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7/31/2019 Explanations of e Radio Parameters
1/430
BSC Level PS Part Parameters
Cell Level PS Part Parameters
BSC Level CS Part Parameters
Cell Level Function Parameters
Module Parameters
Cell Level Property Parameters
PC Related Parameters
Adjacent Related Parameters
HO Related Parameters
External Cell Parameters
TRX Level Property Parameters
Channel related Parameters
CR Related Parameters
Frequency Hopping System
2G3G Related Parameters
7/31/2019 Explanations of e Radio Parameters
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Codec mode
adjustment
CnCn Cn
GPRSCS-
1CS-
4
9.05 kbps13.4
used to determine
the increase of
coding mode level.
Unlike the unifiedcoding mode of the
circuit channel, the
GPRS data block
may employ the CS-
1 to CS-4 coding
100,%(>) 85,85,85
Codec mode
adjustment
NnNn Nn
BRPR
LC/MAC
ecrease o co ng
mode level. It is
used
at the RLC/MAC
layer of BRP.
0 ~ 255 20,20,20
Codec mode
adjustment
Xn Xn Xn
BRPRLC
/MAC
s parameter s
the threshold for
determining
the decrease in the
level of the coding
0 ~ 100,%(>) 25,25,25
Paging
related
BSC
BSC's net
operation
mode
NMO
3
l
1
GPRS
ere are ree
network operation
modes:
Mode 1: The
network sends to
e wor
operation mode
1;Network
operation mode
2;Network
Network
operation
mode 2
Paging
related
BSCCS
BSC support
page
coordination
PagCoordina
tion
CS
SI13PSI1
PSI13GPRS
Cell
ase pag ng.
This parameter is
broadcasted in
GPRS CELL
OPTIONS through
Yes/No No
Resource
Allocation
related
Resource
adjust
threshold
ResourceAdj
ustThs
en ytes
transmitted forpacket servie data
have
crossed the
200 ~
5000,Byte()2000
Resource
Allocation
related
Support
extended
uplink
dynamic
allocation
ExUpDynSu
pport
Extend
Dynamic
n ynam c
allocation. While
using this function,
the
MS only need listen
Yes/No No
Suspend&Re
sume
MAX times
of suspend
retry
SuspendMax
MsSD
CCHBSS
SUSPEND
rs sen s a
SUSPEND message
to BSS over
SDCCH when a
Class B GPRS MS
0 ~ 10 3
Suspend&Re
sume
MAX times
of resume
retry
ResumeMax
GPRS-
attached
BSS
ayer
parameters. when
GPRS-attached
MS leaves a special
mode, BSS adopts
0 ~ 10 3
Suspend&Re
sume
Suspend
retry timeBssgpT3
BSSMS
ass no es
the network to
suspend packet
service when MS is
ready to perform a
1 ~ 100, 100ms 30
Explanation of
Parameters (EN)
Value Range &
Unit
Default
Value in
OMCR
Explanation of
Parameters (CN)Category
Parameter
Name (CN)
Parameter
Name (EN)
Parameter
Code
7/31/2019 Explanations of e Radio Parameters
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Suspend&Re
sume
Resume retry
timeBssgpT4
GPRS-
attached
BSS
t mon tors
resuming
procedure.
Service process in
BSC peripheral
1 ~ 100, 100ms 30
PFC relatedPFC
Support PFC PFCSupport
I13GPRS Cell
options
EGPRS
s parameter s
broadcasted
through SI13,
PSI1, and PSI13
messages. In
Yes/No No
PFC relatedPFC
Maximum
times of
retrying to
create PFC
DownLoadB
ssPFCMax
Creat
BSS
PFCBSS
GPT6
ax re ry mes o
create PFC. If
"Creat BSS PFC" is
not received before
timer BSSGPT6 is
0 ~ 10 3
PFC relatedPFC
Maximum
times of
retrying to
modify PFC
ModifyBssP
FCMax
Modify
BSS PFC
AckBSS
GPT8
ax re ry mes o
modify PFC. If
"Modify BSS PFC
Ack" is not
received before
0 ~ 10 3
PFC related PFC
PFC creatingretry time
BssgpT6
1BSC
creat ng retry
time. The
conditions of timerstart, stop, and
timeout actions are
1 ~ 100, 100ms 30
PFC relatedPFC
Retry time to
modify PFCBssgpT8
1BSC
e ry me o
modify PFC. The
conditions of timer
start, stop, and
timeout actions are
1 ~ 100, 100ms 30
TBF
establishmen
t and release
TBF
Support
signal
extended
uplink TBF
SIGNAL_E
UTBF
TBF
TBF
TBF
s parame er
indicates if
signaling uplink
TBF can
use extended uplink
Yes/No No
TBF
establishmen
t and release
TBF
TBF release
time of
downlink
transmission
T3193
3193
TBF
1
s parameter stimer T3193 which
is used for
protection on TBF
release during
0 ~ 65535, 10ms 51
TBF
establishmen
t and release
TBF
TBF release
timerT3191
3191
RLCB
SN
s parame er s
timer T3169.
During the packet
downlink
transmission, if the
0 ~ 65535, 10ms 500
TBF
establishmen
t and release
allowed
number of
continuous
losses of
N3101
3101BRPR
LC/MAC
BSS
s parame er s
counter N3101,
which is
used at RLC/MAC
layer of BRP.
9 ~ 255 10
TBF
establishmen
t and release
/
Times of
packet
uplink
ACK/NACK
retries
N3103
3103BRPR
LC/MAC
use at
layer of BRP.
During the packet
uplink transmission,
if the
0 ~ 255 10
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TBF
establishmen
t and release
TFIUSF
TFI and USF
release timerT3169
3169
N3101N310
3BSS
s parameter s
timer T3169.
During the packet
uplink transmission,
if N3101 or N3103
0 ~ 65535, 10ms 500
TBF
establishmen
t and release
RLC/M
AC
allowed
number of
continuous
losses of
N3105
3105BRPR
LC/MAC
BSS
s parameter s
counter N3105,
which is
used at RLC/MAC
layer of BRP.
0 ~ 255 10
TBF
establishmen
t and release
TBF
TBF protect
time when
radio link
failure
T3195
MSTB
F
T3195
s parame er e
protection time of
TBF when
the radio link fails
or when the cell
0 ~ 65535, 10ms 500
TBF
establishmen
t and release
TBF
Support TBF
establishTBF_EST
TBF
TBF
TBF
s parame er
indicates if BSC
supports TBF
establishment
process. TBF flow
Yes/No No
TBF
establishmen
t and release
MAX times
of radio
access
capabilities
update retry
UpdateMax
STBF
MS
ayer
parameters. when
MS is establishinguplink/downlink
TBF, BSS requires
0 ~ 10 3
TBF
establishmen
t and release
Access
capability
update retry
time
BssgpT5
BSSSGSN
mon ors
RA_CAPABILITY
procedure.
Service process in
BSC peripheral
10 ~ 300,100ms 30
Resource
Allocation
related
Abis
PS
Resource
pool for PS
rate
PsAbisThs
PS
80%
PS
u ynam c s
resource pool
provides use
proportion
of PS channel. if
0 ~ 100, %(>) 80
Resource
Allocation
related
PS
Maximum
PS uplink
user per ts
MaxPsUserP
erTs_0
P
S
This parameter
describes maximum
PS uplink user per
ts.
2 ~ 8 4
Resource
Allocation
related
PS
Maximum
PS downlink
user per ts
MaxPsUserP
erTs_1
P
S
This parameter
describes maximum
PS downlink user
per ts.
2 ~ 16 6
Resource
Allocation
related
RancRrm
CMPU
PU
Get Static
param timer
GetStaticPar
amTimer
anc rm
C
MPUPU
e coun ng
parameter, used by
RancRrm, is used
to timely poll UPU
unit below CMP.
60 ~ 600,100ms 120
Resource
Allocation
related
Gb
Weight of
uplink
throughout
on interface
Gb
RS
Gb
Abis
RS+RR+
RA+RM+RB+RG+
RE100
p n t roug put
weight value at Gb
interface, the
dynamic Abis
adjustment
0 ~ 100,% 20
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Resource
Allocation
related
Gb
Weight of
downlink
throughout
on interface
Gb
RR
Gb
Abis
RS+RR+
RA+RM+RB+RG+
RE100
own n
throughput weight
value at Gb
interface,
the dynamic Abis
0 ~ 100,% 20
Resource
Allocation
related
EGPRS
MS
Weight of
EGPRS
access
requestamount
RA
MS
Abis
RS+RR+
RA+RM+RB+RG+
e g t va ue o
EGPRS MS
accessing request
times,
the dynamic Abis
0 ~ 100,% 10
Resource
Allocation
related
Weight of
high
bandwidth
request
amount
RM
Abis
RS+RR+RA
+RM+RB+RG+RE
100
e g va ue o
high-bandwidth
request times, the
dynamic Abis
adjustment
0 ~ 100,% 25
Resource
Allocation
related
Weight of
high
bandwidth
usage
RB
Abis
RS+RR+RA
+RM+RB+RG+RE
100
e g va ue o e
highest bandwidth
usage, the
dynamic Abis
adjustment
0 ~ 100,% 10
Resource
Allocation
related
GPRS
Weight of
GPRS trx
ratio
RG
GPRS
RS+RR+RA+RM+
RB+RG+RE
100
s parameter
defines weights of
GPRS carrierproportion,
RS+RR+RA+RM+
0 ~ 100,% 5
Resource
Allocation
related
EDGE
Weight of
EDGE trx
ratio
RE
EDGE
RS+RR+RA+RM+
RB+RG+RE
100
s parame er
defines weights of
EDGE carrier
proportion,
RS+RR+RA+RM+
0 ~ 100,% 10
Resource
Allocation
related
PS
PS channel
delay release
timer
PSRelDelay
PS
n orma on o
releasing this PS
channel when this
threshold is
achieved. The
200 ~ 600,
100ms300
Resource
Allocation
related
TBF
Highest
coding
scheme of
signal TBF
SigTBFMax
Code
PDP
e trans err ngupper signaling,
such as PDP
activation, routing
area update, this
MCS1 ~ MCS9 MCS6
PS Cell
reselection
related
LLC
LLC frame
rerouting
LLCTRANS
UPPORT
BSC
LLC
It indicates if BSC
supports LLC frame
rerouting.
Yes/No No
PS Cell
reselection
related
NACC
supported
NACCSupp
ort
NACC
BSC
BSC
ramewor
conversion refers to
the process: on
NACC, if target cell
is the cell in BSC,
Yes/No No
PS Cell
reselection
related
RIM Support RIM RIMSupport
RIR
controlling
BSSserving
BSS
t mer
duration.
This timer starts
when controlling
BSS initiates
Yes/No No
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PS Cell
reselection
related
RIM
RIM retry
times
RIMRetryTi
mes
RIM
RIM retry times.
Send it again based
on this
number if timeout,
up to 3 times.
0 ~ 3 0
PS Cell
reselection
related
RIR RIR timer TRIR
RIR
controlling
BSSserving
BSS
t mer
duration.This timer
starts while
controlling BSS
sends request
50 ~ 300,100ms 50
PS Cell
reselection
related
RI RI timer TRI
RIse
rving
BSScontrolling
BSSPDU
mer
duration.This timer
starts when serving
BSS sends message
PDU to controlling
50 ~ 300,100ms 50
PS Cell
reselection
related
RIAE
RIAE timer TRIAE
RIAE
controlling
BSSRAN
Information
mer
duration.
This timer starts
when controlling
BSS initiates
50 ~ 300,100ms 50
Others
Gb
Satellite
transmission
at Gb
interface
indication
IsStatelliteGB
BSC
Gb
t escr es
system supports
"satellitetransmission at Gb
interface". This
Yes/No No
Others R99 R99 Ind R99Ind
BSS
R
99
n ca es
protocol version ID.
BSS considers this
parameter as a basis
to determine if to
Version of R98
or its before,
Version of R99
Version of
R99
BSS/SGSN
interaction
related
BVC
MAX times
of BVC
block retry
BVCBlkMa
x
P
TP
BVC
/B
e
must be blocked
due to OAM
intervention or
equipment faults
3 ~ 10 3
BSS/SGSN
interaction
related
BVC
MAX times
of BVC
unblock
retry
BVCUblkM
ax
PTP
BVC
/
t emust be unblocked
due to the OAM
intervention or
recovery of the
3 ~ 10 3
BSS/SGSN
interaction
related
BVC/
BVC
block/unbloc
k retry time
BssgpT1
/O
AM
BVC
mon ors
blocking/unblockin
g process. Global
process in BSC
central module MP
10 ~ 300, 100ms 30
BSS/SGSN
interaction
related
BVC
MAX times
of BVC reset
retry
BVCRestMa
x
BVC
o eep e n a
status consistent
between the two
BVC sides, the
Reset BVC
0 ~ 255 3
BSS/SGSN
interaction
related
BVC
BVC reset
retry timeBssgpT2
BVC
PTP
BVCBVC
t mon tors
reset procedure.
BSS initiates "BVC
reset" process when
BVC (including
10 ~ 1200,
100ms30
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BSS/SGSN
interaction
related
NS
MAX times
of NS block
retry
NSBlkMax
NS
BLOCK
NS_T1
SGSN
repeats t e
blocking process
when sending the
NS BLOCK
message to SGSN.
0 ~ 10 3
BSS/SGSN
interaction
related
NS
MAX times
of NS
unblock
retry
NSUnblkMa
x
NS
UNBLOCK
NS_T1
repeats
UNBLOCK
procedure after
sending NS
UNBLOCK
0 ~ 10 3
BSS/SGSN
interaction
related
NS
/
Timer that
monitors the
block/unbloc
k procedure
NS_T1
1
s e mer a
monitors the
block/unblock
procedure. The
conditions of timer
1 ~ 120,s 10
BSS/SGSN
interaction
related
NS
Timer that
monitors
reset
procedure
NS_T2
1.
s mer a
monitors reset
procedure. The
conditions of timer
start, stop, and
1 ~ 120,s 10
BSS/SGSN
interaction
related
NSAlive
MAX times
of NS alive
retry
NSAliveMax
NS
AliveNS_T4
SGSN
ve message to
SGSN. If BSC fails
to receive NS AliveACKNOWLEDGE
message from
0 ~ 20 10
BSS/SGSN
interaction
related
NSVC
alive
Timer that
monitors
alive process
of NSVC
NS_T4
a ve
1.
mer a mon ors
alive process of
NSVC. The
conditions of timer
start, stop, and
3,s 3
BSS/SGSN
interaction
related
NS-
VC
NC-Cycle of
NS-VC test
process
NS_T3
-
VC
1.
- yc e o -
VC test process.
The conditions
of timer start,
restart, and timeout
1 ~ 60,s 30
BSS/SGSN
interaction
related
Maximum
attempt
period of
reset
NS_T5
NS
NS_T5NS_T2
ax mum attemptperiod of reset.
Start timer NS_T5
while starting NS
reset process,
180,s 180
BSS/SGSN
interaction
related
NSVC
NSVC peer
to peer delayDelay 1 ~ 20, ms 10
Flow control
related
BVC
BVC flow
control
period
CellFcPer
BVC
BVC
s parame er s
the BVC leakage
ratio
measurement period
in the BVC Flow
0 ~ 65535, 10ms 3000
Flow control
related
MS
MS flow
control
period
MsFcPer
MS
MS
SG
s parameter s
the MS leakage
ratio measurement
period in the MS
Flow Control
0 ~ 65535, 10ms 3000
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Flow control
related
BVC
BVC flow
control
supported
BVCFlowCt
rl
GSNBSS
Gb
ow contro
occurs at Gb
interface between
SGSN and BSS,
and only in
Yes/No Yes
Flow control
related
MS
MS flow
control
supported
MSFlowCtrl
SNBSSG
b
ow contro
occurs at Gb
interface between
SGSN and BSS,
and only in
Yes/No No
Flow control
related
Flow control
mode
FlowCtrlMo
de
SGS
N
11B
SC
as eren
flow control modes
report flow control
parameters to
SGSN. The modes
1 ~ 3 1
Flow control
related
1
Parameter of
Flow control
mode 1
FlowCtlMod
e1Para
BSC
repor s ow
control parameters
according toactual
traffic at radio
interface when
1 ~ 100 1
Flow controlrelated
2
Parameter of
Flow control
mode 2
FlowCtlMode2Para
BSC
max tra c t at t e
cell can provide
when adoptingmode 2. Maximum
value depends on
10 ~ 1000,100bps
214
Flow control
related
BVCR
BVC flow
control R
MIN value
BVCFlowCt
rlRMin
BVC
R
R
s s e
minimum value of
leaking rate R in
reported
BVC flow control
10 ~ 300, 100bps 80
Flow control
related
MSR
MS flow
control R
MIN value
MSFlowCtrl
RMin
MS
R
R
s s e
minimum value of
leaking rate R in
reported
MS flow control
10 ~ 300, 100bps 80
Not valid
FUC
Protection
time for
FUC channel
type change
ccmT1 2 ~ 10, s 10
Not validT
Protection
time for T-
network
connection
ccmT2 2 ~ 10, s 10
Not validLSP
Protection
time for LSP
movement
ccmT3 2 ~ 10, s 10
Not valid
poll
Downlink
TBF retry
DLTBFRetr
y
Not retry
one times
two times
Not retry
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Not validBVC
BVC flow
control
threshold
CellFcThs 1 ~ 100, % 80
Not validMS
MS flow
control
threshold
MsFcThs 1 ~ 100, % 80
Not valid
RL
C
Extended
RLC send
window
allowed
IsWindowEx
pend
RLC
if extended RLC
send window is
allowed.
Yes/No No
Not valid
C 0 ~ 10 5
PoC Related PoC
Optimized
PoC service
support
POCSUPPORT
PoC
POC
Push to talk Over
Yes/No No
PoC Related
PO
CPoC
Maximal
users of
POC service
on shared PS
channel 0
PSCAPATH
S_UL
POC
26 3
PoC Related
PO
CPoC
Maximal
users of
POC service
on shared PS
channel 1
PSCAPATH
S_DL
POC
n ca es e
upper limit of PoC
service
subscribers in
shared downlink
26 3
PoC Related
GPRSPO
C
Highestcoding
scheme of
POC service
in GPRS
PocAttSelt_
0
GPRSP
OC
t e scr es t ehighest coding
mode that can be
used while GPRS
MS does POC
CS1CS2CS
3CS4CS3
PoC Related
EDGEPO
C
Highest
coding
scheme of
POC service
in EGPRS
PocAttSelt_
1
EGPRS
POC
It describes the
highest coding
mode that can be
used EGPRS MS
does POC service.
MCS1 ~ MCS9 MCS6
PoC RelatedPOC
Maximal
resource for
POC service
POCSrcThs
POC
PS
It indicates the
percent of current
PS resource
occupied by POC
service.
0~100,% 50
OthersPS
TRX PS
busy
threshold
TrxPSBusyT
hs
PSPS
s parameter s
used to collect PS
service on the idle
carrier while
applying for PS,
1 ~ 6400 (
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IP relatedSNS
SNS add
retries
SNSAddMa
x
SNS_T1
SGS
NSNS
s parameter
describes the max
retries of SNS
addition
operation, when
3~10 3
IP relatedSNS
SGSN
configure
retries
SNSConfig
Max
SNS_T1
SGS
NSNS Config
s parameter
describes the max
retries of SNS
configuration
operation, when
3~10 3
IP related
SNS
SNS modify
retries
SNSChgWei
ghtMax
SNS
_T1
SGSNSNS
s parame er
describes the max
retries of SNS
change weight,
when SNS Ack is
3~10 3
IP relatedSNS
SNS delete
retriesSNSDelMax
SNS_T1
SGS
NSNS
s parame er
describes the max
retries of SNS
delete
operation, when
3~10 3
IP related
SNS
SIZE
SNS sizeretries
SNSSizeMax
SIZE
SNS_T1SG
SNSNS Size
s parameter
describes the max
retries of SNSSIZE operation,
when SNS Size
3~10 3
IP relatedSNS
SNS process
monitoring
timer
SNS_T1
SNS
s parame er
describes SNS
process monitoring
timer. The
conditions of timer
10 ~ 100,100ms 30
IP related Abis CS Abis CS IPTOS_0
AbisCS
TOS
IP
serv ce
corresponds to used
TOS under IP Abis.
This parameter field
belongs to service
0 ~ 64 0
IP related Abis PS Abis PS IPTOS_1
AbisPS
TOS
IP
IP
serv cecorresponds to used
TOS under IP Abis.
This parameter field
belongs to service
0 ~ 64 0
IP related A CS A CS IPTOS_2
ACS
TOS
IP
IPT
serv ce
corresponds to used
TOS under IP A.
This parameter field
belongs to service
0 ~ 64 0
IP related IPOE CS IPOE CS IPTOS_3
E1CS
TOS
IP
IPTOS
serv ce
corresponds to used
TOS
under IP Over E1.
This parameter field
0 ~ 64 0
IP related IPOE PS IPOE PS IPTOS_4
E1PS
TOS
IP
IPTOS
serv ce
corresponds to used
TOS
under IP Over E1.
This parameter field
0 ~ 64 0
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IP related IPOE SCTP IPOE SCTP IPTOS_5
E1SCTP
TOS
IP
IPT
pac ets
corresponds to used
TOS
under IP Over E1.
This parameter field
0 ~ 64 0
IP relatedT
OS
IPGb
Conversation
TOS
IPTOS_6
GBQos
TOS
IP
use w e
Qos service type is
conversation under
IP GB.
This parameter field
0 ~ 64 0
IP relatedTOS
IPGb
Streaming
TOS
IPTOS_7
GBQos
TOS
IP
use w e
Qos service type is
streaming
media service under
IP GB.
0 ~ 64 0
IP relatedT
OS
IPGb
Interactive
TOS
IPTOS_8
GBQos
TOS
IP
use w e
Qos service type is
interactive under IP
GB.
This parameter field
0 ~ 64 0
IP related TOS
IPGb
Background
TOS
IPTOS_9
GBQos
TOS
IP
use w e
Qos service type is
backgroundservice under IP
GB.
0 ~ 64 0
IP related TOS IPGb TOS IPTOS_10
GBQos
TOS
IP
use w e
Qos service type is
general under IP
GB.
This parameter field
0 ~ 64 0
IP related
SCTP
DSCP
DSCP Field
of SCTP
Packet
Info3
IP
IPTOS
TOSTypeOfSe
e o
SCTP Packet
This parameter field
belongs to service
IP
0 ~ 63 0
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85,85,85 85,85,85 85,85,85 85,85,85 85,85,85 85,85,85 90,90,90 90,90,90 85,85,85
20,20,20 20,20,20 20,20,20 20,20,20 20,20,20 20,20,20 20,20,20 20,20,20 20,20,20
25,25,25 25,25,25 25,25,25 25,25,25 25,25,25 25,25,25 15,15,15 15,15,15 25,25,25
Network
operation
mode 2
Network
operation
mode 2
Network
operation
mode 2
Network
operation
mode 2
Network
operation
mode 2
Network
operation
mode 2
Network
operation
mode 2
Network
operation
mode 2
Network
operation
mode 2
Yes Yes Yes Yes Yes Yes Yes Yes Yes
2500 2500 2500 2500 2500 2500 2500 2500 2500
Yes Yes Yes Yes Yes Yes Yes Yes Yes
3 3 3 3 3 3 3 3 3
3 3 3 3 3 3 3 3 3
30 30 30 30 30 30 30 30 30
Recommend
ed Value for
Network
Optimizatio
n
Recommended Value for Different Scenes
Dense Urban/Urban RuralExpress Way/High-speed
RailwayWide C
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30 30 30 30 30 30 30 30 30
No No No No No No No No No
3 3 3 3 3 3 3 3 3
3 3 3 3 3 3 3 3 3
30 30 30 30 30 30 30 30 30
30 30 30 30 30 30 30 30 30
Yes Yes Yes Yes Yes Yes Yes Yes Yes
152 152 152 152 152 152 152 152 152
500 500 500 500 500 500 500 500 500
50 50 50 50 50 50 50 50 50
10 10 10 10 10 10 10 10 10
7/31/2019 Explanations of e Radio Parameters
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500 500 500 500 500 500 500 500 500
15 15 15 15 15 15 15 15 15
500 500 500 500 500 500 500 500 500
Yes Yes Yes Yes Yes Yes Yes Yes Yes
3 3 3 3 3 3 3 3 3
30 30 30 30 30 30 30 30 30
80 80 80 80 80 80 80 80 80
7 7 7 7 7 7 7 7 7
16 16 16 16 16 16 16 16 16
120 120 120 120 120 120 120 120 120
20 20 20 20 20 20 20 20 20
7/31/2019 Explanations of e Radio Parameters
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20 20 20 20 20 20 20 20 20
10 10 10 10 10 10 10 10 10
25 25 25 25 25 25 25 25 25
10 10 10 10 10 10 10 10 10
5 5 5 5 5 5 5 5 5
10 10 10 10 10 10 10 10 10
200 200 200 200 200 200 200 200 200
MCS6 MCS6 MCS6 MCS6 MCS6 MCS6 MCS6 MCS6 MCS6
Yes Yes Yes Yes Yes Yes Yes Yes Yes
Yes Yes Yes Yes Yes Yes Yes Yes Yes
Yes Yes Yes Yes Yes Yes Yes Yes Yes
7/31/2019 Explanations of e Radio Parameters
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0 0 0 0 0 0 0 0 0
50 50 50 50 50 50 50 50 50
50 50 50 50 50 50 50 50 50
50 50 50 50 50 50 50 50 50
e sate te
transmission
is adoptedby Gb
interface:
e sate te
transmission
is adoptedby Gb
interface:
e sate te
transmission
is adoptedby Gb
interface:
e sate te
transmission
is adoptedby Gb
interface:
e sate te
transmission
is adoptedby Gb
interface:
e sate te
transmission
is adoptedby Gb
interface:
e sate te
transmission
is adoptedby Gb
interface:
e sate te
transmission
is adoptedby Gb
interface:
e sate te
transmission
is adoptedby Gb
interface:
Version of
R99
Version of
R99
Version of
R99
Version of
R99
Version of
R99
Version of
R99
Version of
R99
Version of
R99
Version of
R99
3 3 3 3 3 3 3 3 3
3 3 3 3 3 3 3 3 3
30 30 30 30 30 30 30 30 30
3 3 3 3 3 3 3 3 3
30 30 30 30 30 30 30 30 30
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3 3 3 3 3 3 3 3 3
3 3 3 3 3 3 3 3 3
10 10 10 10 10 10 10 10 10
10 10 10 10 10 10 10 10 10
10 10 10 10 10 10 10 10 10
3 3 3 3 3 3 3 3 3
30 30 30 30 30 30 30 30 30
180 180 180 180 180 180 180 180 180
10 10 10 10 10 10 10 10 10
800 800 800 800 800 800 800 800 800
1400 1400 1400 1400 1400 1400 1400 1400 1400
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Yes Yes Yes Yes Yes Yes Yes Yes Yes
Yes Yes Yes Yes Yes Yes Yes Yes Yes
s
HW or
MOTO:2;
SGSN is
other
s
HW or
MOTO:2;
SGSN is
other
s
HW or
MOTO:2;
SGSN is
other
s
HW or
MOTO:2;
SGSN is
other
s
HW or
MOTO:2;
SGSN is
other
s
HW or
MOTO:2;
SGSN is
other
s
HW or
MOTO:2;
SGSN is
other
s
HW or
MOTO:2;
SGSN is
other
s
HW or
MOTO:2;
SGSN is
other
Flow control
mode 1:2;
Flow control
mode 2:1.
Flow control
mode 1:2;
Flow control
mode 2:1.
Flow control
mode 1:2;
Flow control
mode 2:1.
Flow control
mode 1:2;
Flow control
mode 2:1.
Flow control
mode 1:2;
Flow control
mode 2:1.
Flow control
mode 1:2;
Flow control
mode 2:1.
Flow control
mode 1:2;
Flow control
mode 2:1.
Flow control
mode 1:2;
Flow control
mode 2:1.
Flow control
mode 1:2;
Flow control
mode 2:1.
800 800 800 800 800 800 800 800 800
80 80 80 80 80 80 80 80 80
80 80 80 80 80 80 80 80 80
10 10 10 10 10 10 10 10 10
10 10 10 10 10 10 10 10 10
10 10 10 10 10 10 10 10 10
Not retry Not retry Not retry Not retry Not retry Not retry Not retry Not retry Not retry
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80 80 80 80 80 80 80 80 80
80 80 80 80 80 80 80 80 80
No No No No No No No No No
5 5 5 5 5 5 5 5 5
No No No No No No No No No
3 3 3 3 3 3 3 3 3
3 3 3 3 3 3 3 3 3
CS3 CS3 CS3 CS3 CS3 CS3 CS3 CS3 CS3
MCS6 MCS6 MCS6 MCS6 MCS6 MCS6 MCS6 MCS6 MCS6
50 50 50 50 50 50 50 50 50
900 900 900 900 900 900 900 900 900
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3 3 3 3 3 3 3 3 3
3 3 3 3 3 3 3 3 3
3 3 3 3 3 3 3 3 3
3 3 3 3 3 3 3 3 3
3 3 3 3 3 3 3 3 3
30 30 30 30 30 30 30 30 30
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
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0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
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85,85,85 85,85,85 85,85,85
,
mode level will be more difficult.
If the configuration is small, the increase of
coding mode level will be easier.
It is suggested that the configuration should bebig. So it is possible to realize the increase of
coding mode level when BLER is quite small.
If the configuration is big enough, it will be
reasonable to realize the increase of coding
mode level. It can be avoided that the rate
20,20,20 20,20,20 20,20,20
s parame er s e e orge ng ac or o e
adjustment of EDGE coding mode.
If the configuration is big, more attention will be
given to the number of data blocks which have
been transmitted. In this way, the adjustment of
25,25,25 25,25,25 25,25,25
t e con gurat on s g, t e ecrease o
coding mode will be more difficult.
If the configuration is small, the decrease of
coding mode will be easier.
It is suggested that the configuration should be
Network
operation
mode 2
Network
operation
mode 2
Network
operation
mode 2
Currently, PBCCH and Gs interface are not
used, and the network operation mode 2 is
adopted.
If the configuration is wrong, the success rate of
CS based paging will be greatly affected.
Yes Yes Yes
s unc on s ena e , e success ra e o
based paging will be improved.
Note: The network side can not deliver the CS
paging messages through PACCH unless it
knows the MS IMSI. In other words, the CS
2500 2500 2500
e con gura on s oo sma , e rea oca on
of resources tend to be misjudged.If the configuration is too big, it is possible to
have the following consequences.
The reallocation of resources can not be
Yes Yes Yes
e ex en e ynam c a oca on, one
downlink PDTCH is allowed to schedule more
than one uplink PDTCH.This contributes to
improve the uploading rate of the terminals
which support EDA (the protocol terminal of R4
3 3 3
The recommended value is defined in "Table
12.1.b: Procedure retry counters" of 3GPP TS
48.018. (For details, please refer to the field
SUSPEND-RETRIES). It should not be
modified.
3 3 3
The recommended value is defined in "Table
12.1.b: Procedure retry counters" of 3GPP TS
48.018 (For details, please refer to the field
RESUME-RETRIES). It should not be modifed.
30 30 30
As to the waiting delay of Gb interface, 3s is
enough. It is not a network optimization
parameter, and it should not be modified.
Accessibility Mobility
Indoor Coverage/TunnelExplanation of Values
Performanc
verage
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30 30 30
As to the waiting delay of Gb interface, 3s is
enough. It is not a network optimization
parameter, and it should not be modified.
No No No
en t e serv ces are use , t s poss e to
have access failures due to the inadequate
bandwidth resources.
If PFC needs to be used at the work field, it
should be enabled.
3 3 3
The recommended value is defined in "Table
12.1.b: Procedure retry counters" of 3GPP TS
48.018 (For details, please refer to the field
CREATE-BSS-PFC-RETRIES). It should not be
modified.
3 3 3
The recommended value is defined in "Table
12.1.b: Procedure retry counters" of 3GPP TS
48.018 (For details, please refer to the field
MODIFY-BSS-PFC-RETRIES).It should not be
modified.
30 30 30
As to the waiting delay of Gb interface, 3s is
enough. It is not a network optimization
parameter, and it should not be modified.
30 30 30
As to the waiting delay of Gb interface, 3s is
enough. It is not a network optimization
parameter, and it should not be modified.
Yes Yes Yes
s unc on s ena e , e o ow ng
functions can be realized.
When it starts to count down, the data
transmission can be started again in no time if
new data needs to be transmitted. The difference
152 152 152
or , t e e ay ng tact c s ou eadopted. Though the downlink resources are
wasted to some extent, the network can deliver
the "packet downlink allocation" message
directely before T3192/T3193 expires so as to
500 500 500
en ransm s e as a a oc o
the downlink TBF, FBI = 1, and RRBP is also
configured. MS is required to respond to the
Downlink Ack/Nack message. Besides, T3191 is
started. If the response from the MS is received
50 50 50
e con gura on s g, e a ure ra o o e
abnormal uplink TBF can be improved.
If the configuration is too small, it is possilbe
that several consecutive blocks can not be
delivered successfully sometimes and the uplink
10 10 10
t e con gurat on s g, t e a ure rat o o t e
abnormal uplink TBF can be improved.
If the configuration is too small, it is possible
that sometimes several PACKET CONTROL
ACKNOWLEDGEMENT messages can not be
7/31/2019 Explanations of e Radio Parameters
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500 500 500
en exp res, an resources are
released to be reused by the network side. If the
configuration is too big, it is meaningless for
data transmission. That's because when N3101
and N3103 reach N3101_MAX and
15 15 15
t e con gurat on s g, t e a ure rat o o t e
abnormal downlink TBF and the success rate of
the downlink TBF establishment will both be
improved.
If the configuration is too small, it is quite
500 500 500
en exp res, resources are re ease
so as to be reused by the network side. If the
configuration is too big, it is meaningless for
data transmission. That's because TBF will be
forced to be released when N3105 reaches
Yes Yes Yes
s sugges e a s ou e ena e . n s
way, to some extent, it is avoided that the uplink
TBF must be released before the request of
resources is originated to establish the uplink
TBF.In this way, the uplink throughput is
3 3 3
The recommended value is defined in "Table
12.2: Procedure retry counters" of 3GPP TS
08.18 (For details, please refer to the field RA-
CAPABILITY-UPDATE-RETRIES). It should
not be modified.
30 30 30
As to the waiting delay of Gb interface, 3s is
enough. It is not a network optimization
parameter, and it should not be modified.
80 80 80
or ne wor , s parame er s ou e
larger than (PDTCH*4*16kbps/Abis
bandwidth).
If it is the GPRS network where CS3/4 is
enabled, this parameter should be larger than
* *
7 7 7
t e con gurat on s sma , t ere may e ra oresource congestion when the data service is
busy. In this case, the success rate of the uplink
TBF establishment may be affected.
If the configuration is big, the ability to support
16 16 16
e con gura on s sma , ere may e ra o
resource congestion when the data service is
busy. In this case, the success rate of the
downlink TBF establishment may be affected.
If the configuration is big, the ability to support
120 120 120
e con gura on s g, e s resources o
each cell in the environment of the dynamic Abis
resource pool may not be adjusted in time. In
this case, the success rate of TBF establishement
and the relevantthroughput KPIs may be
20 20 20
or a new y esta s e networ , t s suggeste
that the default value should be used as the
original configuration. At the network
optimization phase, it can be slightly adjusted
accoring to the actual situation at the work field.
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20 20 20
or a new y esta s e networ , t s suggeste
that the default value should be used as the
original configuration. At the network
optimization phase, it can be slightly adjusted
accoring to the actual situation at the work field.
10 10 10
or a new y esta s e networ , t s suggeste
that the default value should be used as the
original configuration. At the network
optimization phase, it can be slightly adjusted
accoring to the actual situation at the work field.
25 25 25
or a new y es a s e ne wor , s sugges e
that the default value should be used as the
original configuration. At the network
optimization phase, it can be slightly adjusted
accoring to the actual situation at the work field.
10 10 10
or a new y es a s e ne wor , s sugges e
that the default value should be used as the
original configuration. At the network
optimization phase, it can be slightly adjusted
accoring to the actual situation at the work field.
5 5 5
or a new y esta s e networ , t s suggeste
that the default value should be used as the
original configuration. At the networkoptimization phase, it can be slightly adjusted
accoring to the actual situation at the work field.
10 10 10
or a new y es a s e ne wor , s sugges e
that the default value should be used as the
original configuration. At the network
optimization phase, it can be slightly adjusted
accoring to the actual situation at the work field.
200 200 200
Since the priority is given to the CS service, the
dynamic channel should keep being the TCH
type if possible. Since the minimum
configuration of the Timer is 20s. The
recommended minimum value is 20s.
MCS6 MCS6 MCS6
nce t e num er o va ytes o t e s gna ngblock is few, it is not necessary to transmit
through the block of a high coding scheme. If a
low coding scheme is used for the transmission,
there will be some benefits, including the
Yes Yes Yes
If this function is enabled, the interruption
interval of the cell reselection data will be
shortened. To some extent, the testing
throughput KPIs can be improved.
Yes Yes Yes
e unc on o e wor - ss s e e ange
(NACC) allows the BSC to assist the
GPRS/EDGE MSs which are under the Packet
Transfer mode in completing the cell update.
The cell reselection delay is mainly influenced
Yes Yes Yes
e unct on o etwor - ss ste e ange
(NACC) allows the BSC to assist the
GPRS/EDGE MSs which are under the Packet
Transfer mode in completing the cell update.
The cell reselection delay is mainly influenced
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0 0 0
It is suggested that the cell reselection should be
originated again when the candidate cells which
satisfy the cell reselection trigger conditions are
found again after the failure. In this way, it is
possible to try the best candidate cells.
50 50 50
t s etter to or g nate t e ce rese ect on aga n
when the candidate cells which satisfy the cell
reselection trigger conditions are found again
after the failure than to wait for a long period of
time. In this way, it is possible to try the best
50 50 50
s e er o or g na e e ce rese ec on aga n
when the candidate cells which satisfy the cell
reselection trigger conditions are found again
after the failure than to wait for a long period of
time. In this way, it is possible to try the best
50 50 50
s e er o or g na e e ce rese ec on aga n
when the candidate cells which satisfy the cell
reselection trigger conditions are found again
after the failure than to wait for a long period of
time. In this way, it is possible to try the best
e sate te
transmission
is adoptedby Gb
interface:
e sate te
transmission
is adoptedby Gb
interface:
e sate te
transmission
is adoptedby Gb
interface:
It should be planned according to thetransmission type on Gb interface.
Version of
R99
Version of
R99
Version of
R99
This is a parameter which is left over by history.
At present, "Version of R98 or its before" no
long exists.
3 3 3
The recommended value is defined in "Table
12.1.b: Procedure retry counters" of 3GPP TS
48.018 (For details, please refer to the field BVC-
BLOCK-RETRIES.). It should not be modified.
3 3 3
The recommended value is defined in "Table12.1.b: Procedure retry counters" of 3GPP TS
48.018 (For details, please refer to the field BVC-
UNBLOCK-RETRIES.).It should not be
modified.
30 30 30
As to the waiting delay of Gb interface, 3s is
enough. It is not a network optimization
parameter, and it should not be modified.
3 3 3
The recommended value is defined in "Table
12.1.b: Procedure retry counters" of 3GPP TS
48.018 (For details, please refer to the field BVC-
RESET-RETRIES.). It should not be modifed.
30 30 30
As to the waiting delay of Gb interface, 3s is
enough. It is not a network optimization
parameter, and it should not be modified.
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3 3 3
The recommended value is defined in "Table 16/
3GPP TS 08.16: System counters" of 3GPP TS
08.16 (For details, please refer to the field NS-
BLOCK-RETRIES.). It should not be modified.
3 3 3
The recommended value is defined in "Table 16/
3GPP TS 08.16: System counters" of 3GPP TS
08.16 (For details, please refer to the field NS-
UNBLOCK-RETRIES.).It should not bemodified.
10 10 10
As to the waiting delay of Gb interface, 10s is
enough. It is not a network optimization
parameter, and it should not be modified.
10 10 10
As to the waiting delay of Gb interface, 10s is
enough. It is not a network optimization
parameter, and it should not be modified.
10 10 10
The recommended value is defined in "Table 16/
3GPP TS 08.16: System counters" of 3GPP TS08.16 (For details, please refer to the field NS-
ALIVE-RETRIES.). It should not be modified.
3 3 3There is only one value in the value range. It
should not be adjusted.
30 30 30This is a commissioning parameter, and it does
not need to be adjusted.
180 180 180There is only one value in the value range. It
should not be adjusted.
10 10 10
It works for E1_Gb, but it does not work for
IP_Gb. It is not an optimization parameter. It
should keep being the ZTE default vaule.
800 800 800
e con gura on s oo g, ere s a
tendency that the flow control can not be
completed in time.
If the configuration is not reasonable, the
downloading will be interrupted, and the
1400 1400 1400
t e con gurat on s too sma , t ere w e an
increase of the system load (MS flow control is
for subscribers, while BVC flow control is for
cells.). It is suggested that the configuration of
this parameter should be a bit larger than BVC
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Yes Yes Yes
s unct on s ou e ena e . n t s case, t
can be avoided that some LLC data are
abandoned because of the overtime of BVC
caused by the fact that the grouping channel is
too busy (too many LLC frame caches). Or some
Yes Yes Yes
s unct on s ou e ena e . n t s case, t
can be avoided that some LLC data are
abandoned because of the overtime of MS
caused by the fact that the grouping channel is
too busy (too many LLC frame caches). Or some
s
HW or
MOTO:2;
SGSN is
other
s
HW or
MOTO:2;
SGSN is
other
s
HW or
MOTO:2;
SGSN is
other
If the configuration is not reasonable, or SGSN
is HW or MOTO, and the parameter is
configured as 1, the downloading will be
interrupted, and the relevant throughput KPIs
will be affected.
Flow control
mode 1:2;
Flow control
mode 2:1.
Flow control
mode 1:2;
Flow control
mode 2:1.
Flow control
mode 1:2;
Flow control
mode 2:1.
en ow con ro mo e s a op e , e ac ua
counted value is smaller due to the re-
transmission on RLC layer, TBF failure, and so
on. So BSC multiplies the actual traffic with a
multiple.
800 800 800
en ow contro mo e s a opte , t e actua
counted value is smaller due to the re-
transmission on RLC layer, TBF failure, and soon. Therefore, this parameter should be
configured a little bigger, especially for EDGE
80 80 80
It should be equal to or a little smaller than the
effective rate of RLC layer of CS1/MCS1.
If the configuration is not reasonable. The
downloading will be interrupted and the relevant
throughput KPIs will be affected.
80 80 80
It should be equal to or a little smaller than the
effective rate of RLC layer of CS1/MCS1.
If the configuration is not reasonable. The
downloading will be interrupted and the relevant
throughput KPIs will be affected.
10 10 10It is already not valid. It should keep being the
ZTE default value.
10 10 10It is already not valid. It should keep being the
ZTE default value.
10 10 10It is already not valid. It should keep being the
ZTE default value.
Not retry Not retry Not retryIt is already not valid. It should keep being the
ZTE default value.
7/31/2019 Explanations of e Radio Parameters
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80 80 80It is already not valid. It should keep being the
ZTE default value.
80 80 80It is already not valid. It should keep being the
ZTE default value.
No No NoIt is already not valid. It should keep being the
ZTE default value.
5 5 5It is already not valid. It should keep being the
ZTE default value.
No No No
The PoC-related optimization parameters are not
recommended except that some radio resourcesare planned for the PoC service separately at the
work field.
3 3 3
The PoC-related optimization parameters are not
recommended except that some radio resources
are planned for the PoC service separately at the
work field.
3 3 3
The PoC-related optimization parameters are not
recommended except that some radio resources
are planned for the PoC service separately at the
work field.
CS3 CS3 CS3
The PoC-related optimization parameters are not
recommended except that some radio resources
are planned for the PoC service separately at the
work field.
MCS6 MCS6 MCS6
The PoC-related optimization parameters are not
recommended except that some radio resources
are planned for the PoC service separately at the
work field.
50 50 50
The PoC-related optimization parameters are not
recommended except that some radio resources
are planned for the PoC service separately at the
work field.
900 900 900
en t e con gurat on s g, t e new
subscribers will be allocated to the idle TRX
which is configured with PDTCH if the
reusability of the data service on the carrier
frequency is low. In doing so, it is supposed to
7/31/2019 Explanations of e Radio Parameters
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3 3 3
It only works when Gb interface is with the
dynamic IP networking. At present, the Gb
interface is not connected by adopting the
dynamic IP.
3 3 3
It only works when Gb interface is with the
dynamic IP networking. At present, the Gb
interface is not connected by adopting the
dynamic IP.
3 3 3
It only works when Gb interface is with the
dynamic IP networking. At present, the Gb
interface is not connected by adopting the
dynamic IP.
3 3 3
It only works when Gb interface is with the
dynamic IP networking. At present, the Gb
interface is not connected by adopting the
dynamic IP.
3 3 3
It only works when Gb interface is with the
dynamic IP networking. At present, the Gbinterface is not connected by adopting the
dynamic IP.
30 30 30
It only works when Gb interface is with the
dynamic IP networking. At present, the Gb
interface is not connected by adopting the
dynamic IP.
0 0 0It has not been tested at the work field yet. It
should keep being the ZTE default value.
0 0 0It has not been tested at the work field yet. It
should keep being the ZTE default value.
0 0 0It has not been tested at the work field yet. It
should keep being the ZTE default value.
0 0 0It has not been tested at the work field yet. It
should keep being the ZTE default value.
0 0 0It has not been tested at the work field yet. It
should keep being the ZTE default value.
7/31/2019 Explanations of e Radio Parameters
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0 0 0It has not been tested at the work field yet. It
should keep being the ZTE default value.
0 0 0It has not been tested at the work field yet. It
should keep being the ZTE default value.
0 0 0It has not been tested at the work field yet. It
should keep being the ZTE default value.
0 0 0It has not been tested at the work field yet. It
should keep being the ZTE default value.
0 0 0 It has not been tested at the work field yet. Itshould keep being the ZTE default value.
0 0 0It has not been tested at the work field yet. It
should keep being the ZTE default value.
0 0 0It has not been tested at the work field yet. It
should keep being the ZTE default value.
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Reliabili ty ThroughputCoverage
Rate
Indicators Related to Each Parameter
CN Side
Indicators
Remarks
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TBF
establishmen
t and release
T3192 T3192 T3192
arame er use a e s e.
During the packet downlink transmission, if RLC
data block is the final downlink data block to be
transmitted, the network sends the RLC data block
TBF
establishmen
t and release
DRX
DRX mode
holding time
DrxTimeMa
x
.
GPRS cell option parameters, and it is broadcast
to the MS in the PSI1, PSI13 and SI13 messages,
indicating the value of DRX_TIMER_MAX.
TBF
establishmen
t and release
N3102
N3102
decrease stepPanDec
.
the GPRS cell option parameters, and they are
broadcast to the MS in the PSI1, PSI13 and SI13
messages, indicating the values of parameters
TBF
establishmen
t and release
N3102
N3102
increase stepPanInc
arame er use a e s e. ey e ong o
the GPRS cell option parameters, and they are
broadcast to the MS in the PSI1, PSI13 and SI13
messages, indicating the values of parameters
TBF
establishmen
t and release
N3102
N3102 Max PanMax
.
the GPRS cell option parameters, and they are
broadcast to the MS in the PSI1, PSI13 and SI13
messages, indicating the values of parameters
TBF
establishmen
t and release
Uplink
delay time
ULDelayTim
e
,
TBF
delay time. When uplink TBF is released, if
extended
TBF
establishmen
t and release
T3168 T3168 T3168
ce op on parame ers, an s roa cas o
the MS in the PSI1, PSI13 and SI13 messages.
T3168 indicates the maximum time to wait for
PACKET UPLINK ASSIGNMENT message after
TBF
establishmen
t and release
EGPRS
EGPRS
packet
channel
EgprsPacket
ChreqSI13PSI1
CELL OPTIONS of SI13, PSI1 and PSI13. It
indicates
if the cell supports
TBF
establishmen
t and release
Max Blocks
Transmissio
n in Each TS
BsCvMax
arame er use a e s e. e ongs o e
GPRS cell option parameters, and it is broadcast
to the MS in the PSI1, PSI13 and SI13 messages,
indicating the value of the maximum blocks
Resource
Allocation
related
1
Downlink
Allocation
by Multislot
info1_1_0
on
multislot capability 1 (that is, uplink 1 downlink 1)
or the
TBF
establishmen
t and release
T3142 T3142 T3142
.
This timer starts if the MS receives immediate
assignment refusal or DTM refusal during packet
access. This timer does not function if the MS in
TBF
establishmen
t and release
T3172 T3172 T3172
arame er use a e s e.
This timer starts if the MS receives PACKET
ACCESS
REJECT message during packet access. The MS
TBF
establishment and release
Single
Block
Assign
Offset
SBAssOffset
- .
request, and network allocates single resource
blockto the MS. This parameter indicates the searching
TBF
establishmen
t and release
POLLING
Polling
Retry Time
PollingRetry
Timepolling
.
no
any reponse is received from the MS. The system
can
Data
transmission
related
Gprs
TBFRRB
P
n erva
number of
GPRS TBF
downlinks
GPRSDlRR
BPINTERV
AL
Gprs TBF
Interval that downlink Gprs TBF requires MS to
send
Packet Downlink Ack/Nack.
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Data
transmission
related
Egprs
TBFRRB
P
n erva
number of
EGPRS
TBF
EGPRSDlRr
bpInterValEgprs TBF
Interval that downlink EGPRS TBF requires MS to
send EGPRS Packet Donwlink Ack/Nack.
Data
transmission
related
Gprs
TBF
number of
GPRS TBF
uplinks
GPRSUlAck
InterValGprs TBF
Interval that uplink Gprs TBF network sends
Packet
Downlink Ack/Nack to MS.
Data
transmission
related
EgprsTBF
number of
EGPRS
TBF
EGPRSUlAc
kInterValEgprs TBF
Interval that uplink Egprs TBF network sends
Packet
Downlink Ack/Nack to MS.
Data
transmission
related
L
A+IR
uppor
uplink
LA+IR
quality
IrSupportUp
n ca es e ce suppor s up n qua y
control".
If it does, the network could set the RESEGMENT
in PACKET UPLINK ACK/NACK, PACKET
Data
transmission
related
Take
"Preemptivet
rans bit"
function
PREEMPTI
VETRANS
bit".
If the cell supports that function, network indicates
MS if to send the RLC data of PENDING-ACK
Resource
Allocation
related
PS
CS
Support PS
Prmp CS
PSPrmpCSS
upportP
with
preferred PDCH is occupied, to determine if the
channel
Resource
Allocation
related
uppor o
subscriber
occupying
other
HybridOccu
Supp
s parame er escr es suppor su scr er
occupying
other preference channel. It indicates this
kind of preference channel is busy, other channels
Resource
Allocation
related
PS
subscriber
moving out
AllowPsMov
e
This parameter describes if support subscriber
moving
out of other preference channel. It indicates if the
user that occupies other channels shall be removed.
Resource
Allocation
related
ongener c
service
threshold
for PS-
SfPreferBus
yThs
ur ng s app ca on, on e ga ne pre eren a
channel on this side, it is better that existing QoS
quota / total available QoS quota is lower than
allocated
Resource
Allocation
related
-congeneric
service
threshold
OpPreferBus
yThs
,channel on opposite side, it is better that existing
QoS quota / total available QoS quota is lower than
allocated result for this percentage, to calculate
Resource
Allocation
related
CS
Minimal
number of
idle CS
channel
CsChansThs BSC MPDBS
.
minimum threshold of the number of IDLE
channels
under the CS status, when the network converts
Resource
Allocation
related
C/IC/I Sc BSCMEAN_BEP
ransm s s on qua y, an a us s oc a oca on
according to radio transmission quality. Divide
MEAN_BEP into 7 grades, and each grade
corresponds to a weight. The weight is
Resource
Allocationrelated
ARP ARP Sa ARPpriority
by ARP parameters (priority level).
Allocation weight that corresponds toARP is as follows:
Resource
Allocation
related
THPTHP St
.
Allocation weight that corresponds to
THP is as follows:
THP Allocation weight
Resource
Allocation
related
Support PS
QueuingPsQueueInd PFCiBSC
s suppo e , a oca es ra o resource
according to signature QoS parameters from user
side. When QoS guarantee rate for user signature
is unsatisfied (including through grabbing), and
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Resource
Allocation
related
PS
maximum
Queue
number
PsMaxQueu
eInstNum
This parameter indicates the number of allowed
queues in the cell. When the user number in queue
reaches this value, the service that shall be queued
shall be refused to access.
Resource
Allocation
related
Support PS
Preemption
PsPreemptio
nIndPFCiBSC
,
resource
according to signature QoS parameters from user
side. When signed QoS guarantee rate can't be
Resource
Allocation
related
CS
CS
subscriber
moving
AllowCsMo
ve
This parameter describes if support switching someCS subscriber cell to other timeslot, to leave blank
for original timeslot for getting larger PS available
timeslot group.
Resource
Allocation
related
GPRS
Selective
granularity
USFGranula
rityPacket UPlink ASSIG
s ass gne o e n
ASSIGNMENT
message, indicating the uplink block allocation
granularity of the GPRS MS from the network
PS Cell
reselection
related
PSI
PSI status
supportedPsiStatInd BRP
the BRP. It is broadcast to the MS in the PSI1
message, indicating if the network supports the
PACKET PSI STATUS message.
PS Cell
reselection
related
CCN
Is Support
CCN modeCCNActive
mode. CNN mode refers to cell alternating
notification.
When BSS supports CCN mode, if MS does
PS Cell
reselection
related
s ce
support
system
message
SIStatusInd
s parame er n ca es e ce suppor s sys em
message status flow, broadcasted to MS in SI13
and
PSI13. It describes if the network supports PSI (SI)
PS Cell
reselection
related
Packet Idle
modeNcRepPerI
.
the parameter information to MS through
SI2Quater
and PSI5 messages. This parameter indicates the
PS Cell
reselection
related
The Size of
Test
Report's
Slip Window
Wnd NC2
en ne wor con ro s e ce rese ec on,
this
parameter is used. When the number of
measurement
PS Cell
reselection
related
report
number of
the same
AllowedRep
NumNC2
,this
parameter is used. When adjacent cell receives
average
PS Cell
reselection
related
Packet idle
mode
NCREPPER
I
SI2Quater
and PSI5 messages. This parameter indicates the
period of MS reporting cell reselection survey in
PS Cell
reselection
related
Packet
transmission
mode
NCRERPER
T
arame er use a e s e. e ongs o
measurement parameter, which is broadcasted
to MS in system message SI2Quater and PSI5
message. This parameter indicates the period
PS Cell
reselectionrelated
Extended
measurementreport order
MeaOrder
Parameter used at the MS side. It is broadcast
to the MS in the PSI1 message, indicating the
survey report command of MS in the cell.
This parameter indicates if PSI5 is sent.
PS Cell
reselection
related
Network
control orderCtrlOrder
.
the network control survey parameters, and it is
broadcast to the MS in the PSI5, PSI13, SI3, and
SI2quater messages, indicating the network control
PS Cell
reselection
related
NCDRX
NC hold
time in non-
drx mode
NcNoDrxPer
arame er use a e s e. s parame er
belongs to network control survey and is used at
MS
side. System broadcasts the parameter information
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PS Cell
reselection
related
Extended
measurement
report order
ExMeaOrder
arame er use a e s e. ys em roa cas s
to MS through PSI5 message. This parameter
indicates if the MS performs extended survey.
In addition, it indicates how to interpret the
PS Cell
reselection
related
Type of
extended
measurement
report
ExtRepType
.
extended survey parameters, and it is broadcast to
the MS in the PSI5 message, indicating the type of
the extended survey report of MS. System sends the
PS Cell
reselection
related
Reportperiod of
extended
measurement
ExtRepPer
.
extended
survey parameters and it is broadcast to the
MS in the PSI5 message, indicating the interval of
Others GPRS
GPRS
service
supported
PSSUPPOR
TGPRS
n ca es s ce suppor s
service.
If selecting "GPRS supported", "EDGE supported"
or
" - " -
OthersSI13
SI13
Sending
Position
SI3LOCATE
.
position
indicates the scheduling position of SI13 on
BCCH.
OthersSplitPgCycle
CCCH
SplitPgCycle
support
SpgcSuport FUC
.
System broadcasts to MS through PSI3 and SI13
messages. CCCH SplitPgCycle support indicates if
to support the SplitPgCycle function on CCCH.
Others
Packet
control
acknowledg
ment type
CtraCKType BRPRLC/MAC
s parame er s use on ayer o
and
at MS side. System broadcasts to MS through PSI1,
PSI13, and SI13 messages. Packet control
Others
Packet
access
priority
threshold
PriAcThr PS
.
the
MS in the PSI13 and SI13 messages, indicating the
priority level of MS packet access allowed by the
PS power
control
Filter period
in the
packet idle
mode
T_AVG_W
arame er use a e s e. e ongs o e
global power control and GPRS power control
parameters,
and it is broadcast to the MS in the PSI1, PSI13
PS power
control
Filter period
in packet
transmission
mode
T_AVG_T
.global power control and GPRS power control
parameters,
and it is broadcast to the MS in the PSI1, PSI13
PS power
control
PSI4
PSI4
sending
mark
Psi4Send
is used at MS side. It belongs to the global power
control parameters, and it is broadcast to the MS in
the PSI1 message. This parameter indicates if the
PS power
control
Power
control
measurement
channel
PcMeasChan
arame er use a e s e. e ongs o e
global power control and GPRS power control
parameters,
and it is broadcast to the MS in the PSI1, PSI13
PS power
control
Power
controlparameter
Alpha
.
global power control and GPRS power control
parameters,and it is broadcast to the MS in the PSI1, PSI13
PS power
control
Filter
constant of
power
control
N_AVG_I
.
global power control and GPRS power control
parameters,
and it is broadcast to the MS in the PSI1, PSI13
PS power
control
MS
ece ve
Power
Strength
from MS
SS_BTS
s parame er s use or e up n open oop
power control. MS uses GCH parameter for
calculating uplink transmission power, based
on the following formula:
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PS power
control
Uplink
power
control
strategy
ULPWCTR
LGPRS
s parame er e erm nes up n power
control
strategy, including the following four modes:
uncontrolled, open-loop control, close-loop control,
PS power
control
Downlink
Power
Control
strategy
DLPWCTR
LGPRS
control strategy, including the following four
modes:
uncontrolled, open-loop control, close-loop control,
PS power
control
DownlinkPower
Control
Mode
PwCtrlMode BTS
power
control mode. BTS has two power control modes:
A
PS power
control
Power
Control
Level
PwCtrlLev GPRS
s parame er e erm nes power con ro
precision,
which describes nominal output power and
power control precision (dB) sent by MS under
PS power
control
APD
CHBC
CH
descending
of PDCH to
BCCH in A
P0
control
parameter contained in assignment message. If
P0 exists, power control is used. Otherwise, it is
PBCCH
related
attached
reselection
parameterindication
AddResPI2 GSM
on the C1 and C2 parameters, according to the
definition in the GSM specification. Network
carriers
PBCCH
related
Packet
System
Information
Send Speed
SendSpeed BRP
s parame er s use or g o a process on .
Packet System Information Send Speed indicates
if various types of PSI messages are sent at high
rate. There is limited packet system messages
PBCCH
related
Link error
counterRLTimeout BTSBSC
.
parameter
to BTS through O&M message, explaining
measurement counter while BTS can't correctly
PBCCH
related
PRACH
PRACH
OverLoad
Report
Period
OvLoadPer BTSFUC
arame ers use y a s e. e n erva
of
PRACH overload period reported by BTS and
informed
PBCCH
related
PRACH
Receiving
signal level
threshold
PrachBusyT BTSPRACH
.overload is one of the reasons for overload
control. The busy ratio of random access burst
decides the PRACH overload.
PBCCH
related
PRACH
burst
s
measuring
bursts
number on
MeaAvgSlot BTSPRA
.
number
on PRACH. PRACH channel overloads if
receiving
PBCCH
related
Buffer
threshold of
paging
message
PccchIndTh
_0PPCH
ag ng message u er s over oa e res o or
packet paging channel PPCH. The judgment
scheme
is as follows: i. Calculate the paging message
PBCCH
related
64
length
threshold in64
PccchIndTh
_1 BTSFUC
.
indicates overload threshold in PCCCH (PRACH,
PPCH) threshold. This parameter is an arraywith 3 elements, in the unit of %.
PBCCH
related
PRACH
PRACH
overload
threshold
ratio
PccchIndTh
_2PRACH
busy
blocks on a PRACH, multiplied by 100, then
compared
PBCCH
related
Extended
paging
supported
EpageMode
s parame er n ca es o suppor ex en e
paging.
Extended paging means that MS still can receive
and analyze the message within 3 intervals after the
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PBCCH
related
PPCH
Calculating
period of
load on
PPCH
LoadPer BTSFUC
This paramter is used by FUC at BTS side,
describing
period to calculate PPCH channel load.
PBCCH
related
PSI1
PSI1 send
period
PSI1REPPE
RFUC
This paramter is used by FUC at BTS side,
describing
period to calculate PPCH channel load.
PBCCH
related
Access
burst typeAccessType
.
GPRS cell option parameters, and it is broadcast
to the MS in the PSI1, PSI13 and SI13 messages,
indicating if to use the 8-bit or 11-bit access burst
PBCCH
related1
Reselection
offset 0ReselOff_0 Parameter used at the MS side. It is broadcastedto
PBCCH
related2
Reselection
Offset 1ReselOff_1
.
PACCH. In the GPRS system, C32 is used as
the standard for cell reselection. Similar to the
C2 standard in GSM, there is a cell reselection
PBCCH
related
1
Reselection
temporary
offset 1
TempOffset
_0 Parameter used at the MS side. It is broadcastedto
PBCCH
related
2
Reselection
temporary
offset 2
TempOffset
_1
arame er use a e s e. n orm
on PACCH. In the GPRS system, C32 is used
as the standard for cell reselection. Similar to
the C2 standard in GSM, there is a temporary
PBCCH
related
1
Penalty time
of cell
reselection 1
PenalTime_0 Parameter used at the MS side. It is broadcastedto
PBCCH
related
2
Penalty time
of cell
reselection 2
PenalTime_1
arame er use a e s e. n orm on
PACCH. In the GPRS system, C32 is used as the
standard for cell reselection. There is a temporary
offset in C32 that provides a negative offset,
PBCCH
related
1
Interval of
reselecting
the same
cell 1
T_RESEL_0 Parameter used at the MS side. It is broadcasted to
PBCCH
related
2
Interval of
reselecting
the same
cell 2
T_RESEL_1
.
PACCH. When MS performs a cell reselection that
causes abnormal release of this cell, it is not
allowed
PBCCH
related
HCS
1
Threshold
of HSC
signal level 1
HCS_THR_
0 Parameter used at the MS side. It belongs toHCS pa
PBCCH
related
HCS
2
Threshold
of HSCsignal level 2
HCS_THR_
1
.
to HCS parameter, which is informed to
MS on PACCH. It indicates the HCS signalstrength threshold of the cell.
PBCCH
related
HCS
1
HCS
Priority 1PrioClass_0 Parameter used at the MS side. It belongsto HCS pa
PBCCH
related
HCS
2
HCS
Priority 2PrioClass_1
arame er use a e s e. e ongs o
parameter, which is informed to MS on PACCH.
It specifies the HCS priority of the cell.
This parameter indicates the parameter used
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PBCCH
related
1
C31
hysteresis 1
C31_HYST
_0 Parameter used at the MS side. It is broadcasted to
PBCCH
related
2
C31
hysteresis 2
C31_HYST
_1
.
MS on PACCH and specifies if to use the
parameter
CellReselHys on the C31 standard.
PBCCH
related
GPRS
1
GPRS cell
reselection
hysteresis 1
ReselHys_0 Parameter used at the MS side. It is broadcastedto
PBCCH
related
GPRS
2
GPRS cell
reselection
hysteresis 2
ReselHys_1
arame er use a e s e. n orm on
PACCH.
MS needs to go through location updating process
after cell reselection in the case of GPRS cell
PBCCH
related
1
Routing
reselection
hysteresis 1
RaReselHys
_0 Parameter used at the MS side. It is broadcastedto
PBCCH
related
2
Routing
reselection
hysteresis 2
RaReselHys
_1
.
MS
on PACCH. This parameter specifies extra
hysteresis
PBCCH
related
1
Random
access
attempt
permitted 1
RadAcRetry
_0 Parameter used at the MS side. It is broadcastedto
PBCCH
related
2
Random
access
attempt
permitted 2
RadAcRetry
_1
.
MS on PACCH, which indicates if MS is allowed
to
attempt to access another cell (if it exists).
PBCCH
related
1
Usage of
cell
reselection
offset 1
C32_QUAL
_0 Parameter used at the MS side. It is broadcasted to
PBCCH
related
2
Usage of
cell
reselection
offset 2
C32_QUAL
_1
.to the MS on PACCH, and it specifies if to use
the exceptional rule for ReselOff.
This parameter indicates the parameter used
PBCCH
related
GPRS
1
GPRS
access
minimum
signal level 1
RxLevAsMi
n_0 Parameter used at the MS side. It is broadcastedto
PBCCH
related
GPRS
2
GPRS
access
minimum
signal level 2
RxLevAsMi
n_1
arame er use a e s e. n orm on
PACCH.
It indicates the minimum receiving level for the
MS to access the GPRS system. To prevent the
PBCCH
related Priority
threshold PRIO_THR SI4SI6SI7
MS
through SI4, SI6 and SI7 messages. This parameterrelates to GPRS access minimal signal level in
PBCCH
related
HCS
1HCS exist 1
HCS_EXIST
_0 Parameter used at the MS side. This parameterbelon
PBCCH
related
HCS
2HCS exist 2
HCS_EXIST
_1
arame er use a e s e. s parame er
belongs to Hierarchical Cell Structure (HCS) and
be
informed to MS on PACCH. This parameter
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PBCCH
related
GPRS
1
GPRS
MAX initial
access
signal level 1
MsTxMaxC
ch_0 Parameter used at the MS side. It is broadcastedto
PBCCH
related
GPRS
2
GPRS
MAX initial
access
signal level 2
MsTxMaxC
ch_1
.
PACCH.
The transmission power of MS is controlled by
the network during its communications with BTS.
PBCCH
relatedLSA LSA Mark LSA_Id SI4SI6SI7
, ,
SI7, and PSI3 messages of serving cell. In addition,
system broadcasts the parameter information in
PSI3
PBCCH
relatedLSA LSA Offset LSA_Offset SI4SI6SI7
ys em roa cas s e parame er n orma on o
MS
through SI4, SI6 and SI7 messages. This parameter
defines the offset value for LSA reselection
PBCCH
related
PAGCH
PAGCH
reserved
blocks
PagBlkRes
.
the PCCCH organization parameters, and it is
broadcast to the MS in the PSI1 message.
This parameter indicates the number of blocks
PBCCH
related
PBCCH
PBCCH
reserved
blocks
PbcchBlks
.
PCCCH structure parameters, and it is broadcast
to the MS in the PSI1 message. This parameter
indicates the number of blocks assigned as PBCCH
-
PBCCH
related
PRACH
PRACH
reserved
blocks
PrachBlks
arame er use a e s e. e ongs
to the PCCCH organization parameters, and it
is broadcast to the MS in the PSI1 message.
This parameter indicates the number of fixed
PBCCH
related
range of
packet
access
TxInt
.
PRACH control parameters, and it is broadcast to
the MS in the PSI1 message. In establishment of a
connection, MS usually will send the channel
PBCCH
related
n erva
period of
packet
access
S
arame er use a e s e.
It belongs to the PRACH control parameters, and
it is broadcast to the MS in the PSI1 message.
In establishment of a connection, MS usually
PBCCH
related
MAX Times
of AttemptMaxRetrans
.PRACH control parameters, and it is broadcast
to the MS in the PSI1 message. indicating the
maximum attempts of random access allowed on
PBCCH
related
Access
Persist LevelPersistLev
.
PRACH control parameters, and it is broadcast
to the MS in the PSI1 message. The network
sets a level threshold P I (I = 1, 2, 3, 4) for
Not valid
SoLSA
Allow
SOLSA MS
to access
EXC_ACC SI4SI6SI7
ys em roa cas s s parame er o n ,
SI6,
and SI7 messages. In addition, the parameter
information
Not valid
8PSK
modulating
powerattenuation
Tn7LowerLe
vel 8PSKIt indicates 8PSK modulating power attenuation lev
7/31/2019 Explanations of e Radio Parameters
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7/31/2019 Explanations of e Radio Parameters
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7/31/2019 Explanations of e Radio Parameters
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7/31/2019 Explanations of e Radio Parameters
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1 ~ 16 8 8 8 8 8 8
Yes/No No
preemption: choose
Yes;
Need not to
support PS
preemption:
choose Yes;
support PS
preemption:
choose Yes;
support PS
preemption:
choose Yes;
support PS
preemption:
choose Yes;
Yes/No No No No No No No
0 ~ 1
(0: uplink block allocation
granularity is 1; 1: uplink block
allocation granularity is 4)
0 0 0 0 0 0
Yes/No No No No No No No
Yes/No No
NACC: choose
Yes;
Need not to enable
enable
NACC:
choose Yes;
enable
NACC:
choose Yes;
enable
NACC:
choose Yes;
enable
NACC:
choose Yes;
Yes/No No
ee o ena e
NACC: choose
Yes;
Need not to enable
ee o
enable
NACC:
choose Yes;
ee o
enable
NACC:
choose Yes;
ee o
enable
NACC:
choose Yes;
ee o
enable
NACC:
choose Yes;
0.480.961.923.847.68
15.3630.7261.44s61.44 61.44 61.44 61.44 61.44 61.44
1 ~ 8 4 4 4 4 4 4
1 ~ 6 3 3 3 3 3 3
0.48, 0.96, 1.92, 3.84, 7.68,
15.36, 30.72, 61.44,s61.44 61.44 61.44 61.44 61.44 61.44
0.48, 0.96, 1.92, 3.84, 7.68,
15.36, 30.72, 61.44,s3.84 3.84 3.84 3.84 3.84 3.84
Yes/No No No No No No No
NC0, NC1, NC2 NC0 NC0 NC0 NC0 NC0 NC0
No non-DRX mode, 0.24, 0.48,
0.72, 0.96, 1.20, 1.44, 1.92,s0.48 0.48 0.48 0.48 0.48 0.48
7/31/2019 Explanations of e Radio Parameters
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EM0, EM1 EM0 EM0 EM0 EM0 EM0 EM0
Type1, Type2, Type3 Type1 Type1 Type1 Type1 Type1 Type1
60, 120, 240, 480, 960, 1920,
3840, 7680, s1920 1920 1920 1920 1920 1920
Don't support GPRS, Support
GPRS, Support EDGE
Dont
support
GPRS
ee no o
support PS: choose
"Don't support
GPRS";
ee no o
support PS:
choose
"Don't
ee no o
support PS:
choose
"Don't
ee no o
support PS:
choose
"Don't
ee no o
support PS:
choose
"Don't
BCCH Norm, BCCH Ext BCCH Norm BCCH Norm BCCH Norm BCCH Norm BCCH Norm BCCH Norm
Yes/No No Yes Yes Yes Yes Yes
4 access bursts, RLC/MAC
control block
RLC/MAC
control block
RLC/MAC control
block
RLC/MAC
control block
RLC/MAC
control block
RLC/MAC
control block
RLC/MAC
control block
No package access, Allow
priority 1, Allow priority 1-2,
Allow priority 1-3, Allow
priority 1-4, Allow priority
Allow
priorityAllow priority
Allow
priority
Allow
priority
Allow
priority
Allow
priority
~
(0: The filter period is 2(0/2)/6
multiframes; 1: The filter period
is 2(1/2)/6 multiframes;
0 0 0 0 0 0
~(0: The filter period is 2(0/2)/6
multiframes; 1: The filter period
is 2(1/2)/6 multiframes;
0 0 0 0 0 0
Yes/No No No No No No No
BCCH, PDCH BCCH BCCH BCCH BCCH BCCH BCCH
~
(Assuming th