

-30 (0.001)

ADD TYPRABOLPC

BLERQUALITY

-63 to 0 Physical value range: 5 x 10^(-7) to 1

-20 (0.01)

ADD TYPRABOLPC

ULHOCERESVSF

SF16

DLHOCECODERESVSF

SF32

LDR

Siemens Description

Ericsson Range

Iub parameters.

Live Network Value

Parameter

#N/A

Cell name

-

Cell name

Cell Identifier. It is unique on an RNC bases.

0 to 65535

Cell id

Unique cell identifier within the Node B.

0 to 268435455

localCellId

Node B Identifier. This is a unique Node B identifier within the RNC. Rappresenta il limite massimo di nodi B che un RNC può gestire.

0 to 999

#N/A

SAC - Service Area Code.

0 to 65535

sac

Routing area code.

0 to 255

rac

Location area code.

0 to 65535

lac

URA - Utran Registration Area.

0..65535[,0.. 65535]

#N/A

Utran absolute radio Frequency Channel number. La frequenza in uplink (downlink) *5.

Da 9612 a 9888 in UL, 10562 a 10838 per il DL.

#N/A

T_cell

0 to 9 (Unit is 256 chips)

tCell

Network mode md1:Mode1 Network Mode 1: Combined md2: Mode2 LA/RA update (the Gs interface is present). Network Mode 2: Combined LA/RA update disabled (the Gs interface is not present).

#N/A

Description

Range

Imsi Attach / detach switch

nalw: attach/detac h not allowed mnd: attach/detac h mandatory

mnd

att

Timer per la Location updating periodica in Circuit Switched.

0 a 1530

294min

T3212

1 to 15

6

#N/A

1, 50, 100, 200, 400, 600, 800, 1000

1

#N/A

100, 200, 400, 1000, 2000

#N/A

0 to 7

#N/A

40,80,160,3 20

#N/A

0 a 15.

0

#N/A

1, 2, 4, 10, 20, 50, 100, 200

20

#N/A

1

#N/A

100,200,400 ,600,800,10 00,1200,140 0,1600,1800 ,2000,3000, 4000,6000,8 000

4000

#N/A

1,2,4,10,100 ,200,400,60 0,800,1000

0..7

3

#N/A

1…8

5

#N/A

0,2,4,6,8,12, 16,20

6

#N/A

0,10,30,60,1 80,600,1200 ,1800

180

0, 5, 10, 30, 60, 120, 360, 720 100, 200, 400, 600, 800, 1000, 1200, 1400, 1600, 1800, 2000, 3000, 4000, 6000, 8000

#N/A

#N/A

1000

#N/A

0a 7

7

#N/A

5, 10, 15, 20, 30, 40, 50

30

#N/A

3 to 9

7

#N/A

0 a 50 a step di 10, o inf (infinity)

30

#N/A

0, 10, 30, 60, 180, 600, 1200, 1800

180

#N/A

Cell Individual Offset

-10 to 10, step 0.5

0

individualOffset

SAC for Cell Broadcast services.

0..65535

#N/A

SIB update not required in case PLMN Value Tag is the same in the neighbor cell. If the value of LAC or RAC is different from neighbor cell and the value of PLMN Value Tag is the same as in neighbor cell, the UEs don't do Location Update.

0 to 254 step 2

#N/A

Power Offset on DPDCH during BRA, for enent A

0 to 6 step 0.5

#N/A

Specify if the RNCshould send alrm messages to OMC.

On, off

#N/A

Primary scrambling code

0…511

Maximum DL Transmission Power

0, ..., 50 dBm step 0.1 dBm

primaryScrambling Code maximumTransmis sionPower

Primary CPICH Tx power

-10, ..., 50 dBm

BCH power offset

-35, ..., 15 dB step 0.1 dB

primaryCpichPowe r

bchPower -3

Primary SCH power offset

primarySchPower -35, ..., 15 dB step 0.1 dB

-3

SecondarySCHpower offset

secondarySchPow er -35, ..., 15 dB step 0.1 dB

-3

Offset used for calculation of maximum power on dedicated channel.

-50.0 ... 50.0 dB step by 0.1 dB

#N/A

Maximum dl power on dedicated channel.

-35.0 to 15.0 step by 0.1

#N/A

Parameter of Admission Control

#N/A

Weighting factor used in 0..1 admission control algorithm, for in step of scaling factor calculation (take into 0.00000001 account non ideal conditions, like: infterference intercell, non ideal power control, different load situations, etc).

#N/A

Taffic load threshold in ul fopr new 0 to 2 step radio bearers. by 0.01

#N/A

Traffic load threshold in dl for new radio bearers cs.

#N/A

0 to 2 step by 0.01

Traffic load threshold in ul for new 0.00,..,2.00 streaming bearer

#N/A

Traffic load threshold in dl for new 0.00,..,2.00 streaming bearer

#N/A

Traffic load threshold in ul for rl setup in soft/softer handover.

0 to 2 step by 0.01

#N/A

Taffic load threshold in ul for rl setup in soft/softer handover.

0 to 2 step by 0.01

#N/A

Traffic load threshold in UL for new 0 to 2 step bearers 8kbps e 64kbps PS by 0.01 Interactive

#N/A

Traffic load threshold in DL for new 0 to 2 step bearers 8kbps and 64kbps PS by 0.01 Interactive

#N/A

Traffic load threshold in UL for a new 8kbps e 64kbps PS Background bearer

0 to 2 step by 0.01

#N/A

Traffic load threshold Carico in 0 to 2 step Dlfor a new bearer 8kbps e 64kbps by 0.01 PS Background

#N/A

Traffic load threshold Carico in UL for a new radio bearer on Iur.

0 to 2 step by 0.01

#N/A

Traffic load threshold in DL for a new radio bearer su Iur.

0 to 2 step by 0.01

#N/A

Traffic load threshold in UL for emergency calls

0 to 2 step 0.01

#N/A

Traffic load threshold Carico in DL for emergency calls

0 to 2 step 0.01

#N/A

Traffic load threshold in UL for use of common measurements

0 to 1 step 0.05

#N/A

Traffic load threshold in DL for use of common measurements

0 to 1 step 0.05

#N/A

Minimum spreading factor available in the cell.

8, 16, 32

#N/A

Initial value for scaling factorin uL

0, ..., 10 in step of 0.01

#N/A

Initial value for scaling factor in DL.

0, ..., 10 in step of 0.01

#N/A

Initial value for thermal noise

-112,..., 50 dBm in step of 0.5

#N/A

Weighting factor for the DL scaling factor aDL

0..1 in step of 0.00000001

#N/A

Filter for periodic measurementso 0,1,2,3,4,5,6 of Received Total Wide Band ,7,8,9,11,13, Power 15,17,19

#N/A

Filter for periodic measurements of 0,1,2,3,4,5,6 Transmitted Carrier Power ,7,8,9,11,13, 15,17,19

#N/A

Threshold for activation of Rate Restrictionfunctionality . 0 means 1 significa che 1 utente HSDPA è sufficiente per attivare la funzionalità.

0 to 256

#N/A

Minimum spreading Factor available in HSDPA cell. 8 means restriction on HSDPA is disabled.

8, 16, 32

#N/A

Threshold of adjourning for the scaling factors.

0.00,..,1.00

#N/A #N/A

#N/A

#N/A

ericsson no UL admission control for power . Congestion control only

#N/A


#N/A


pwrAdm

Cell parameter that defines the absolute admission limit for downlink power utilization. Applicable to (guaranteed, nonhandover) and (nonguaranteed, handover) admission requests. It is relative to the min(maximumTrans missionPower, maxDlPowerCapabili ty), it is expressed as a percentage and that is a precentage of min(maximumTrans missionPower, maxDlPowerCapabili ty).

#N/A

- same as line 83

beMarginDlPwr


#N/A

pwrAdmOffset or pwrAdm

#N/A pwrAdmOffset

#N/A maxTxPowerUl #N/A maxTxPowerUl #N/A maxTxPowerUl #N/A maxTxPowerUl

pwrAdmOffset for GHO pwrAdm for NG-HO

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A

hsdpaUsersAdm #N/A

#N/A

Parameter of Congestion Control congestion threshold in uplink 0 to 62 step related to thermal noise.if the RSSI by 0.1 is over this value, congestion control algorithm trigger a call dropping procedure for connected users or a forced switch from dedicated to common channel.

#N/A

Hysteresis to decide if overload is 0 to 10 step finished in UL. by 0.1

#N/A

DL threshold congestion relative to 0 to 1 step total power transmitted on by 0.01 common channel.

#N/A

Valore di hysteresis used by Congestion Control algorithm to decide if system is still in congestion.

0 to 1 step by 0.01

#N/A

Specify if il COngestion Check è is True, false performed

#N/A

Time Hysteresis between various action of congestion control algorithm

#N/A

0.1 to 10 step 0.1

Filter Coefficient fro event 0,1,2,3,4,5,6 triggered measurements of RTWP ,7,8,9,11,13, 15,17,19

#N/A

Filter Coefficientfor event triggered 0,1,2,3,4,5,6 measurements of Transmitted ,7,8,9,11,13, Carrier Power 15,17,19

#N/A

During this time Congestion 0.01 to 3600 Control algorithm verify if (0.01 to 60 congestion state is solved or not, by step 0.01 checking uplink ionterference. sec).

#N/A

During this time Congestion 0.01 to 3600 Control algorithm verify if (0.01 to 60 congestion state is solved or not, by step 0.01 checking total transmitted power sec). on common channels in DL.

#N/A

Number of bearers switched to common channel (or released) for each report.

0 to 10

#N/A

Decide if enabling possibility of release connections in case of overload.

ena: enable dis: disable

#N/A

Enable the Transport/Physical Channel Reconfiguration procedure.

ena: enable dis: disable

#N/A

#N/A

#N/A iFCong + iFOffset

#N/A iFCong

#N/A pwrOffset

#N/A pwrAdm+pwrAdm Offset

#N/A pwrHyst (DL) + iFHyst (UL) #N/A #N/A #N/A #N/A #N/A

#N/A #N/A #N/A

#N/A

Parameter of Common Channel in uplink

#N/A

Scrambling Code Number

0…15.

scramblingCodeW ordNo

List of available signature in the cell, related to scrambling code in DL. Used to differentiate preambles on RACH of the terminals . It is possible to use in the cell the list of signature .

0..15

preambleSignature s

Power difference between AICH e CPICH.

-22,...,5 dB

-4

aichPower

-3

pchPower

-6

pichPower

Parameter of Common Channel in downlink Power differnce between PCH and -35,...,15 dB CPICH. by step of 0.1 dB

Power difference between PICH and CPICH.

-10,..., 5 dB

#N/A

Secondary scrambling code.

0…15

#N/A

Constant for calculation of PRACH.

-35 to -10 [dB]

constantValueCpra ch

Number of sub channel available on RACH

0 to 11

subChannelNo

AICH transmission Timing

0 to 1

Number of codes of channalization for AICH

0 to 255

aichTransmissionT iming #N/A

Threshold for preamble definition

-36.0 to 0.0 step 0.5

#N/A

Step for raising of power

1 to 8

powerOffsetP0

Max number of preambols.

1 to 64

preambleRetransM ax

Max number of cycles .

1 to 32

Starting index for Available Signature

0 to 15

maxPreambleCycl e #N/A

End index for Available Signature

0 to 15

#N/A

Parameter for UE to decide access slot

D1: b3 0 to 1 D2: b2 0 to 1 D3: b1 0 to 1 D4: b0 0 to 1

#N/A

scaling factor persistence.

0.2 to 0.9 step 0.1

#N/A

Ac to ASC mapping table

0 to 7

#N/A

S-CCPCH offset

0 to 38144 step 256

sccpchOffset

DL channelization code number for SCCPCH

0 to 255

#N/A

DL channelization code number for PICH

0 to 255

#N/A

Max FACH power

-35,...,15 dB by step of 0.1 dB

maxFach1Power maxFach2Power

CELLRLPWR PARAMETERS

#N/A #N/A #N/A #N/A

#N/A

#N/A

#N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A

#N/A #N/A #N/A #N/A #N/A

#N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A


#N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A

#N/A #N/A

#N/A #N/A Add Typical RAB OLPC Parameters

#N/A #N/A

#N/A

Ericsson



Discuss

Final Agreed Value

#N/A From Radio Network Design

-

From Radio Network Design

-

From Radio Network Design #N/A


-

From Radio Network Design From Radio Network Design

#N/A #N/A


CHIP0 for sector1, CHIP256 for sector2 and CHIP512 for sector3 #N/A

Gs interface between SGSN & MSC

MODE2

TRUE

ALLOWED 49 =294min


294 min 6

#N/A #N/A

D1 (1) #N/A D2000 (2000ms) 3

#N/A #N/A

D40 (40ms) 1 3

#N/A #N/A

D50 (50) #N/A

no relation with T315!!!relation with T313

D1 (1)

#N/A

D2000 (2000ms) #N/A

3

#N/A

5

#N/A

cell updates for CS ( diff rb timer)

D20 (20s)

#N/A

D30 (30s)

cell updates for PS (diff rb timer) #N/A

#N/A

D2000 (2000ms) 3

#N/A #N/A

D30 (30s) D30 (30 min) #N/A relates to paging ( follows maxis setting)

7

not used. For URA_PCH or CELL_PCH.

D30 (30s)

#N/A

#N/A

NA 0

0 #N/A NA #N/A

1~256

change with SIB informations on LAC #N/A NA

#N/A NA From Radio Network Design maxDlPowerCapa bility - 4 (for macro site) maxDlPowerCapa bility - 8 (for inbuilding system)

-

From Radio Network Design and Tuning

HW to get back to us for macro & IBC -31 HW default

-20 (-2dB)

HW default

-50 (-5dB)

HW default

-50 (-5dB)

-18

-35

#N/A

NA #N/A NA #N/A #N/A

NA #N/A NA #N/A NA

#N/A NA #N/A NA #N/A NA #N/A NA #N/A NA #N/A NA #N/A NA #N/A NA #N/A NA #N/A NA #N/A NA #N/A NA #N/A NA #N/A NA #N/A NA #N/A NA #N/A NA #N/A

NA #N/A NA #N/A NA #N/A NA

#N/A

NA #N/A

NA #N/A NA #N/A

TU #N/A

What is this?

用于载波发射功率预测值计算 #N/A

By default HW not using

#N/A


#N/A


400

75

75

60

80%

follow HW default

80%

follow HW default

80%

follow HW default

75%

#N/A

10 =70%

#N/A

Not used (80) 10 =90% or 80% follow HW default

85%

follow HW default

90%

#N/A =90%

#N/A 24dBm #N/A 24dBm #N/A 24dBm #N/A 24dBm

24 24 24 24

#N/A

What is this? If algorithm 1 is used for UL AC, however algorithm is off

#N/A

What is this? HW to check what is this used for

#N/A

what is this? Related to line #101?

71 (-105) Direction: DL. To calculate the initial power for UE when rrc con. Request ( follow HW default)

-13

Not used (80) #N/A

HW to confirm Pwr Offset to which Channel #N/A

#N/A

initial power offset to new RL. Follows with inner loop power control adjustment. Follow HW default.

15

HW current RAN is using ULINTERFACTOR only. NOT applicable for DLINETERFACTOR. It is used to calculate the load factor denotes in the system ,ULINTERFACTOR= 1 - Pn/ RTWP. Follow HW default.

60

What is this?HW to confirm how this is used

What is this?HW to confirm how this is used

Not used in current RAN 16 #N/A

What is this?

#N/A

What is this? 1st: Current + New power 3rd: Current power

NA (60) 64

Algorithm Off

ALGORITHM_FIRST

can select multiple at a time when turn on.

OFF

#N/A

NA #N/A NA #N/A NA #N/A

NA #N/A NA #N/A NA #N/A NA #N/A NA #N/A

NA #N/A

NA #N/A NA #N/A NA #N/A NA

Follow HW default

InterFreqLDHO, BERateRed,

Default LDR is off. Will turn on for congested cells only. Follow HW default

INTERFREQLDHO, BERATERED

Follow HW default ( 1 user at at time) #N/A

1

Follow HW default ( 1 user at at time)

1

Follow HW default ( judging the load for the target cell. It has to be more than 20% available resource ).

20

Follow HW default ( judging the load for the target cell. It has to be more than 20% available resource ).

20

HW default

SF8

Not used.

NA (1)

HW default

SF8

HW default

SF8

HW default- seeing from source cell.

55


45


70


60

#N/A -49.9dBm

HW default

OLC is disabled in network by default.

95

#N/A -49.9dBm

HW default

85

HW default

95

HW default

85

#N/A 95%

#N/A 90%

#N/A 300ms + 60s

Huawei is for DL only? Only applicable for DL. No uplink value.

100

#N/A HW defualt ( 3 times)

3

HW defualt ( 3 times)

3

HW default ( 3 users)

3

#N/A #N/A #N/A HW default ( 3 users) #N/A

HW default ( what kind of TF it is used)

3 68%

#N/A HW default

3000

HW default

5000

HW default

0

HW default

0

#N/A #N/A

#N/A

#N/A 0 0 65535

SIGNATURE0, SIGNATURE1, SIGNATURE2, SIGNATURE3, SIGNATURE4, SIGNATURE5, SIGNATURE6, SIGNATURE7 -6 -6 #N/A -4

HW default. Tested in other network.

-20 (-2dB)

-7 HW default.

-7

HW default.

-20

#N/A -27

4095

SELECT ALL

HW default. 4 HW default: 1 = 1280 chips

1

#N/A #N/A

40 (-16)

HW default 3

HW default

2

8 HW default- 20 times

20

4 HW default

8

HW default

0

HW default

7

#N/A #N/A #N/A

NA #N/A

Not used.

Not used

#N/A

access priority for RACH.

ASC0~ASC7

20

50 #N/A NA #N/A NA 18 15

10 (1dB) #N/A #N/A #N/A #N/A

#N/A

#N/A

#N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A


#N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A


#N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A #N/A

#N/A #N/A

#N/A #N/A #N/A #N/A

for video call #N/A

for voice call

Cell,cellgroup & NB CE calculated by NB. Will HW to check how Credit resource limit works at cell perform an audit by RNC vs. NB for the resource. SF16 level If new reuest kicks in where the resource is lesser than the remaining SF 32, AC due to codes will be triggered. Calculated for new users, If new request used above SF32 (>64kbps), trigger not for SHO. SHOremaining credit. AC due to code SF32

How HSDPA is affected by LDR??? Since LDR is triggered by R99 resources

Not to relates LDR with HSDPA or R99; LDR will relates to the users priority??

206124062.xls.ms_office Huawei Huawei Parameter Name

Huawei Range

Siemens Huawei Propose d Value

Huawei Command

HSPDSCHCODENUM

1~15

5

ADD CELLHSDPA

ALLOCCODEMODE

Manual, Automatic

Automat ic

ADD CELLHSDPA

HSPDSCHMAXCODENUM

1~15

10

ADD CELLHSDPA

HSPDSCHMINCODENUM

1~15

2

ADD CELLHSDPA

HSSCCHCODENU M

HSPDSCHMPOCONSTENU M

1~15

-3dB to 19dB step 0.5dB

文档密级

3

2.5

Parameter

Description

Range

no_pdsch

Number of HS-PDSCH codes

no_pdsch =DD 1 to 15

no_scch

Number of HS-SCCH codes per cell.

no_scch =D 1 to 4

po_dsch

HS-DSCH Power Offset

po_dsch =DD.D -6 to 13 step 0.5

ADD CELLHSDPA

ADD CELLHSDPA HS-DSCH RAB Combination Parameters Radio Access Bearer#1 associated to HS-DSCH

Null

rab1 =CCCC psib: PS Interactive/Backgroun d

Uplink Rate for Radio ul_rate1 =CCCCCCC Access Bearer#1. 64kbps: 64 Kb/s Downlink rate is fixed to 384kbps: 384 Kb/s 0 Kb/s for all RAB associated to HS-DSCH Null HS-DSCH Radio Resource Management ue_cate Null

1/23/2014

UE cathegory that support HSDPA.

华为机密，未经许可不得扩散

ue_cate =DD 1 to 64

第175页，共207页

206124062.xls.ms_office cqi_cyclek

CQIFBCK

D0, D2, D4, D8, D10, D20, D40, D80, D160ms

D2 (2ms)

1 to 4

1

Period of repetition of a cqi_cyclek =DDD CQI measurement 0, 2, 4, 8, 10, 20, 40, report 80, 160

SET HSDPCCH cqi_rep

CQIREF

Number of repetitions of a CQI report. Not necessary if CQI Feedback Cycle k = 0.

1 to 4

ACKPO1 ACKPO2 ACKPO3

PO_5/15, PO_6/15, PO_8/15, PO_9/15, PO_12/15, PO_15/15, PO_19/15, PO_24/15, PO_30/15

NACKPO1 NACKPO2 NACKPO3


1

PO_24/1 5 PO_12/1 5 PO_9/15

PO_24/1 5 PO_12/1 5 PO_9/15

HSSCCHPOFORSF128 SCCHPWRCM

1/23/2014

ack_nack_rep =D 1 to 4

SET HSDPCCH ack_po

Power offset used in the UL between the HSDPCCH slot carrying HARQ ACK information and the associated DPCCH

ack_po =D 0 to 8

nack_po

Power offset used in the UL between the HSDPCCH slot carrying HARQ NACK information and the associated DPCCH

nack_po =D 0 to 8

SET HSDPCCH

SET HSDPCCH hsscch_po

Value range: -128 to 127 Physical value range: -32 to 31.75, step: 33(8.25 0.25dB dB) CQI,FIXED CQI

cqi_rep =D 1 to 4

SET HSDPCCH ack_nack_r Number of repetitions of ACK/NACK reports ep

ACKNACKREFFORSHO

文档密级

Power offset of HShsscch_po =DDD.DD SCCH relative to the -32 to 31.75 step 0.25 pilot bits on the DL DPCCH

SET HSSCCH


第176页，共207页

206124062.xls.ms_office

SCCHPWR

CQIPO

0~80 (-10 ~10 dB step 0.25 dB)


文档密级

20 (-5 dB)

PO_24/1 5

cqi_po

Power offset used in the UL between the HSDPCCH slots carrying CQI information and the associated DPCCH

cellid

Cell ID.

cellid =DDDDD 0 to 65535

nodebid

-

nodebid =DDDD 0 to 1023

hsdpaCapab le

Show if HSDPA is enabled in the cell

hsdpaCapable = TRUE, FALSE

Define modulation HSDPA

hsdpaModulation = QPSK, 16QAM_QPSK

cqi_po =D 0 to 8

ADD CELLHSDPA HSDPA parameters in NodeB

CELLID

0 to 65535

-

ADD CELLHSDPA

Null ACT CELLHSDPA

-

-

ACT CELLHSDPA

Null scheduler algorithm for HSDPA.

SM

1/23/2014

PF(PF algorithm), RR（Round Robin), MAXCI(Max C/Ialgorith m)

EPF

SET MACHSPARA


hsdpaScheduler = UserOptimized , CellOptimized

第177页，共207页


Siemens

Ericsson Live Network Value

Parameter

Description

maximum supportable

#N/A

numHsPdsch Codes

文档密级 Maxis

Range

E/// Live Network Value


Discuss

5

To verify whether dynamic code allocation is optional ro basic. If basic, set=automatic , min=5, max=10. If it is optional, maxis will not pruchase this feature for single carrier cell and set =manual with 5 codes. For dedicated HS cell, set=automatic, min=5 , max=10 (need to purchase this feature for dedicated cell if this is optional)

basic for HW is dynamic code allocati on for HSDPA cells

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A

3

#N/A

#N/A

3

#N/A

#N/A

What is automatic means?

& y this is set to 2? What is the benefits if it is set to 2? Check whether it is optional or basic.If basic SCCH=1 for single carrier cell and SCCH=3 for dedicatead 2nd carrier cell. At later stage, Maxis will explore to set SCCH=3 for nationwide but after consideration from optimization team

Content: Measure Power Offset = Max(-6, Min(13,CellMaxPower - PcpichPower - Measure Power Offset Constant)). Ask Huawei why their default differ with Ericsson recommended setting. Please provide reference from Starhub and other operator using Huawei. Explain what is the impact if Maxis set =3. This should not influence the final acceptance criteria. The parameter should be agreed by both Huawei and Maxis

Combination Parameters

64 kbps

Resource Management 1 to 12

1/23/2014

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A


MPO must greater than 6,then less than 13. HW default paramete r.

第178页，共207页

206124062.xls.ms_office 4

#N/A

文档密级

#N/A Ask Huawei why their default differ with Ericsson recommended setting. Please provide reference from Starhub and other operator using Huawei. Explain what is the impact if Maxis set accordance to our current vaule.This should not influence the final acceptance criteria. The parameter should be agreed by both Huawei and Maxis

1

#N/A


1

5

#N/A

#N/A

initialAckNac kRepetitionFa ctor

#N/A Ask Huawei why their default differ with Ericsson recommended setting. Please provide reference from Starhub and other operator using Huawei. Explain what is the impact if Maxis set accordance to our current vaule.This should not influence the final acceptance criteria. The parameter should be agreed by both Huawei and Maxis #N/A Ask Huawei why their default differ with Ericsson recommended setting. Please provide reference from Starhub and other operator using Huawei. Explain what is the impact if Maxis set accordance to our current vaule.This should not influence the final acceptance criteria. The parameter should be agreed by both Huawei and Maxis

5

#N/A


3

#N/A

#N/A

Ask Huawei why their default differ with Ericsson recommended setting. Please provide reference from Starhub and other operator using Huawei. Explain what is the impact if Using CQI but not FIXED ( dynamic Maxis set accordance to our current vaule.This should not influence the final acceptance criteria. The parameter should be agreed by both Huawei and Maxis

1/23/2014


第179页，共207页


文档密级

Using CQI but not FIXED ( dynamic 5

#N/A


rameters in NodeB

#N/A

#N/A

Cell id


#N/A

#N/A

#N/A QPSK

administrative State

#N/A

#N/A

#N/A #N/A

queueSelect Proportional Algorithm Fair (1)

#N/A EPF: The SPI of user, the GBR configured, the current service rate and CQI are all taken into account. This method is relatively prior to the above ones on the aspect of fairness for users and system capacity. PF: the current available data transmission rate and the history rate are both in consideration. Thus, users with nice CQI and users with a long waiting history will be taken into account at the same time. This is a compromise of cell throughput priority and user fairness priority methods.

CellOptimized

1/23/2014


第180页，共207页


文档密级

Maxis Final Agreed Value

5

Automatic 10 5

3

2.5

1/23/2014


第181页，共207页


文档密级

2ms

1

1

PO_24/15 PO_12/15 PO_9/15

PO_24/15 PO_12/15 PO_9/15

NA

CQI

1/23/2014


第182页，共207页


文档密级

NA

PO_24/15

-

-

to ask PCL

EPF

1/23/2014


第183页，共207页


文档密级

Huawei Huawei Parameter Name

Huawei Range

Siemens Huawei Proposed Value

Huawei Parameter Command

RNCID

0 to 4095

-

ADD INTRAFREQNC ELL ADD INTRAFREQNC ELL

MCC

000~999.

-

ADD NRNC

CELLID

0 to 65535

-

CellId (source cell)

Cell identity della cella di origine.

Rncid_u

Rnc identity dell’RNC adiacente. Mobile Country Code Mobile Network Code MCC+MNC

mcc mnc MNC

NCELLID

00~99 or 000~999

0 to 65535

-

-

ADD NRNC ADD INTRAFREQNC ELL

cellid_u

Cell identity of neighbour cell.

acii

This parameter indicates for which purpose the adjacent cell information is used. Used to offset measured quantity value

Null -20 to +20 Physical value range: -10 to CELLINDIVIDALOF +10, step: 0.5 FSET Physical unit: dB

IDLEQOFFSET1SN CONNQOFFSET1SN

IDLEQOFFSET2SN CONNQOFFSET2SN

1/23/2014

-50 to +50dB

-50 to +50dB

cio

0

0

0

Description

ADD INTRAFREQNC ELL qoffset1

This specifies the offset between the two cells in case the quality measure for cell selection and re-selection is set to CPICH RSCP.

qoffset2

This specifies the offset between the two cells. It is used for FDD cells in case the quality measure for cell selection and re-selection is set to CPICH Ec/N0.

ADD INTRAFREQNC ELL

ADD INTRAFREQNC ELL


第184页，共207页

206124062.xls.ms_office Siemens

文档密级

Maxis

Ericsson

Range

Live Parameter Netwo rk Value

Description

Range

E/// Live Network Value

0..65535

Cell id


0..4095

RNC name

000 to 999

MCC

From Radio Network Design 502

00 to 99 or 000 to 999

MNC

12

0...65535

#N/A

#N/A

ho: for handover srs: for selection and reselection all: for all

#N/A

#N/A

-10 a 10 step 0.5

individual Offset

0

-50 a 50

qOffset1sn

0

-50 a 50

qOffset2sn

0

1/23/2014



第185页，共207页


文档密级

Maxis Discuss Final Agreed Value

-

-

-

-

0

0

0

1/23/2014


第186页，共207页


Huawei Parameter Name RNCID CELLID

UARFCNUPLINK UARFCNDOWNLINK MCC MNC

文档密级

Huawei Huawei Range Huawei Proposed Value 0 to 4095 0 to 65535 Band1: Common frequencies: [96129888] Band1 Common frequencies: [1056210838] 000~999. 00~99 or 000~999 H'0000~H'FFFF(0~65535), except for H'0000 and H'FFFE.

-

-50~33dBm

24 -18dB

QRXLEVMIN RAC

-24~0dB -58~-13. Physical value range: -115~25dBm; step: 2 (-58:-115; -57:113; ..., - 13:25 ) H'00~H'FF(0~255).

-58(-115dBm) -

FACHMEASOCCACYCLELENCOEF

1..12

3

INTER_RAT_PS_OUT_SWITCH

ON,OFF

ON

CELLBARRED

BARRED, NOT_BARRED

NOT_BARRED

CELLRESERVEDFOROPERATORUS

NOT_RESERVED

QUALMEAS TRESELECTIONS

RESERVED, NOT_RESERVED CPICH_ECNO(CPICH Ec/N0),CPICH_RSCP(CPICH RSCP) 0~31s

INTRAFREQRESELECTION

ALLOWED, NOT_ALLOWED

ALLOWED

LAC MAXALLOWEDULTXPOWER QQUALMIN

1/23/2014


-

CPICH_ECNO 1

第187页，共207页


TBARRED

D10, D20, D40, D80, D160, D320, D640, D1280 s

D320

IDLEQHYST1S ConnQhyst1s

0~20. Physical value range: 0~40 dB; step: 2.

2 (4dB)

IDLEQHYST2S ConnQhyst2s

0~20. Physical value range: 0~40 dB; step: 2.

1 (2dB)

IDLESINTRASEARCH CONNSINTRASEARCH IDLESINTERSEARCH CONNSINTERSEARCH

SSEARCHRAT

1/23/2014

文档密级

-16~10. Physical value range: -32~20; step: 2dB. -16~10. Physical value range: -32~20; step: 2dB -16~10. Physical value range: -32~20; step: 2dB


5 (10dB)

4(8dB)

2(4dB)

第188页，共207页


Huawei Command ADD INTRAFREQNCELL ADD INTRAFREQNCELL

ADD CELLSETUP ADD RNCBASIC

Parameter rncid cellid uarfcn

mcc mnc

ADD RNCBASIC ADD CELLSETUP ADD CELLSELRESEL

lac maut qqualm

ADD CELLSELRESEL qrxlevmin ADD CELLSELRESEL ADD CELLSELRESEL

文档密级

Siemens Description Rnc identity dell’RNC adiacente. Cellid delle celle adiacenti Utran absolute radio Frequency Channel number. La frequenza in uplink (downlink) *5. Mobile Country Code Mobile Network Code MCC+MNC Location area code. Maximum allowed TX UL power Minimo livello di qualità richiesto nella cella. Minimo livello di segnale richeisto nella cella.

rac fach_moclc

Routing area code FACH measurement occasion cycle length coefficient

iterrat_mind

Indicate if UE can perform intersystem cell reselection Indicate to UEs in idle mode and cell/ura connected mode that the cell is not suitable for camping. All UEs which camped on the cell before it was barred are forced to select another cell.

ADD CELLMEAS

SET CORRMALGOSWITCH

cellbr

ADD CELLACCESSSTRICT cellrop ADD CELLACCESSSTRICT csrqm ADD CELLSELRESEL ADD CELLSELRESEL

ADD CELLACCESSSTRICT

1/23/2014

trslct ifc_rslct

Same as above except for UEs with a special ‘operator-SIM’ Quantity to be used for selection/reselection. Cell reselection timer Indicate to UE if he can select another cell in the same frequency, if serving cell is barred.


第189页，共207页

206124062.xls.ms_office t_br

Defines the period in which the UE– while camping on another cell -shall exclude the barred cell from the neighboring cell list

qhyst1s

The hysteresis value Qhyst for GSM cells and for FDD cells in case the quality measure for cell selection and re-selection is set to CPICH RSCP

qhyst2s

The hysteresis value Qhyst used for FDD cells if the quality measure for cell selection and re-selection is set to CPICH Ec/N0.

sitra_s

This specifies the threshold for intrafrequency measurements and for the HCS measurement rules.

siter_s

Threshold for interfrequency measurements of cell reselection.

ss_rat (il flag relativo non esiste).

Threshold for intersystem measurements.

文档密级

ADD CELLACCESSSTRICT

ADD CELLSELRESEL

ADD CELLSELRESEL

ADD CELLSELRESEL

ADD CELLSELRESEL

ADD CELLSELRESEL

1/23/2014


第190页，共207页


文档密级

Siemens Range 0...4095 0 to 65535 Da 9612 a 9888 in UL, 10562 a 10838 per il DL.

1/23/2014

Live Network Value

Parameter RNC name Cell id #N/A

00 to 999 00 to 99 or 000 to 999

MCC MNC

0 to 65535

lac

-50 to 33 step by 1 -24 to 0

24 -18

maxTxPowerUl qQualMin

-115 to -25 step by 2

-115

qRxLevMin

-1..12

3

rac fachMeasOccaCycLenCoef f

True, false.

0

bar: Barred nbar: Not barred

accessClassNBarred

rsv: Reserved. nrsv: Not reserved. ecn0: Ec/N0 rscp: RSCP 0 to 31 alwd: allowed nalwd: not allowed

cellReserved ecn0

qualMeasQuantity

1

treSelection #N/A


Ericsson Description

第191页，共207页


文档密级

10, 20, 40, 80, 160, 320, 640, 1280

1/23/2014

0, ...,40 dB step 2

0

qHyst1

0, ...,40 dB step 2

2

qHyst2

-32,..., 20 dB step of 2 dB

14

sIntraSearch

-32,..., 20 dB step of 2 dB

8

sInterSearch

-32,..., 20 dB step of 2 dB

2

sRatSearch


第192页，共207页

206124062.xls.ms_office Ericsson Range

文档密级 Maxis

E/// Live Network Value From Radio Network Design From Radio Network Design #N/A


Discuss

502 12 From Radio Network Design 24 -18 -115

From Radio Network Design 4 Content: The FACH measurement occasion cycle length coefficient used to inform the UE in CELL_FACH state the time to start interfrequency or inter-RAT measurement. Generally this parameter ranges from 1 to 5. The greater this parameter is set, the more time it will take for the UE to perform interfrequency or inter-RAT measurement. This parameter is shared by both inter-frequency and inter-RAT measurement. #N/A 0

not reserved Ec/No 2 #N/A

1/23/2014

follow HW default


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文档密级

how this works? & y 320 s? Content: This parameter is valid when [Cell barred indicator] is BARRED. It indicates that the delay of the cell can be measured next time. The time barred can be increased or reduced in network planning based on the actual time the cell is barred. Recommended value: None. 0

Y HW 4 dB? 0

HW default 0

Qmeas=Qqualmin+Thr =(-18)+14=-4 dB

follow NSN default

Qmeas=Qqualmin+Thr =(-18)+8=-10 dB

HW default

0

2 2dB follow Maxis setting.

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s Final Agreed Value 24 -18

-115 -

3

on

not_barred not_reserved cpich_ecno 1

allowed

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D320

2

to check if need to put as 2 (4dB) at LAC border or stick to maxis setting 0.

2

7

to check with PCL

4

to check with PCL

1

to check with PCL

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Huawei Huawei Parameter Name

Huawei Range

NODEBNAME

1~31 characters

NODEBID

0~65535.

RADIUS

150~180000m

GAIN

0~255 step:0.25dB

Siemens Huawei Huawei Parameter Proposed Command Value Site name ADD NODEB -

10000m -

ADD NODEB

ADD LOCELL SET TMAGAIN

nodebid

Description

Range

Nome del sito

Stringa alfanumerica 0…1023.

Identità del nodo B.

Indica il raggio di Cell cella. Radius=C1/C2/ Normal: up to 10 C3 Km C1 (sector 1): N, Large: up to 20 Km L, V Very large: up to 50 C2 (sector 2): N, Km L, V C3 (sector 3): N, L, V N: Normal L: Large V: Very large Identifica il settore con TMA.

1,2,3,off On , off.

Indica if nodeB is equipped with booster. Tipo di nodo B Null

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880, 881, 440, 441, 341

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206124062.xls.ms_office Siemens

文档密级

Ericsson

Live Network Value

1/23/2014

Parameter Description

Range


#N/A

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A

#N/A



Discuss

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Maxis Final Agreed Value

HW default HW default

HW default

HW default

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Huawei Huawei Range Huawei Proposed Value

Huawei Command

GSMCELLNAME

1~31 characters

-

ADD GSMCELL

GSMCELLINDEX CID MCC MNC

0~65535. H'0000~H'FFFF(0~65535).

-

ADD GSMCELL ADD GSMCELL

000~999. 00~99 or 000~999 H'0000~H'FFFF(0~65535), except for H'0000 and H'FFFE.

-


-

ADD GSMCELL

0~1023

-

ADD GSMCELL

0~7 0~7

-


LAC BCCHARFCN NCC BCC BANDIND

GSM900_DCS1800_BAND_USED , PCS1900_BAND_USED. GSM900_DCS1800_BAND_USED

ADD GSMCELL

Null

1/23/2014

NCMODE

NC0、NC1、NC2、RESET

NC0

ADD GSMCELL

QRXLEVMIN

Value range: -58 to -13; step: 1 Physical value range: 115 to -25dBm; step: 2

-50 (-99dBm)

ADD GSMNCELL


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Siemens Parameter

Description

GSM cell name. Cell Name Identifies unambiguously the egcid relationship between a UTRAN cell and a GSM cell mcc mnc lac

Absolute Radio Frequency Number of the GSM cell Network colour code ncc Base station colour code bcc Indicates how to interpret bandi the BCCH ARFCN Maximum allowed UL maut TX power Controls the UE mode_nc measurement behavior to be applied initially in target GPRS cell: Value ‚0': The UE has to perform normal UE controlled cell selection/reselection procedure when camping on the target cell. Value ‚1' and ‚2': The UE has to report measurements on adjacent cells, so that the 2G network could order cell reselection. Value ‚3': The UE has to read the value for NC mode from 2G system information first.

1/23/2014

0..65535

Live Network Value Parameter Descriptio n #N/A #N/A

#N/A MCC MNC lac

Location area of GSM cell. 1 to 65533, 65535

arfcn

qrxlevmin

Ericsson Range

Specifies the minimal required RX level in the cell

0..1023

#N/A

dcs: dcs_1800 pcs: pcs_1900 -50 to 33 dBm

dcs

#N/A #N/A #N/A

33

#N/A

0..3

0

#N/A

-115,...,-25 dBm by step of 2 dBm

-101

qRxLevMi n


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206124062.xls.ms_office Ericsson Rang E/// Live Network Value e #N/A #N/A


Maxis Discus s

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Final Agreed Value

-

#N/A 502 12 From Radio Network Design

-

#N/A #N/A #N/A #N/A

HW default

GSM900_DCS1800_BAND_USED

#N/A #N/A

Network Control Mode ( What is NC0 means in HW?)-HW to check what is this???

-105

1/23/2014

Why HW recommend -99dBm to Maxis instead of 101 dBm/ -105 dBm derived in E///, Siemens?

-105 dBm


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to check with PCL

1/23/2014


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Huawei Parameter Name CELLID NULL

文档密级

Huawei Huawei Range Huawei Proposed Value Huawei Command 0~65535 ADD GSMNCELL

QOFFSET1SN CELLINDIVIDALOFFSET CID

-50~50dB

0

ADD GSMNCELL

-50~50dB H'0000~H'FFFF(0~65535).

0 -

ADD GSMNCELL ADD GSMCELL

GSMCELLINDEX

0~65535.

-

ADD GSMNCELL

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Parameter CellId (source cell) Nodebid qoffset1

Siemens Description This specifies the offset between the two cells if the quality measure for cell selection and reselection is set to CPICH RSCP.In dB

Ericsson Range -50 a 50.

Cell individual offset. -50,..,.50 dB Cio Identifies Egcid (target cell) unambiguously the relationship between a UTRAN cell and a GSM cell.

1/23/2014

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Live Network Value

7

0


Parameter Cell id #N/A qOffset1sn

individualOffset #N/A #N/A

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206124062.xls.ms_office Ericsson Description Range E/// Live Network Value From Radio Network Design #N/A 7

0 #N/A #N/A

1/23/2014


文档密级 Maxis Discuss

Content: In cell selection or reselection, the larger the parameter, the smaller the probability of selecting inter-RAT neighboring cells. The smaller the parameter, the larger the probability of selecting inter-RAT neighboring cells. 2G cellID How HW works? Similar to Siemens? Looking for EGCID for GSM cells?


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Maxis Final Agreed Value -

7

0 -

1/23/2014


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Huawei Radio Parameters v1 0 4

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