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Class Generic N/AmeCELL_BAR_QUALIFY
CELL_BAR_ACCESS
call reestablishment allowed
Emergency Call Restriction (EC)
CCCH_CONF
MS_TXPWR_MAX_CCH
IMSI Attach Detach (ATT)
T3212 (Periodic Location Update)
CCCH Overload Threshold
CCCH Load Measurement Period
CCCH Load Indication Period
cell-Reselect-Hysteresis
CELL_RESELECT_PARAM_IND
AdditioN/Al Reselect Parameter Indication
CELL_RESELECT_OFFSET
TEMPORARY_OFFSET
PEN/ALTY_TIME
RXLEV_ACCESS_MIN
NCC_PERMITTED
Frequency Hopping Systems
Hopping Type
HSN
Mobile Allocation List
TSC
CellAcc
essControl
CellSelection/Reselec
Hopping
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MAIO
(AntenN/A Hopping)
(AntenN/A Hopping)
(AntenN/A Hopping)
(AntenN/A Hopping)
(AntenN/A Hopping)
BS_AG_BLKS_RES
BS_PA_MFRMS
MAX_RETRAN
TX_INTEGER
RACH filter based on TA
Wait Indication
Min Access Level for RACH
RACH Filter to elimiN/Ate phantomsEN_MS_PC
EN_BS_PC
L_RXLEV_DL_PC
U_RXLEV_DL_PC
L_RXLEV_UL_PC
U_RXLEV_UL_PC
L_RXQUAL_DL_PC
U_RXQUAL_DL_PCL_RXQUAL_UL_P
U_RXQUAL_UL_PC
Frequency/
Pagin
RACHAcce
ss
Po
werControl
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X_RXQUAL_XX_P_HOP
X_RXQUAL_XX_P_HR
X_RXQUAL_XX_P_AMR
POW_INC_STEP_SIZE_DL
POW_INC_STEP_SIZE_UL
POW_RED_STEP_SIZE_DL
POW_RED_STEP_SIZE_UL
POWER_INCREASE_MAX
POWER_REDUCE_MAX
A_LEV_PC
A_QUAL_PC
BS_TXPWR_RED
PowerControl
PowerControl
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BS_TXPWR_MIN
MA_TXPWR_MAX
MA_TXPWR_MIN
BS_P_CON_ACK
BS_P_CON_INT
MS_P_CON_ACK
MS_P_CON_INT
INHIBIT_SD_PC
BS_TXPWR_RED_INNER
MS_TXPWR_MAX_INNER
EN_RADIOLINK_RECOVERY_PROC
RADIO_LINK_TIMEOUT(BS)
THRES_PC_RLF
RADIO_LINK_TIMEOUT(MS)
RADIO_LINK_TIMEOUT_AMR(MS)
ntrol
PowerCon
trol
PowerContro
l
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RADIO_LINK_TIMEOUT_AMR(BS)
PWRC
EN/ABLE_DL_DTX_FR
EN/ABLE_DL_DTX_AMR_FR
EN/ABLE_DL_DTX_AMR_HR
EN/ABLE_DL_DTX_HR
EN/ABLE_UL_DTX
EN/ABLE_UL_DTX_AMR
EN_INTER_HO
EN_IRAT_HO
PING_PONG_MARGIN
PING_PONG_TIMER
HO_PWR_LEVEL
(Vendor Specific)
(Vendor Specific)
EN_INTRA_HO
EN_PBGT_HO
A_PBGT_HO
Weight for nonDTX PBGT HO
A_LEV_HO
Weight for nonDTX LEV HO
A_PBGT_NEI
HOM
PowerCo
ers
Hand
overs
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PBGT_HO_LEV_LIMIT
EN_RXQUAL_HO
EN_RXQUAL_HO
A_QUAL_HO
Weight for nonDTX QUAL HO
L_RXQUAL_UL_H
L_RXQUAL_DL_H
HOM_QUAL
(Vendor Specific)
EN_INTF_HO
A_INTF_HO
RXLEV_UL_IH
RXLEV_DL_IH
EN_RXLEV_HO
EN_RXLEV_HO
L_RXLEV_UL_H
Han
dovers
Handov
ers
Hando
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L_RXLEV_DL_H
HOM_LEV
Handover to worse level neighbor
eN/Able MS Distance Process
MS_RANGE_MAX
A_DIST_HO
MS_RANGE_MIN
EN_DIRECTED_RETRY
EN_DIRECTED_RETRY
EN_DIRECTED_RETRY
EN_DIRECTED_RETRY
EN/Able congestion handover
Congestion handover threshold
(Vendor Specific)
HOM_Congestion
(Vendor Specific)
(Vendor Specific)
(Vendor Specific)
(Vendor Specific)
(Vendor Specific)
Handovers
Hand
overs
Multiba
nd&
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Multiband&Multilayer
Multib
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AMR/HR
AMR/HR
AM
R/HR
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AMR/HR
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DescriptionPriority of cell for cell selection
Allows or disallows MS to camp on cell in idle mode
attribute indicates whether call re-establishment is allowed in the cell.
The attribute determines whether emergency calls are allowed to all MSs or
restricted to MSs belonging to access classes in the range 11 to 15.
indicates the organization of the common control channels
MS shall use the power level defined by the MS_TXPWR_MAX_CCH parameter
broadcast on the BCCH
This flag indicates to the MS whether IMSI Attach/detach procedure (when the
MS is turned on/off respectively) is allowed in the cell.This timer indicates to the MS the delay between two consecutive Periodic
Location Update procedures.
Threshold, above which if the CCCH are busy/occupied, deem the cell to have a
CCCH overload condition
Time period after which the CCCH load is calculated
After a CCCH overload condition is trigerred, until the load goes below
threshold, the BTS will keep sending overload message to BSC after this
amount of time
in the case of the new cell being in a different location area in which case the
C2 value for the new cell shall exceed the C2 value of the serving cell by at leastCELL_RESELECT_HYSTERESIS dB as defined by the BCCH data from the current
serving cell, for a period of 5 seconds
indicates if C2 cell reselection parameters are present or not
N/A
Applies an offset to the C2 reselection criterion
Applies a negative offset to C2 for the duration of PEN/ALTY_TIME.
Gives the duration for which the temporary offset is applied
is used to indicate the minimum receive level at the MS required for access to
the system. This parameter is used in order to evaluate the path loss criterion
parameter (C1) of a cellThe purpose of the NCC Permitted information element is to provide a
definition of the allowed NCCs on the BCCH carriers to be reported in the
MEASUREMENT REPORT message by the MSs in the cell.
System that defines radio hopping channels configuration
Type of hopping (BBH, SFH)
Hopping Sequence Number
List containing ARFCNs on which the configured channel can hop
Training Sequence Code (for channel equilization & error detection)
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Mobile Allocation Index Offset (Determines from where in the frequency
hopping lict shall the channel start hopping)
(Vendor Specific)
(Vendor Specific)
(Vendor Specific)
(Vendor Specific)
(Vendor Specific)specifies the number of TDMA frames reserved for the Access Grant channel
during a period of 51 TDMA frames (a multiframe).
denotes the number of multiframes (51 frames) between two transmissions of
the same paging message to mobiles of the same paging group
is the maximum number of retransmissions a MS may perform on the RACH
is used to represent the maximum number of RACH slots a MS must wait, after
an unsuccessful random access attempt, before a new random access. The MS
draws a random number between 0 and the value of this parameter, in orderto decide when to start the new access. Hence this parameter allows the
access retransmissions be spread over a fixed number of RACH slots.
Threshold above which TA value RACHs are not serviced by the BSS
provide the time the MS shall wait before
attempting another channel request.
Threshold uplink level below which RACHs are not serviced by the BSS
Any algorithm to filter actual RACHs from weak/ghost/phantom RACHEN/Abling MS (UL) power control
EN/Abling BS (DL) power control
Lower RXLEV threshold for DL PC
Upper RXLEV threshold for DL PC
Lower RXLEV threshold for UL PC
Upper RXLEV threshold for UL PC
Lower RXQUAL threshold for DL PC
Upper RXQUAL threshold for DL PCLower RXQUAL threshold for UL PC
Upper RXQUAL threshold for UL PC
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Offset to be used in PC RXQUAL threshold for Hooping/HR/AMR channels
AlterN/Ate channel quality calculation procedure
Step size for power increase
Step size for power decrease
Maximum Power increase in one power command
Maximum Power reducton in one power command
Averaging window size (number of MRs) for level averaging on MRs for power
control
Averaging window size (number of MRs) for quality averaging on MRs for
power control
Weight applicable to level samples for power control when no DTX is applied
Weight applicable to quality samples for power control when no DTX is applied
Defines the power reduction relative to the maximum GMSK output power of
the BTS
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BTS minimum aloowed transmit power (relative to the GMSK output power of
the BTS)
MS maximum allowed transmit power
MS minimum allowed transmit power
Supervision of the BS Power Control procedure. Time interval waited after
sending power command to receive an acknowledgment (of power command
implementation)
Minimum delay between two consecutive BS power commands
Supervision of the MS Power Control procedure. Time interval waited after
sending power command to receive an acknowledgment (of power command
implementation)
Minimum delay between two consecutive MS power commands
Time during which power control on SDCCH is inhibited after completion of the
Immediate Assignment procedure.
This parameter defines the power reduction relative to the maximum GMSK
output power of the TRX of the inner zone in a concentric cell
MS minimum allowed transmit power in the inner zone of a concentric cell
(Vendor Specific)
eN/Ables/disables the Radio Link Recovery procedure i.e. MS and BS are
ordered to be on full power
Counter threshold to detect a radio link failure on the uplink path (running in
BTS)
Counter threshold to trigger a radio link recovery. When the radiolink timercounts down and reaches to this value, MS and BS are ordered to be on full
power
Initial value of MS counter for radio link supervision. Counter threshold to
detect a radio link failure on the downlink path (running in MS)
Initial value of MS counter for radio link supervision for AMR calls. Counter
threshold to detect a radio link failure on the downlink path (running in MS)
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Counter threshold to detect a radio link failure on the uplink path for AMR calls
(running in BTS)
This flag indicates to the MS if it should include measurements made on BCCH
frequency in case of frequency hopping channel.
EN/Ables or disables downlink DTX for FR and EFR calls
EN/Ables or disables downlink DTX for AMR FR calls
EN/Ables or disables downlink DTX for AMR HR calls
EN/Ables or disables downlink DTX for HR calls
EN/Ables or disables uplink DTX for non-AMR calls
EN/Ables or disables uplink DTX for AMR calls
EN/Ables or disables intercell handovers
EN/Ables or disables 2G-3G handovers
Hysterisis applied to prevent ping pong handovers (back & fro handovers
between same 2 cells)
Timer for which the ping pong hysterisis is applied
Power transmit level at time of handover
(Vendor Specific)
Count of allowable intracell handovers
Timer for intracell handover repitition detection
(Vendor Specific)
EN/Ables or disables intracell handovers
EN/Ables or disables power budget handovers
Averaging window of MRs for PBGT Hos
(Vendor Specific)
Averaging window of MRs for RXLEV measurements
(Vendor Specific)
Averaging window of MRs for nei PBGT measurments
Handover margin to compare PBGT of source and candidate neighbour cell
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(Vendor Specific)
EN/Ables or disables quality handovers
EN/Ables or disables quality handovers
Averaging window of MRs for RXQUAL measurments
(Vendor Specific)
Threshold for UL quality to trigger quality handover
Threshold for DL quality to trigger quality handover
Threshold (offset added to threshold) to trigger quality handover on a
hopping/AMR/HR channel
Handover margin to compare PBGT of source and candidate neighbour cell for
quality handovers
(Vendor Specific)
EN/Ables or disables interference handovers
Averaging window of MRs for RXLEV measurments to decide intf HO
Threshold for UL level to trigger intereference handover on bad quality
Threshold for DL level to trigger intereference handover on bad quality
EN/Ables or disables rx level handovers
EN/Ables or disables rx level handovers
Threshold for UL level to trigger level handover
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Threshold for DL level to trigger level handover
Handover margin to compare PBGT of source and candidate neighbour cell for
level handovers
(Vendor Specific)
EN/Ables or disables distance handovers
Threshold for TA to trigger distance handover for MS too far
Averaging window of MRs for TA measurments for distance HO
Threshold for TA to trigger distance handover for MS too near
EN/Ables or disable DR in BSC
EN/Ables or disable DR in Cell
Makes a neighbour available or uN/Available as a candidate to take DR Hos
Allows or disallows handovers to trigger during SD to TCH assignment phase
EN/Ables or Disables congestion relief procedure
Threshold above which if the cell's resources are used will trigger congestion
relief procedure on next resource request
(Vendor Specific)
Threshold to make a neighbour cell available/uN/Available for congestion
handovers
(Vendor Specific)
(Vendor Specific)
(Vendor Specific)
(Vendor Specific)
(Vendor Specific)
Enables algorithms for inter zone handovers
RXLev DL threshold for inter zone handover
RXLev UL threshold for inter zone handover
Hysteresis applied to inter zone handovers to prevent ping pong between
zonesOffset margin used to cater for RxLev differences when comparing levels from
teo different bands
Enables algorithms for handover to the preferred band
Set the preferred band of the system (network)
Maximum power output by BTS tranceivers in the inner zone
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Maximum power output by MS in the inner zone
Power level for handover in the inner zone
Minimum RxLev DL from neighbour cell (lower layer or preferred band)for
umbrella to lower layer handover or from classical band to preferred band
handover.
This parameter determines the condition on traffic load in the serving cell to
trigger a multiband handover.
This flag enables/disables the speed discrimination process (which determines
if the MS is slow or fast)
Maximum connection time after a handover in an overlaid cell to declare the
MS "fast" when leaving the cell with a handover.
Maximum allowed value for MIN_DWELL_TIME (used to deem an MS slow or
fast) variable
Minimum allowed value for MIN_DWELL_TIME (used to deem an MS slow or
fast) variable
Step value for the modification (increasing or decreasing) ofMIN_DWELL_TIME
High threshold on busy TCH timeslots percentage to increase
MIN_DWELL_TIME variable.
Low threshold on busy TCH timeslots percentage to increase
MIN_DWELL_TIME variable.
This flag enables/disables the detection of "consecutive bad SACCH frames"
handover cause (cause 7).
Number of consecutive bad SACCH frames to trigger a rescue
handover (cause 7)
This flag enables/disables the detection of "level uplink mirco-cell " handovercause (cause 17).
This flag enables/disables the detection of "level downlink mirco-cell "
handover cause (cause 18)
Uplink level threshold for Microcell to Macrocell handover.
Downlink level threshold for Microcell to Macrocell handover.
Minimum received level from umbrella cell n to allow handover cause "level
uplink micro-cell" or "level downlink micro-cell".
Specifies the allowed handover frequencies for a cell
This flag enables/disables the detection of "high level in neighbour lower or
indoor cell" handover cause (cause 14).This flag determines if emergency handovers are directed preferentially to
umbrella cells.
This flag enables/disables the detection of "general capture" handover cause
(cause 24) (handover from higher layer captured to lower layer).
This parameter determines the condition on traffic load in the serving cell to
trigger a "general capture" handover.
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Changes the power budget algorithm type to be used for this nei relation
(Vendor Specific)
(Vendor Specific)
(Vendor Specific)
(Vendor Specific)
(Vendor Specific)
(Vendor Specific)
(Vendor Specific)
(Vendor Specific)
(Vendor Specific)
Specifies the percentage level of outer cell traffic
channel (TCH) usage.
If this parameter is set to any value (other than 0), the inner zone resources are
allocated only when an MS is qualified and at least the specified percentage ofouter zone TCHs is in use.
(Vendor Specific)
(Vendor Specific)
Enable/Disable GSM half-rate on cell-level
Enable/Disable AMR half-rate on BSC-level
Enable/Disable AMR half-rate on cell-level
Enable/Disable AMR full-rate on BSC-level
Enable/Disable AMR full-rate on cell-level
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Hysteresis for AMR FR codec mode adaptation, applied when going from alower (more robust) codec to a higher (less robust) codec, to prevent
oscilations between codecs
Hysteresis for AMR HR codec mode adaptation, applied when going from a
lower (more robust) codec to a higher (less robust) codec, to prevent
oscilations between codecs
Threshold for AMR FR codec mode adaptation between lowest codec mode
and second lowest codec mode.
Threshold for AMR FR codec mode adaptation between second lowest codec
mode and third lowest codec mode.
Threshold for AMR FR codec mode adaptation between third lowest codec
mode and fourth lowest (highest) codec mode.
Threshold for AMR HR codec mode adaptation between lowest codec mode
and second lowest codec mode.
Threshold for AMR HR codec mode adaptation between second lowest codec
mode and third lowest codec mode.
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Threshold for AMR HR codec mode adaptation between third lowest codec
mode and fourth lowest (highest) codec mode.
Lower threshold for all new calls to be given FR channel
Lower threshold for all new AMR calls to be given AMR FR channel
Upper congestion threshold to reconfigure MS on FR to HR channel, through
intracell HO
Upper congestion threshold to give MS an HR channel
List of AMR FR codecs that can be used
List of AMR HR codecs that can be used
Enable codec adaption (link adaption) in DL for FR AMR calls
Enable codec adaption (link adaption) in UL for FR AMR calls
Enable codec adaption (link adaption) in DL for HR AMR calls
Enable codec adaption (link adaption) in UL for HR AMR calls
Enable intracell handovers from AMR FR to AMR HR
Enable intracell handovers from AMR HR to AMR FR
TS reserved for HR reconfiguration
Force all capabale MS to go on HR channel
Threshold for reconfiguring MS on FR and assigning new calls.hand-ins to HR
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Motorolacell_bar_qualify (cell)
cell_bar_access_switch (cell)
reestablish_allowed (Cell)
emergency_class_switch (Cell)
ccch_conf (Cell)
ms_txpwr_max_cch (Cell)
attach_detach (Cell)
rr_t3212 (Cell)
rach_load_threshold (Cell)
rach_load_period ()
ccch_load_period ()
cell_reselect_hysteresis (Cell)
cell_reselect_param_ind (Cell)
N/A (N/A)
cell_reselect_offset (Cell)
temporary_offset (Cell)
peN/Alty_time (Cell)
rxlev_access_min (Cell)
ncc_of_plmn_allowed (Cell)
fhi (Cell/RTF/TS)
hopping_support (Cell)
hopping_systems_hsn (Cell/fhi)
hopping_systems_mobile_alloc (Cell/fhi)
carrier training sequence code (Cell/RTF/TS)
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(is set by the value of the ARFCN defined on
N/A (N/A)
N/A (N/A)
N/A (N/A)
N/A (N/A)
N/A (N/A)bs_ag_blks_res (Cell)
bs_pa_mfrms (Cell)
max_retran (Cell)
tx_integer (Cell)
poor_initial_assignment (Site)
wait_indication_parameters (Cell)
N/A (N/A)
N/A (N/A)ms_power_control_allowed (Cell)
bts_power_control_allowed (Cell)
l_rxlev_dl_p (Cell)
u_rxlev_dl_p (Cell)
l_rxlev_ul_p (Cell)
u_rxlev_ul_p (Cell)
l_rxqual_dl_p (Cell)
u_rxqual_dl_p (Cell)l_rxqual_ul_p (Cell)
u_rxqual_ul_p (Cell)
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l_rxqual_dl_p_hr
l_rxqual_dl_p_hopping
l_rxqual_dl_p_hopping_hr
l_rxqual_dl_p_amr_fr
l_rxqual_dl_p_hopping_amr_fr
l_rxqual_ul_p_hr
l_rxqual_ul_p_hoppingl_rxqual_ul_p_hopping_hr
l_rxqual_ul_p_amr_fr
l_rxqual_ul_p_hopping_amr_fr
u_rxqual_dl_p_hr
u_rxqual_dl_p_hopping
u_rxqual_dl_p_hopping_hr
u_rxqual_dl_p_amr_fr
u_rxqual_dl_p_hopping_amr_fr
u_rxqual_ul_p_hr
u_rxqual_ul_p_hopping
u_rxqual_ul_p_hopping_hru_rxqual_ul_p_amr_fr
u_rxqual_ul_p_hopping_amr_fr
alt_qual_proc (Cell)
pow_inc_step_size_dl
pow_inc_step_size_ul (Cell)
pow_red_step_size_dl
pow_red_step_size_ul (Cell)
N/A (N/A)
N/A (N/A)
rxlev_ul_pc
(hregave, hreqt)
rxlev_dl_pc
(hregave, hreqt)
decision_1_n1/decision_1_p1
decision_1_n2/decision_1_p2 (Cell)
rxqual_ul_pc
(hregave, hreqt)
rxqual_dl_pc
(hregave, hreqt)
decision_1_n3/decision_1_p3decision_1_n4/decision_1_p4 (Cell)
N/A (N/A)
N/A (N/A)
max_tx_bts (Cell)
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N/A (N/A)
max_tx_ms (Cell)
N/A (N/A)
bts_p_con_ack (Cell)
bts_p_con_interval (Cell)
ms_p_con_ack (Cell)
ms_p_con_interval (Cell)
N/A (N/A)
bts_txpwr_max_inner (Cell)
ms_txpwr_max_inner (Cell)
N/A (N/A)
full_pwr_rfloss (Cell)
link_fail (Cell)
link_about_to_fail (Cell)
radio_link_timeout (Cell)
N/A (N/A)
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N/A (N/A)
pwrc (Cell)
dl_dtx_voice_data (Cell)
dnlk_vad_dtx (RXCDR)
N/A (N/A)
N/A (N/A)
N/A (N/A)
dtx_required (Cell)
N/A (N/A)
inter_cell_handover_allowed (Cell)
inter_rat_eN/Abled (Cell)
bounce_protect_margin (Cell)
bounce_protect_qual_tmr
bounce_protect_cong_tmr (Cell)
handover_power_level (Cell)
ho_margin_usage_flag (Cell)
hop_count (Cell)
hop_count_timer (Cell)
missing_rpt (Cell)
intra_cell_handover_allowed (Cell)
pwr_handover_allowed (Cell)
N/A (N/A)
N/A (N/A)
rxlev_dl_ho
(hreqave, hreqt)rxlev_ul_ho
(hreqave, hreqt)
decision_1_n5/decision_1_p5 (Cell)
N/A (N/A)
surround_cell
(hreqave, hreqt) (Cell)
ho_margin_cell (Cell)
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N/A (N/A)
ul_rxqual_handover_allowed (Cell)
dl_rxqual_handover_allowed (Cell)
rxqual_dl_ho(hreqave, hreqt)rxqual_ul_ho(h
N/A (N/A)
l_rxqual_ul_h (Cell)
l_rxqual_dl_h (Cell)
l_rxqual_ul_h_hopping
l_rxqual_ul_h_hr
l_rxqual_ul_hopping_hr
l_rxqual_ul_h_amr_fr
l_rxqual_ul_h_hopping_amr_fr
l_rxqual_dl_h_hopping
l_rxqual_dl_h_hr
l_rxqual_dl_hopping_hrl_rxqual_dl_h_amr_fr
l_rxqual_dl_h_hopping_amr_fr (Cell)
ho_margin_rxqual (Nei)
ho_only_max_pwr (Cell)
interfer_ho_allowed (Cell)
rxlev_dl_ih
(hreqave, hreqt)
rxlev_ul_ih
(hreqave, hreqt)decision_1_n7/decision_1_p7 (Cell)
u_rxlev_ul_ih (Cell)
u_rxlev_dl_ih (Cell)
ul_rxlev_ho_allowed (Cell)
dl_rxlev_ho_allowed (Cell)
l_rxlev_ul_h (Cell)
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l_rxlev_dl_h (Cell)
ho_margin_rxlev (Nei)
worse_neighbor_ho (Cell)
ms_distance_allowed (Cell)
ms_max_range (Cell)
decision_1_n8/decision_1_p8 (Cell)
N/A (N/A)
dr_preference (BSC)
dr_standard_congest (Cell)
dr_allowed (Nei)
dr_ho_during_assign (BSC)
ho_exist_congest (Cell)
tch_congest_prevent_thres (Cell)
mb_tch_congest_thres (Cell)
congest_ho_margin (Nei)
congest_at_source (Cell)
congest_at_target (Cell)
enhanced_relief (Cell)
N/A (N/A)
N/A (N/A)
inner_zone_alg (Cell)
rxlev_dl_zone (Cell)
rxlev_ul_zone (Cell)
zone_ho_hyst (Cell)
dual_band_offset (Cell)
band_preference_mode (Cell)
band_preference (Cell)
bts_txpwr_max_inner (Cell)
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ms_txpwr_max_inner (Cell)
ho_pwr_level_inner (Cell)
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)
interband_ho_allowed (Cell)
N/A (N/A)
N/A (N/A)
N/A (N/A)
N/A (N/A)
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pbgt_alg_type (Nei)
ul_rxlev_serv_l
(uplink receive level threshold of the
serving cell) (Nei)
dl_rxlev_serv_l
(downlink receive level threshold of theserving cell) (Nei)
qualify_time
(qualifying time threshold) (Nei)
rxlev_ncell_h
(neighbor cell receive level threshold) (Nei)
qualify_delay
(qualifying delay time) (Nei)
ho_static_offset
(handover static offset) (Nei)
ho_dynamic_offset(handover dynamic offset) (Nei)
delay_time
(delay time) (Nei)
adj_chan_ho_margin
(adjacent channel interference detection
handover margin) (Nei)
outer_zone_usage_level (Cell)
pbgt_mode (Cell)
direct_inner_zone_threshold (Cell)
gsm_half_rate_enabled (Cell)
amr_bss_half_rate_enabled (BSC)
amr_half_rate_enabled (Cell)
amr_bss_full_rate_enabled (BSC)
amr_full_rate_enabled (Cell)
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amr_fr_uplink_hysteresis3
amr_fr_uplink_hysteresis2
amr_fr_uplink_hysteresis1
amr_fr_downlink_hysteresis3
amr_fr_downlink_hysteresis2
amr_fr_downlink_hysteresis1amr_fr_uplink_hysteresis3_hopping
amr_fr_uplink_hysteresis2_hopping
amr_fr_uplink_hysteresis1_hopping
amr_fr_downlink_hysteresis3_hopping
amr_fr_downlink_hysteresis2_hopping
amr_fr_downlink_hysteresis1_hopping
(Cell)
amr_hr_uplink_hysteresis3
amr_hr_uplink_hysteresis2amr_hr_uplink_hysteresis1
amr_hr_downlink_hysteresis3
amr_hr_downlink_hysteresis2
amr_hr_downlink_hysteresis1
amr_hr_uplink_hysteresis3_hopping
amr_hr_uplink_hysteresis2_hopping
amr_hr_uplink_hysteresis1_hopping
amr_hr_downlink_hysteresis3_hopping
amr_hr_downlink_hysteresis2_hopping
amr_hr_downlink_hysteresis1_hopping(Cell)
amr_fr_downlink_threshold1
amr_fr_downlink_threshold1_hopping
(Cell)
amr_fr_downlink_threshold2
amr_fr_downlink_threshold2_hopping
(Cell)
amr_fr_downlink_threshold3
amr_fr_downlink_threshold3_hopping
(Cell)amr_hr_downlink_threshold1
amr_hr_downlink_threshold1_hopping
(Cell)
amr_hr_downlink_threshold2
amr_hr_downlink_threshold2_hopping
(Cell)
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amr_hr_downlink_threshold3
amr_hr_downlink_threshold3_hopping
(Cell)
N/A (N/A)
N/A (N/A)
new_calls_hr (Cell)
reconfig_fr_to_hr (Cell)
amr_fr_acs (Cell)
amr_hr_acs (Cell)
amr_fr_dl_la_enabled (Cell)
amr_fr_ul_la_enabled (Cell)
amr_hr_dl_la_enabled (Cell)
amr_hr_ul_la_enabled (Cell)
N/A (N/A)
N/A (N/A)
hr_res_ts (Cell)
force_hr_usage (BSC)
inner_hr_usage_thres (Cell)
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AlcatelCELL_BAR_QUALIFY (cell)
CELL_BAR_ACCESS
CALL_RE_ESTABLISHMENT (Cell)
EMERGENCY_CALL (Cell)
CCCH_CONF (Cell)
MS_TXPWR_MAX_CCH (Cell)
IMSI Attach/Detach (Cell)
T3212 (Cell)
THR_CCCH_LOAD (Cell)
CCCH_LOAD_MEAS_PERIOD (Cell)
CCCH_LOAD_IND_PERIOD (Cell)
CELL_RESELECT_HYSTERESIS (Cell)
CELL_RESELECT_PARAM_IND (Cell)
N/A (N/A)
CELL_RESELECT_OFFSET (Cell)
TEMPORARY_OFFSET (Cell)
PEN/ALTY_TIME (Cell)
RXLEV_ACCESS_MIN (Cell)
NCC_permitted (Cell)
FHS (Cell/TRX/TS)
Hopping Type (Cell)
HSN (Cell/FHS)
Frequency List (Cell/FHS)
TSC (Cell)
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MAIO (Cell/TRX/TS)
N/A (N/A)
N/A (N/A)
N/A (N/A)
N/A (N/A)
N/A (N/A)BS_AG_BLKS_RES (Cell)
BS_PA_MFRMS (Cell)
MAX_RETRANS (Cell)
TX_INTEGER (Cell)
RACH_TA_FILTER (Cell)
WI_EC
WI_OC
WI_CR
WI_OP (Cell)
RACH_BUSY_THRES (Cell)
N/A (N/A)EN_MS_PC (Cell)
EN_BS_PC (Cell)
L_RXLEV_DL_P (Cell)
U_RXLEV_DL_P (Cell)
L_RXLEV_UL_P (Cell)
U_RXLEV_UL_P (Cell)
L_RXQUAL_DL_P (Cell)
U_RXQUAL_DL_P (Cell)L_RXQUAL_UL_P (Cell)
U_RXQUAL_UL_P (Cell)
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OFFSET_HOPPING_PC (Cell)
N/A (N/A)
POW_INC_STEP_SIZE (Cell)
POW_RED_STEP_SIZE (Cell)
MAX_POW_INC (Cell)
MAX_POW_RED (Cell)
A_LEV_PC (Cell)
A_QUAL_PC (Cell)
W_LEV_PC (Cell)
W_QUAL_PC (Cell)
BS_TXPWR_MAX (Cell)
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BS_TXPWR_MIN (Cell)
MS_TXPWR_MAX (Cell)
MS_TXPWR_MIN (Cell)
BS_P_CON_ACK (Cell)
BS_P_CON_INT (Cell)
MS_P_CON_ACK (Cell)
MS_P_CON_INT (Cell)
T_SDCCH_PC (Cell)
BS_TXPWR_MAX_INNER (Cell)
MS_TXPWR_MAX_INNER (Cell)
En-Unbalanced-Output-Power (Cell)
EN_RADIOLINK_RECOVERY (EN_RL_RECOV) (Cell)
RADIOLINK_FAILURE_THRES(RADIO_LINK_TIMEOUT_BS) (Cell)
RADIOLINK_RECOVERY_THRES(N_BSTXPWR_M) (Cell)
RADIOLINK_TIMEOUT (Cell)
RADIOLINK_TIMEOUT_AMR (Cell)
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RADIOLINK_FAILURE_THRES_A
(RADIOLINK_TIMEOUT_BS_AMR) (Cell)
PWRC (Cell)
DOWNLINK_DTX_EN/ABLE (Cell)
N/A (N/A)
DOWNLINK_DTX_AMR_FR (Cell)
DOWNLINK_DTX_AMR_HR (Cell)
DOWNLINK_DTX_HR (Cell)
Uplink DTX Phase 2 (Cell)
Uplink DTX Phase 2 for AMR (Cell)
INTERCELL_HO
(HO_INTERCELL_ALLOWED) (Cell)
EN_3G_HOEN_2G_TO_3G_CELL_RESELECTION (Cell)
PING_PONG_HCP (Cell)
T_HCP (Cell)
N/A (N/A)
N/A (N/A)
EN_INTRACELL_REPEATED (Cell)
EN_INTRACELL_REPEATED (Cell)
N/A (N/A)
INTRACELL_HO(HO_INTRACELL_ALLOWED) (Cell)
EN_PBGT_HO (Cell)
A_PBGT_HO (Cell)
W_PBGT_HO (Cell)
A_LEV_HO (Cell)
W_LEV_HO (Cell)
A_PBGT_HO (Cell)
HO_MARGIN(HOM) (Nei)
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L_RXLEV_DL_H (Cell)
HO_MARGIN_LEV (Nei)
N/A (N/A)
EN_DIST_HO (Cell)
UPPER_TIMING_ADVANCE(U_TIME_ADVANCE) (Cell)
A_RANGE_HO (Cell)
LOWER_TIMING_ADVANCE
(L_TIME_ADVANCE) (Cell)
N/A (N/A)
EN_FORCED_DR (Cell)
N/A (N/A)
EN_DR (Cell)
N/A (N/A)
N/A (N/A)
N/A (N/A)
L_RXLEV_NCELL_DR
FREElevel_DR (Cell)
N/A (N/A)
N/A (N/A)
N/A (N/A)
DELTA_DEC_HO_MARGIN (Cell)
DELTA_INC_HO_MARGIN (Cell)
EN_BETTER_ZONE_HO (Cell)
RXLEV_UL_ZONE (Cell)
RXLEV_DL_ZONE (Cell)
ZONE_HO_HYST_UL
ZONE_HO_HYST_DL (Cell)
OFFSET_HO_MARGIN_INNER (Cell)
EN_PREFERED_BAND_HO (Cell)
PREFERED_BAND (BSC)
BS_TXPWR_MAX_INNER (Cell)
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MS_TXPWR_MAX_INNER (Cell)
N/A (N/A)
L_RXLEV_CPT_HO (Nei)
MULTIBAND_TRAFFIC_CONDITION (Cell)
EN_SPEED_DISC (Cell)
MIN_CONNECT_TIME (Cell)
H_MIN_DWELL_TIME (Cell)
L_MIN_DWELL_TIME (Cell)
DWELL_TIME_STEP (Cell)
H_LOAD_OBJ (Cell)
L_LOAD_OBJ (Cell)
EN_MCHO_RESCUE (Cell)
N_BAD_SACCH (Cell)
EN_MCHO_H_UL (Cell)
EN_MCHO_H_DL (Cell)
U_RXLEV_UL_MCHO (Cell)
U_RXLEV_DL_MCHO (Cell)
OUTDOOR_UMB_LEV (Cell)
EN_BI-BAND_MS (Cell)
EN_MCHO_NCELL (Cell)
EN_RESCUE_UMBRELLA (Cell)
EN_GENERAL_CAPTURE_HO (Cell)
CAPTURE_TRAFFIC_CONDITION (Cell)
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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)
HR_ENABLED (Cell)
HR_ENABLED (Cell)
HR_ENABLED (Cell)
HR_ENABLED (Cell)
HR_ENABLED (Cell)
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AMR_FR_HYST (Cell)
AMR_HR_HYST (Cell)
AMR_FR_THR_1 (Cell)
AMR_FR_THR_2 (Cell)
AMR_FR_THR_3 (Cell)
AMR_HR_THR_1 (Cell)
AMR_HR_THR_2 (Cell)
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AMR_HR_THR_3 (Cell)
THR_FR_LOAD_L_SV1 (Cell)
THR_FR_LOAD_L_SV3 (Cell)
THR_FR_LOAD_U_SV1 (Cell)
THR_FR_LOAD_U_SV3 (Cell)
AMR_FR_SUBSET (BSC)
AMR_HR_SUBSET (BSC)
N/A (N/A)
N/A (N/A)
N/A (N/A)
N/A (N/A)
EN_AMR_CA_FR_HR (Cell)
EN_AMR_CA_HR_FR (Cell)
N/A (N/A)
N/A (N/A)
N/A (N/A)
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HuaweiCBQ (Cell)
CBA (Cell)
Call re-establishment allowed (Cell)
EC allowed (Cell)
CCCH Conf (Cell)
MS_TXPWR_MAX_CCH (Cell)
ATT (Cell)
T3212(Period of Periodic Location Update) (Cell)
CCCH load Thrsh (Cell)
N/A (N/A)
CCCH load indication period (Cell)
CRH (Cell)
PI (Cell)
ACS (Cell)
CRO (Cell)
TO (Cell)
PT (Cell)
RXLEV_ACCESS_MIN (Cell)
NCC_PERMITTED (Cell)
FH index No (Cell/TRX)
FH Mode (Cell)
HSN (Cell)
MA (Cell)
TSC (Cell)
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MAIO (Cell)
Hop Ant Index (Cell)
Hop Ant Group (Cell)
Hop Ant Trx Num (Cell)
Cell anteeN/A hopping (Cell)
HOP HSN (Cell/TRX)BS_AG_BLKS_RES (Cell)
BS-PA-MFRAMS (Cell)
MS MAX Retrans (Cell)
TX-Integer (Cell)
MAX TA (Cell)
T3122 (Cell)
RACH Min. Access Level (Cell)
Random Access Error Threshold (Cell)UL PC Allowed
DL PC Allowed
DL RX_LEV Lower Threshold
DL RX_LEV Upper Threshold
UL RX_LEV Lower Threshold
UL RX_LEV Upper Threshold
DL Qual. Lower Threshold
DL Qual. Upper Threshold
UL Qual. Lower Threshold
UL Qual. Upper Threshold
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N/A
Filter Length for UL RX_LEV.
Filter Length for DL RX_LEV
Filter Length for UL Qual.
Filter Length for DL Qual.
MR. Compensation Allowed
MAX Down Adj.Value Qual.Zone 0
MAX Down Adj.Value Qual.Zone 1
MAX Down Adj.Value Qual.Zone 2 (no condition with UL and DL)
MAX Down Adj. PC Value by Qual.
MAX Up Adj. PC Value by RX_LEV
MAX Up Adj. PC Value by Qual.
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PC Interval
N/A
PC Interval
N/A
RADIO LINK TIMEOUT
AFR Radio Link Timeout(SACCH period (480ms))
AHR Radio Link Timeout(SACCH period (480ms))
N/A
N/A
N/A
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AFR SACCH Multi-Frames(SACCH period (480ms))
AHR SACCH Multi-Frames(SACCH period (480ms))
PWRC
By default enable
Inter-System Handover Enable
Inter-cell HO Hysteresis
Min Interval for Consecutive HOs
MR. Compensation Allowed
N/A
MAX Consecutive HO Times
Interval for Consecutive HO Jud.
Forbidden time after MAX Times
Intracell HO Allowed
PBGT HO Allowed
Filter Length for TCH Level
N/A
Filter Length for TCH Level
N/A
N/A
PBGT HO Threshold
DL DTX
UL DTX
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Min Access Level Offset
BQ HO Allowed
Filter Length for TCH Qual
N/A
N/A
UL Qual. Threshold
DL Qual. Threshold
DLQuaLimitAMRFR
ULQuaLimitAMRFR
DLQuaLimitAMRHR
ULQuaLimitAMRHR
BQHO Margin
N/A
Interference HO Allowed
BQ HO Margin
Edge HO UL RX_LEV Threshold
Level HO Allowed
RXQUAL2
RXQUAL3
RXQUAL4
RXQUAL5
RXQUAL6 (UL/DL are same)
RXQUAL7
RXQUAL8
RXQUAL9
RXQUAL10
RXQUAL11
RXQUAL12
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Edge HO DL RX_LEV Threshold
Inter-cell HO Hysteresis
N/A
TA HO Allowed
Emergency HO TA Threshold
N/A
N/A
Load HO Allowed
Load HO Threshold
N/A
Load Req.on Candidate Cell
N/A
N/A
N/A
Load HO Step Period
Load HO Step Level
Concentric Circles HO Allowed
RX_LEV Hysteresis
UO Signal Intensity Difference
Enhanced Concentric Allowed
Assign Optimum Layer\System Optimization
N/A (N/A)
Direct Retry
UtoO HO Received Level Threshold
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N/A (N/A)
UtoO Traffic HO Allowed
MS Fast Moving HO Allowed
MS Fast-moving Watch Cells
MS Fast-moving Valid Cells
MS Fast-moving Time Threshold
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)
Assign-optimum-level Threshold
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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)
Support Half Rate
N/A (N/A)
Speech Version/Support Half Rate Version 3
N/A (N/A)
Speech Version/Support Full Rate Version 3
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AMR UL Coding Rate adj.hyst1(F)
AMR UL Coding Rate adj.hyst2(F)
AMR UL Coding Rate adj.hyst3(F)AMR DL Coding Rate adj.hyst1(F)
AMR DL Coding Rate adj.hyst2(F)
AMR DL Coding Rate adj.hyst3(F)
AMR UL Coding Rate adj.hyst1(H)
AMR UL Coding Rate adj.hyst2(H)
AMR UL Coding Rate adj.hyst3(H)
AMR DL Coding Rate adj.hyst1(H)
AMR DL Coding Rate adj.hyst2(H)
AMR DL Coding Rate adj.hyst3(H)
AMR UL Coding Rate adj.th1(F)
AMR UL Coding Rate adj.th2(F)
AMR UL Coding Rate adj.th3(F)
AMR DL Coding Rate adj.th1(F)
AMR DL Coding Rate adj.th2(F)
AMR DL Coding Rate adj.th3(F)
AMR UL Coding Rate adj.th1(H)
AMR UL Coding Rate adj.th2(H)
AMR UL Coding Rate adj.th3(H)
AMR DL Coding Rate adj.th1(H)
AMR DL Coding Rate adj.th2(H)
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N/A (N/A)
N/A (N/A)
TCH Traffic Busy Threshold(%)
AMR TCH/H Prior Cell Load Threshold
AMR ACS(F)
AMR ACS(H)
Channel attributes / TCH half rate reserved
N/A (N/A)
N/A (N/A)
AMR DL Coding Rate adj.th3(H)
AMR Starting Mode(F)
AMR Starting Mode(H)
ntrace - owe
Intracell F-H HO Stat Time(s)
Intracell F-H HO Last Time(s)
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NokiacellBarQualify (QUA) (BTS)
cellBarred (BAR) (BTS)
callReestablishmentAllowed (RE) (BTS)
emergencyCallRestricted (EC) (BTS)
N/A (N/A)
MS TXPWR MAX CCH (TXP1)MS TXPWR MAX CCH1x00 (TXP2) (BTS)
allow IMSI attach detach (ATT) (BTS)
timerPeriodicUpdateMS (PER) (BTS)
N/A (N/A)
N/A (N/A)
N/A (N/A)
cellReselectHysteresis (HYS) (BTS)
cellReselectParamInd (PI) (BTS)
N/A (N/A)
cellReselectOffset (REO) (BTS)
temporaryOffset (TEO) (BTS)
peN/AltyTime (PET) (BTS)
rxLevAccessMin (RXP) (BTS)
plmn-permitted (PLMN) (BTS)
N/A (N/A)
btsIsHopping (HOP) (BTS)
hoppingSequenceNumber (HSN) (BTS)
mobileAllocationList (BTS)
TSC (BTS)
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N/A (N/A)
N/A (N/A)
N/A (N/A)
N/A (N/A)
N/A (N/A)
N/A (N/A)noOfBlocksForAccessGrant (AG) (BTS)
noOfMultiframesBetweenPaging (MFR) (BTS)
maxNumberRetransmission (RET) (BTS)
numberOfSlotsSpreadTrans (SLO) (BTS)
msMaxDistanceInCallSetup (DMAX) (BTS)
(N/A)
N/A (N/A)
N/A (N/A)pc_ctrl_eN/Abled(MS)
pc_ctrl_eN/Abled(BTS)
pc_l_t_lev_dl_rx_level, pc_l_t_lev_dl_px, pc_l_t_lev_dl_nx
pc_u_t_lev_dl_rx_level, pc_u_t_lev_dl_px,pc_u_t_lev_dl_nx
pc_l_t_lev_ul_rx_lev, pc_l_t_lev_ul_px, pc_l_t_lev_ul_nx
pc_u_t_lev_ul_rx_level, pc_u_t_lev_ul_px,pc_u_t_lev_ul_nxpc_ _ _qua _ _rx_qua , pc_ _ _qua _ _px,
pc_u_ _qua _ _rx_qua , pc_u_ _qua _ _px,
pc_ _t_qua _u _rx_qua , pc_ _t_qua _u _px,
pc_u_t_qua _u _rx_qua , pc_u_t_qua _u _px,
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bs_tx_pwr_off
pc_incr_step_size
pc_red_step_size
pc_a_l_dl_window_size, pc_a_l_dl_weighting / pc_a_l_ul_window_size,
pc_a_l_ul_weighting
pc_a_q_dl_window_size, pc_a_q_dl_weighting / pc_a_q_ul_window_size,
p_a_q_ul_weighting
N/A
N/A
N/A
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bs_tx_pwr_min
power_limit_ala
N/A
N/A
min_int_between_ala
pc_control_interval
base_station.min_ms_tx_power
N/A
IF RLT takes place then the default values for the power (UL/DL) are adopted.
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N/A
N/A
N/A_ . _ . _ _ _ .
_ . _ . _ _ _ .
N/A
N/A
N/A
eN/Able_inter_frt_iuo_ho
N/A
N/A
min_int_iuo_ho_req_bq
min interval between unsucc IUO HO (MIO)
ho_period_pbgt
N/A
N/A
N/A
N/A
handover_control_state0
handover_control_state5(state5=>DOWNLINK)
handover_control_state6(state6=>UPLINK)
handover_control_state1 (State1=> PWR)
adjacent_cell.ho_margin_pbgt
ho_a_l_dl_window_size, ho_a_l_dl_weighting
ho_a_l_ul_window_size, ho_a_l_ul_weighting
N/A
N/A
N/A
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N/A
adjacent_cell.ho_margin_qual
adjacent_cell.ho_margin_qual
N/A
N/Aho_t_q_ul_rx_qual, ho_t_q_ul_px, ho_t_q_ul_nx
ho_t_q_dl_rx_qual, ho_t_q_dl_px, ho_t_q_dl_nx
N/A
N/A
N/A
N/A
ho_a_l_dl_window_size, ho_a_l_dl_weighting
ho_a_l_ul_window_size, ho_a_l_ul_weighting
ho_t_i_ul_rx_level, ho_t_i_ul_px, ho_t_i_ul_nx
ho_t_i_dl_rx_level, ho_t_i_dl_px, ho_t_i_dl_nx
N/A
N/A
ho_t_rapid_lev_ul & ho_t_l_ul_rx_level, ho_t_l_ul_px, ho_t_l_ul_nx
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ho_t_rapid_lev_dl & ho_t_l_dl_rx_level, ho_t_l_dl_px, ho_t_l_dl_nx
N/A
N/A
handover_control_state2 ( state2=> MS Distance)
max_ms_distance_ho_threshold
ms_d_avg_param_hreqave
min_ms_distance_ho_thrs
N/A
N/A
N/A
handover_control_state3 (state3=>SD HO)
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
bsTxPwrMax used for GSM 800/900
bsTxPwrMax1x00 used for GSM 1800/1900
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N/A
N/A
N/A
AMH traffic control IUO (ATCI)
AMH traffic control IUO (ATCI)
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
btsLoadThreshold
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AMH TRHO pbgt margin (ATPM)
N/A
N/A
N/A
N/A
N/A
dadlbTargetCell
N/A
N/A
N/A
base_station.s10_prms.amr_hr_conf.start_mode
amrConfHrCodecModeSet
Support HR and FR
Support HR and FR
Support HR and FR
Support HR and FR
AMH lower load threshold (ALT) ,
AMH max load of target cell (AML) ,
AMH upper load threshold (AUT)
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AMR FR codec mode set (FRC)
AMR FR hysteresis 1 (FRH1)AMR FR hysteresis 2 (FRH2)
AMR FR hysteresis 3 (FRH3)
AMR HR codec mode set (HRC)
AMR HR hysteresis 1 (HRH1)
AMR HR hysteresis 2 (HRH2)
AMR HR hysteresis 3 (HRH3)
AMR FR start mode (FRS)
AMR FR threshold 1 (FRT1)
AMR FR threshold 2 (FRT2)
AMR FR threshold 3 (FRT3)
AMR HR start mode (HRS)
AMR HR threshold 1 (HRT1)
AMR HR threshold 2 (HRT2)
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initial AMR channel rate (IAC)
N/A
N/A
lower limit for FR TCH resources (HRL)
N/A
N/A
N/A
forced AMR HR mode C/I threshold (FAHT)
N/A
AMR FR start mode (FRS)
AMR HR start mode (HRS)
Slow AMR LA enabled (SAL)
AMR Configuration In Handovers (ACH)
AMR set grades enabled (ASG)
initial AMR channel rate ( IAC)
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Class Name Coding Rules
cell_bar_qualify 0: normal priority cell1: low priority cell
cell_bar_access_switch0: cell is not barred
1: cell is barred
reestablish_allowed0: Enabled
1: Disabled
emergency_class_switch
0: Disabled (all EC are allowed)
1: Enabled (only EC from classes 11 to 15 are
allowed)
ccch_conf
Value TSUsed Mode0: 0 Non-Combined
1: 0 Combined
2: 0,2 Non-Combined
4: 0,2,4 Non-Combined
6: 0,2,4,6 Non-Combined
MOTOROLA
trol
CellAccessCont
rol
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ms_txpwr_max_cch
PGSM/EGSM: step size = 2 dBm; 2: 39 dBm, ..., 19: 5 dBm.
DCS 1800:step size = 2 dBm; 0: 30 dBm, ..., 15: 0 dBm., 29: 36dBm,
30: 34 dBm, 31: 32 dBm
DCS 1900: step size = 2 dBm; 0: 30 dBm, 1: 28 dBm, ..., 15: 0 dBm,
30: 33 dBm, 31:32 dBm
attach_detach0: Disabled
1: Enabled
rr_t3212Step Size: 6min
0 to 255
rach_load_threshold
0 to 1000: Flow Control Barred Disabled
If rach_load_type is 1, then the units for this
parameter are (# correct RACH access/#
incorrect RACH accesses).
If rach_load_type is 0, then the units for this
parameter are (# correct RACH access/# possible
RACH accesses).
rach_load_period 1 to 1020
ccch_load_period 1 to 1020
cell_reselect_hysteresis 0: 0dB, 1: 2dB,.., 7: 14dB
cell_reselect_param_ind0: Do Not Broadcast C2 cell reselection parameters
1: Broadcast C2 cell reselection parameters
cell_reselect_offset 0: 0dB, 1: 2dB,.., 63: 126dB
temporary_offset 0: 0dB, 1: 10dB, , 6: 60dB, 7: infinity
penalty_time
step size = 20s
0: 20s, 1: 40s, ..., 30: 620s,
31: TEMPORARY OFFSET ignored and
CELL_RESELECT_OFFSET has a negative value
rxlev_access_min 0: -110dBm, 1: -109dBm,., 63: -47dBm
ncc_of_plmn_allowed
0 to 255
Coded over 8 bits. each bit corresponds to a NCC
value: MSB corresponds to NCC = 7, LSB
corresponds to NCC = 0. When a bit is set to 1,
the corresponding NCC will be allowed. When a
bit is set to 0, the corresponding NCC will not be
allowed
CellAcc
essCon
CellSelection/Resele
ction
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fhi
4 fhi can be created (0 to 3) (each having its own
Mobile Allocation List or MAL, Hopping
Sequence Number or HSN)
hopping_support
0: No Hopping
1: Synthesizer Hopping
2: Baseband Hopping
hopping_systems_hsn 0 to 63
hopping_systems_mobile_alloc
carrier training sequence code 0 to 7
(is set by the value of the ARFCN defined
on the RTF)-
bs_ag_blks_res0 to 2 (blocks reserved for ccch_conf = 1)
0 to 7 (blocks reserved for ccch_conf = 0)
bs_pa_mfrms 0: 2 MF, 1: 3 MF, .., 7: 9 MF
max_retran
0: Maximum 1 retransmission
1: Maximum 2 retransmissions
2: Maximum 4 retransmissions3: Maximum 7 retransmissions
tx_integer
0: 3 RACH, 1: 4 RACH, 2: 5 RACH, 3: 6 RACH,
4: 7 RACH, 5: 8 RACH, 6: 9 RACH, 7: 10 RACH,
8: 11 RACH, 9: 12 RACH, 10: 14 RACH, 11: 16
RACH, 12: 20 RACH, 13: 25 RACH, 14: 32
RACH, 15: 50 RACH
poor_initial_assignment0: Disabled
1: Enabled
wait_indication_parameters 0 to 255 seconds
ms_power_control_allowed0: Disabled
1: Enabled
bts_power_control_allowed0: Disabled
1: Enabled
l_rxlev_dl_p 0: -110dBm, 1: -109dBm,., 63: -47dBm
u_rxlev_dl_p 0: -110dBm, 1: -109dBm,., 63: -47dBm
Frequency/Hop
pingSys
Paging
RACHAccess
ontrol
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l_rxlev_ul_p 0: -110dBm, 1: -109dBm,., 63: -47dBm
u_rxlev_ul_p 0: -110dBm, 1: -109dBm,., 63: -47dBm
l_rxqual_dl_p0 to 1810 (if alt_qual_proc = 0)
0 to 7 (if alt_qual_proc = 1)
u_rxqual_dl_p0 to 1810 (if alt_qual_proc = 0)
0 to 7 (if alt_qual_proc = 1)
l_rxqual_ul_p0 to 1810 (if alt_qual_proc = 0)
0 to 7 (if alt_qual_proc = 1)
u_rxqual_ul_p0 to 1810 (if alt_qual_proc = 0)
0 to 7 (if alt_qual_proc = 1)
ntrol
PowerContro
l
Power
l_rxqual_dl_p_hr
l_rxqual_dl_p_hoppingl_rxqual_dl_p_hopping_hr
l_rxqual_dl_p_amr_fr
l_rxqual_dl_p_hopping_amr_fr
l_rxqual_ul_p_hr
l_rxqual_ul_p_hopping
l_rxqual_ul_p_hopping_hr
l_rxqual_ul_p_amr_fr
l_rxqual_ul_p_hopping_amr_fr
0 to 1810 (if alt_qual_proc = 0)
0 to 7 (if alt_qual_proc = 1)
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alt_qual_proc0: BER Units
1: Qband Units
pow_inc_step_size_dl
pow_inc_step_size_ul
Step Size: 2dB
1 = 2dB, 2 = 4dB, .., 7 = 14dB
pow_red_step_size_dl
pow_red_step_size_ul
Step Size: 2dB
1 = 2dB, 2 = 4dB
rxlev_ul_pc
(hregave, hreqt)
rxlev_dl_pc
(hregave, hreqt)
decision_1_n1/decision_1_p1
decision_1_n2/decision_1_p2
1 to 31
rControl
PowerControl
P
owerC u_rxqual_dl_p_hr
u_rxqual_dl_p_hopping
u_rxqual_dl_p_hopping_hr
u_rxqual_dl_p_amr_fr
u_rxqual_dl_p_hopping_amr_fr
u_rxqual_ul_p_hr
u_rxqual_ul_p_hopping
u_rxqual_ul_p_hopping_hr
u_rxqual_ul_p_amr_fr
u_rxqual_ul_p_hopping_amr_fr
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rxqual_ul_pc
(hregave, hreqt)
rxqual_dl_pc
(hregave, hreqt)
decision_1_n3/decision_1_p3
decision_1_n4/decision_1_p4
1 to 31
max_tx_bts
Step size: 2dB (-2dB)
-1 to 21(-1=inc pow by 2dB
21=dec pow by 42 dB)
max_tx_ms
PGSM/EGSM: 5 to 39 (odd values only)
DCS 1800: 0 to 36 (even values only)
DCS 1900: 0 to 32, 33 (even values only and 36)
bts_p_con_ackStep Size: x 2 SACCH MF
0: 0 SAMF, 1: 2 SAMF,.., 31: 62 SAMF
bts_p_con_intervalStep Size: x 2 SACCH MF
0: 0 SAMF, 1: 2 SAMF,.., 31: 62 SAMF
ms_p_con_ackStep Size: x 2 SACCH MF
0: 0 SAMF, 1: 2 SAMF,.., 31: 62 SAMF
ms_p_con_intervalStep Size: x 2 SACCH MF
0: 0 SAMF, 1: 2 SAMF,.., 31: 62 SAMF
bts_txpwr_max_inner
Step size: 2dB (-2dB)
-1 to 21(-1=inc pow by 2dB
21=dec pow by 42 dB)
ms_txpwr_max_inner
PGSM/EGSM: 5 to 39 (odd values only)
DCS 1800: 0 to 36 (even values only)
DCS 1900: 0 to 32, 33 (even values only and 36)
erControl
PowerControl
Pow
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full_pwr_rfloss0: Disabled
1: Enabled
link_failStep Size: x 4 SACCH MF
0 = 4 SAMF, 1 = 8 SAMF, ., 15 = 64 SAMF
link_about_to_failStep Size: x 4 SACCH MF
0 = 4 SAMF, 1 = 8 SAMF, ., 15 = 64 SAMF
radio_link_timeoutStep Size: x 4 SACCH MF
0 = 4 SAMF, 1 = 8 SAMF, ., 15 = 64 SAMF
pwrc0: include BCCH measurement
1: do NOT include BCCH measurements
dl_dtx_voice_data
0: DTX enabled for speech / disabled for non-transparent
data.
1: DTX disabled for speech / disabled for non-transparent
data.
2: DTX disabled for speech / enabled for non-transparent
data.3: DTX enabled for speech / enabled for non-transparent
data.
dnlk_vad_dtx0: Enabled
1: Disabled
dtx_required
0 Permitted (MS may use DTX)
1 Required (MS must use DTX)
2 Disallowed (MS must not use DTX)
inter_cell_handover_allowed
0: Outgoing Inter-cell handover is not enabled. The
Handover Required message is sent to the MSC.1: Outgoing Inter-cell handover is enabled.
2: Outgoing internal Inter-cell handover is disabled. The
Handover Required message is not sent to the MSC.
3 Outgoing internal and external handovers are disabled and
the Handover Required message is not sent to the MSC.
inter_rat_enabled
0: Off
1: 2G-3G idle
2: 3G-2G dedicated
3: 2G-3G idle and 3G-2G dedicated
4: 2G-3G dedicated
5: 2G-3G idle and 2G-3G dedicated.
6: 3G-2G dedicated and 2G-3G dedicated
7: Idle and bi-directional dedicated
PowerCo
ntrol
Po
Handove
rs
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bounce_protect_margin 0 to 127
bounce_protect_qual_tmr
bounce_protect_cong_tmr
0 to 127 SACCH MF
handover_power_level
PGSM/EGSM: step size = 2 dBm; 2: 39 dBm, ..., 19: 5 dBm.
DCS 1800/1900 :step size = 2 dBm; 0: 30 dBm, ..., 15: 0 dBm., 29:
36dBm, 30: 34 dBm, 31: 32 dBm
ho_margin_usage_flag0: Disabled
1: Enabled
hop_count0 to 255
(0: disables interference handovers)
hop_count_timer0 to 255
(0: disables this feature)
missing_rpt0: Disabled
1: Enabled
intra_cell_handover_allowed
0: Intra-cell handovers are performed by the BSS.
These calls are included as target cells in a
Handover Required message to the MSC.
1: The BSS performs Intra-cell handovers. TheMSC is notified with a Handover Performed
message.
2: Intra-cell handovers are disabled and the
Handover Required message is not sent to the
MSC.
pwr_handover_allowed0: Disabled
1: Enabled
dovers
Han
dovers
Handovers
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rxlev_dl_ho
(hreqave, hreqt)
rxlev_ul_ho
(hreqave, hreqt)
decision_1_n5/decision_1_p5
1 to 31
surround_cell
(hreqave, hreqt)1 to 31
ho_margin_cell -63 to 63
ul_rxqual_handover_allowed0: Disabled
1: Enabled
dl_rxqual_handover_allowed0: Disabled
1: Enabled
rxqual_dl_ho
(hreqave, hreqt)
rxqual_ul_ho
(hreqave, hreqt)
decision_1_n6/decision_1_p6
1 to 31
l_rxqual_ul_h0 to 1810 (if alt_qual_proc = 0)
0 to 7 (if alt_qual_proc = 1)
Handovers
Hando
vers
Ha
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l_rxqual_dl_h0 to 1810 (if alt_qual_proc = 0)
0 to 7 (if alt_qual_proc = 1)
l_rxqual_ul_h_hopping
l_rxqual_ul_h_hr
l_rxqual_ul_hopping_hr
l_rxqual_ul_h_amr_frl_rxqual_ul_h_hopping_amr_fr
l_rxqual_dl_h_hopping
l_rxqual_dl_h_hr
l_rxqual_dl_hopping_hr
l_rxqual_dl_h_amr_fr
l_rxqual_dl_h_hopping_amr_fr
0 to 1810 (if alt_qual_proc = 0)
0 to 7 (if alt_qual_proc = 1)
ho_margin_rxqual -63 to 63
ho_only_max_pwr 0: Disabled1: Enabled
interfer_ho_allowed0: Disabled
1: Enabled
rxlev_dl_ih
(hreqave, hreqt)
rxlev_ul_ih
(hreqave, hreqt)
decision_1_n7/decision_1_p7
1 to 31
u_rxlev_ul_ih 0: -110dBm, 1: -109dBm,., 63: -47dBm
u_rxlev_dl_ih 0: -110dBm, 1: -109dBm,., 63: -47dBm
ul_rxlev_ho_allowed0: Disabled
1: Enabled
dl_rxlev_ho_allowed0: Disabled
1: Enabledvers
Hando
vers
Handover
s
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rxlev_dl_h
(hreqave, hreqt)
rxlev_ul_h(hreqave, hreqt)
decision_1_n5/decision_1_p5
1 to 31
l_rxlev_ul_h 0: -110dBm, 1: -109dBm,., 63: -47dBm
l_rxlev_dl_h 0: -110dBm, 1: -109dBm,., 63: -47dBm
ho_margin_rxlev -63 to 63
worse_neighbor_ho0: Handover to worse neighbour DISABLED
1: Handover to worse neighbour ENABLED
ms_distance_allowed0: Disabled
1: Enabledms_max_range
0 to 63 TA (normal cells)
0 to 219 TA (extended range cells)
decision_1_n8/decision_1_p8 1 to 31
dr_preference0: Disabled
1: Enabled
dr_standard_congest 0: Disabled1: Enabled
dr_allowed0: Disabled
1: Enabled
dr_ho_during_assign
0: Ignore the need of a handover until the
assignment procedure is complete.
1: Act on the need for a handover during the
assignment procedure.
Hando
vers
Handove
rs
Hando
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ho_exist_congest
0: No hand over attempts (congestion relief
disabled)
1: Attempt to hand over as many calls as the
number of
queued assignment requests (congestion relief
type 1)
2: Attempt to hand over as many calls as meetthe congestion handover criteria (congestion
relief type 2)
tch_congest_prevent_thres 1 to 101
mb_tch_congest_thres 1 to 101
congest_ho_margin -63 to 63
congest_at_source 0: The source cell treats all targets equally as
congest_at_target 0: Thesystem will take no action if the Cell
enhanced_relief 0: Disbaled
inner_zone_alg
0: Disable inner zone
1: Power based algo
2: Interference based alfo3: Dualband cell
rxlev_dl_zone -110 to -47 dBm
rxlev_ul_zone -110 to -47 dBm
zone_ho_hyst -63 to 63 dB
dual_band_offset -63 to 63 dB
band_preference_mode0 to 6
(refer to GSR Customer Documentaion)
Multiband&Multil
Handovers
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band_preference
1: PGSM
2: EGSM
4: DCS1800
8: PCS1900
16: Dynamic
bts_txpwr_max_inner
Step size: 2dB (-2dB)
-1 to 21(-1=inc pow by 2dB, 21=dec pow by 42 dB)
ms_txpwr_max_inner
PGSM/EGSM: step size = 2 dBm; 2: 39 dBm, ..., 19: 5 dBm.
DCS 1800:step size = 2 dBm; 0: 30 dBm, ..., 15: 0 dBm., 29: 36dBm,
30: 34 dBm, 31: 32 dBm
DCS 1900: step size = 2 dBm; 0: 30 dBm, 1: 28 dBm, ..., 15: 0 dBm,
30: 33 dBm, 31:32 dBm
ho_pwr_level_inner
PGSM/EGSM: step size = 2 dBm; 2: 39 dBm, ..., 19: 5 dBm.
DCS 1800/1900 :step size = 2 dBm; 0: 30 dBm, ..., 15: 0 dBm., 29:
36dBm, 30: 34 dBm, 31: 32 dBm
interband_ho_allowed
1: PGSM
2: EGSM
3: PGSM and EGSM
4: DCS1800
5: PGSM and DCS1800
6: EGSM and DCS1800
7: PGSM, EGSM, and DCS1800
8: PCS1900
9: PGSM and PCS1900
10: EGSM and PCS1900
11: PGSM, EGSM, and PCS1900
pbgt_alg_type
1 to 7
1: Conventional GSM PBGT
2: Restricted PBGT for macro cells
3: PBGT with RXLEV as qualifier
4: PBGT with time in cell as qualifier
5: PBGT with delay since neighbour level exceeds
threshold as qualifier (also used for capturing)
6: Delayed power budget using dynamic
handover margin
7: PBGT algorithm to avoid adjacent channel
interference
ul_rxlev_serv_l
(uplink receive level threshold of the
serving cell)
0 to 255 dB
dl_rxlev_serv_l
(downlink receive level threshold of the
serving cell)
0 to 255 dBnd&Mu
ltilayer
Multiband
&Multilayer
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qualify_time
(qualifying time threshold)0 to 255 SACCH MF
rxlev_ncell_h
(neighbor cell receive level threshold)
0: -110 dBm
1: -109 dBm
..
63: -47 dBm
qualify_delay(qualifying delay time)
0 to 255 SACCH MF
ho_static_offset
(handover static offset)0 to 127 dB
ho_dynamic_offset
(handover dynamic offset)0 to 127 dB
delay_time
(delay time)0 to 255 SACCH MF
adj_chan_ho_margin
(adjacent channel interference detection
handover margin)
-63 to 63 dB
outer_zone_usage_level 0 to 100
pbgt_mode0: Disabled
1: Enabled
direct_inner_zone_threshold0: -110 dBm1: -109 dBm
..
63: -47 dBm
gsm_bss_half_rate_enabled0: Disabled
1: Enabled
gsm_half_rate_enabled0: Disabled
1: Enabled
amr_bss_half_rate_enabled0: Disabled
1: Enabled
amr_half_rate_enabled
0: Disabled
1: Enabled
amr_bss_full_rate_enabled0: Disabled
1: Enabled
amr_full_rate_enabled0: Disabled
1: Enabled
AM
R/HR
Multiband&Multilayer
Multib
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amr_fr_uplink_hysteresis3
amr_fr_uplink_hysteresis2
amr_fr_uplink_hysteresis1
amr_fr_downlink_hysteresis3
amr_fr_downlink_hysteresis2
amr_fr_downlink_hysteresis1
amr_fr_uplink_hysteresis3_hopping
amr_fr_uplink_hysteresis2_hopping
amr_fr_uplink_hysteresis1_hopping
amr_fr_downlink_hysteresis3_hopping
amr_fr_downlink_hysteresis2_hopping
amr_fr_downlink_hysteresis1_hopping
Step Size: 0.5 dB
0 to 15
amr_hr_uplink_hysteresis3
amr_hr_uplink_hysteresis2
amr_hr_uplink_hysteresis1
amr_hr_downlink_hysteresis3
amr_hr_downlink_hysteresis2
amr_hr_downlink_hysteresis1
amr_hr_uplink_hysteresis3_hopping
amr_hr_uplink_hysteresis2_hopping
amr_hr_uplink_hysteresis1_hopping
amr_hr_downlink_hysteresis3_hopping
amr_hr_downlink_hysteresis2_hopping
amr_hr_downlink_hysteresis1_hopping
Step Size: 0.5 dB
0 to 15
amr_fr_downlink_threshold1
amr_fr_downlink_threshold1_hopping
Step Size: 0.5 dB
0: 0.0dB, 1: 0.5dB,.,63: 31.5dB
amr_fr_downlink_threshold2
amr_fr_downlink_threshold2_hopping
Step Size: 0.5 dB
0: 0.0dB, 1: 0.5dB,.,63: 31.5dB
HR
AMR/
HR
AMR/HR
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amr_fr_downlink_threshold3
amr_fr_downlink_threshold3_hopping
Step Size: 0.5 dB
0: 0.0dB, 1: 0.5dB,.,63: 31.5dB
amr_hr_downlink_threshold1
amr_hr_downlink_threshold1_hopping
Step Size: 0.5 dB
0: 0.0dB, 1: 0.5dB,.,63: 31.5dB
amr_hr_downlink_threshold2
amr_hr_downlink_threshold2_hopping
Step Size: 0.5 dB
0: 0.0dB, 1: 0.5dB,.,63: 31.5dB
amr_hr_downlink_threshold3
amr_hr_downlink_threshold3_hopping
Step Size: 0.5 dB
0: 0.0dB, 1: 0.5dB,.,63: 31.5dB
new_calls_hr%age
0 to 101 (101:Disabled)
reconfig_fr_to_hr%age
0 to 101 (101:Disabled)
amr_fr_acs
0: 12.20 kbit/s
1: 10.20 kbit/s
3: 7.40 kbit/s
4: 6.70 kbit/s
6: 5.15 kbit/s
amr_hr_acs
2: 7.95 kbit/s
3: 7.40 kbit/s
4: 6.70 kbit/s5: 5.90 kbit/s
6: 5.15 kbit/s
amr_fr_dl_la_enabled0: Disabled
1: Enabled
amr_fr_ul_la_enabled0: Disabled
1: Enabled
amr_hr_dl_la_enabled0: Disabled
1: Enabled
AM
R/HR
AMR/H
R
AMR
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amr_hr_ul_la_enabled0: Disabled
1: Enabled
hr_res_ts 0 to 255 timeslots
force_hr_usage0: Disabled
1: Enabled
inner_hr_usage_thres%age
0 to 101 (101:Disabled)AMR
/HR
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Definition
Indicates the priority of the cell for cell selection.
specifies whether or not subscribers are barred access to a cell in
idle mode.
enables or disables call establishment.
enables or disables emergency calls by access class.
The ccch_conf parameter specifies the organization of the
Common Control Channels (CCCH) on the BCCH.
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specifies the maximum random access power available for an MS
on a control channel (CCCH) in a cell.
parameter enables and disables the mandatory IMSI attach/detach
for the MS.
governs the MS periodic location update procedure.
The rach_load_threshold parameter specifies the threshold for
RACH load.
indicates how often to check for the RACH overload condition
when the cell is not in RACH overload.
specifies the number of TDMA multiframes between successive
calculations of the RACH load during overload conditions.
specifies the hysteresis level for cell reselection into a different
location area
parameter specifies whether the C2 parameters are broadcast to
the MS by the network in the system information messages.
specifies a C2 offset value for the MS.
It is used to apply a negative offset to C2 for the duration of the
penalty_time timer parameter.
specifies how long the value specified by the field
temporary_offset is valid
specifies the minimum received signal level (dBm) required for an
MS to access the system
is a bit mapped value which specifies which Network
Colour Codes (NCCs) are allowed on specific broadcast control
channels
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The system allows separate Frequency Hopping Indicators to be
defined (each having its own MAL, HSN). Each TimeSlot of each RTF
can be configured individually to use any one of the defined fhis to
hop
Determines whether the frequency hopping is used and which
frequency hopping mode is used
parameter specifies the hopping sequence number (HSN) to be
used by the frequency hopping system (fhi)
0: Cyclic Hopping
1 to 63: Pseudo-Random Hopping
parameter allocates the Absolute Radio Frequency Channel
Number (ARFCN) frequencies for hopping for each fhi
Training Sequence Code
MAIO
specifies the number of blocks reserved for access grant per 51-
multiframes
specifies the number of multiframes between transmissions of
paging messages to MSs of the same paging group.
specifies the maximum channel request retransmission value for
MSs.
specifies the number of Random Access Channel (RACH) slots
between the access retry transmission on the RACH.
enables or disables checking the timing advance on RACH. If the
RACH is greater than ms_max_range, this indicates that there has
been a poor initial assignment, and therefore the RACH is
discarded.
parameter specifies the MS timer (T3122). The MS does not make a
new request in the same cell until the timer expires
enables or disables MS power control
enables or disables MS power control
Lower downlink level threshold for power control
Upper downlink level threshold for power control
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Lower uplink level threshold for power control
Upper uplink level threshold for power control
Lower downlink quality threshold for power control.
Receive quality processing is measured using Bit Error Rate (if
alt_qual_proc=0) values or Quality Band (if alt_qual_proc=1) units.
The alt_qual_proc parameter specifies the type of unit.
Upper downlink quality threshold for power control
Receive quality processing is measured using Bit Error Rate (if
alt_qual_proc=0) values or Quality Band (if alt_qual_proc=1) units.
The alt_qual_proc parameter specifies the type of unit.
Lower uplink quality threshold for power control.
Receive quality processing is measured using Bit Error Rate (if
alt_qual_proc=0) values or Quality Band (if alt_qual_proc=1) units.
The alt_qual_proc parameter specifies the type of unit.
Upper uplink quality threshold for power control
Receive quality processing is measured using Bit Error Rate (if
alt_qual_proc=0) values or Quality Band (if alt_qual_proc=1) units.
The alt_qual_proc parameter specifies the type of unit.
Lower quality threshold for uplink power control repectively for:
Calls on HR (AMR + non-AMR)Calls on hopping channel
Calls on hopping HR channel (AMR + non-AMR)
Calls on AMR FR
Calls on hooping FR AMR channel
Lower quality threshold for uplink power control repectively for:
Calls on HR (AMR + non-AMR)
Calls on hopping channel
Calls on hopping HR channel (AMR + non-AMR)
Calls on AMR FRCalls on hooping FR AMR channel
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specifies whether receive quality processing is performed using Bit
Error Rate (BER) values or Quality Band (QBand) units
specifies the step size for power increases from the BTS to the MS
specifies the step size for power increases from the MS to the BTS
specifies the step size for power decreases from the BTS to the MS
specifies the step size for power decreases from the MS to the BTS
Specifies the averaging parameters for making power control
decisions for the downlink/uplink receive signal level.
After entering command for this parameter prompts are displayed
for hreqave (Averaging window size; number of MR averaged to
make 1 values ) and hreqt (how many averaged value to use to
make a decission).
n1: number of averages taken to make decission for UL Lev PCp1: number of values out of n values that when exceed PC
threshold trigger a PC command for UL Lev PC
n2: number of averages taken to make decission for DL Lev PC
p2: number of values out of n values that when exceed PC
threshold trigger a PC command for DL Lev PC
Upper quality threshold for uplink power control repectively for:
Calls on HR (AMR + non-AMR)
Calls on hopping channel
Calls on hopping HR channel (AMR + non-AMR)
Calls on AMR FR
Calls on hooping FR AMR channel
Upper quality threshold for uplink power control repectively for:
Calls on HR (AMR + non-AMR)
Calls on hopping channel
Calls on hopping HR channel (AMR + non-AMR)
Calls on AMR FR
Calls on hooping FR AMR channel
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Specifies the averaging parameters for making power control
decisions for the downlink/uplink receive quality.
After entering command for this parameter prompts are displayed
for hreqave (Averaging window size; number of MR averaged to
make 1 values ) and hreqt (how many averaged value to use to
make a decission).
n3: number of averages taken to make decission for UL Qual PC
p3: number of values out of n values that when exceed PC
threshold trigger a PC command for UL Qual PC
n4: number of averages taken to make decission for DL Qual PC
p4: number of values out of n values that when exceed PC
threshold trigger a PC command for DL Qual PC
specifies the maximum output power for a cell in 2 dB steps ofattenuation (-2dB) from the calibrated cell site power of the radios
in the cell.
specifies the maximum amount of time to wait for RF power
change acknowledgments to the BSS. This allows a repeat of the
BTS power control message if the BTS power has not been
confirmed.
specifies the minimum amount of time in multiples of two SACCH
multiframes between successive RF power change orders to the
BSS.
Supervision of the MS Power Control procedure. Time interval
waited after sending power command to receive an
acknowledgment (of power command implementation)
specifies the minimum amount of time in multiples of two SACCH
multiframes between successive RF power change orders to the
MS
specifies the maximum transmit power BTS inner zone of aconcentric cell (in steps of 2dB attenuation)
specifies the maximum power an MS can use in the inner zone of a
concentric cell.
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enables or disables the ability of the BSS power control to fully
power up the MS and BTS at the point where the RF connection
appears to be lost. Transition to full power occurs when the
threshold set by link_about_to_fail is reached
specifies the number of lost SACCH multiframes (in the uplink)
before a loss of SACCH is reported (by BSS)specifies the number of undecoded SACCH frames before the BSS
and MS are increased to full power.
specifies the number of lost SACCH multiframes (in the downlink)
before a loss of SACCH is reported (by MS)
specifies whether the BCCH measurement are included in the
averaged value of hopping frequencies.
specifies the option for downlink discontinuous transmission (DTX)
for speech and voice.
enables or disables downlink Voice Activated
Detection/Discontinuous Transmission (VAD/DTX) at the RXCDR
specifies the MS capability to use discontinuous transmission
Enables/disables and specifies how internal and external inter-cell
handovers are managed at the BSC
Manages the inter-RAT handovers in BSS
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prevents continuous handover bouncing between cells due to
RXQUAL level and congestion reasons. After a RXQUAL/Congestion
handover, the system applies the bounce_protect_margin (to
ho_margin_cell) value for the number of SACCH periods set by the
bounce_protect_qual_tmr/bounce_protect_cong_tmr timer.
specifies the number of SACCH periods after an
RXQUAL/congestion handover, the system applies the
bounce_protect_margin value.
defines the power control level to be used by an MS during a
handover to a different cell
determines which value of ho_margin is used.
If ho_margin_usage_flag = disabled, handover candidates are
always sorted using ho_margin_cell
If ho_margin_usage_flag = enabled, handover candidates are
sorted using ho_margin_rxlev (for lev HO), ho_margin_rxqual (forqual HO)
If the number of handovers defined by the hop_count parameter
occur within the time set by the hop_count_timer, the system
escalates the handover to an RXQUAL handover to another cell.
If the number of handovers defined by the hop_count parameter
occur within the time set by the hop_count_timer, the system
escalates the handover to an RXQUAL handover to another cell.
In case of a mobile missing sending measurement reports;If missing_rpt = 0, the last measurement value is repeated and the
averaging, voting and handover decisions will still be
done.
If missing_rpt = 1, no averaging or handover will happen and this
measurement report will be forgotten.
Determines (and enables/disables) how intra-cell handovers arehandled
enables or disables the power budget assessment for handovers
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Specifies the averaging parameters for calculating DL RXLEV
averaged value from MRs and hence make decisions for the
downlink/uplink receive level HO (PBGT, UL/DL HO).
After entering command for this parameter prompts are displayed
for hreqave (Averaging window size; number of MR averaged to
make 1 values ) and hreqt (how many averaged value to use tomake a decission).
n5: number of averages taken to make decission for UL/DL rxlev
HO
p5: number of values out of n values that when exceed RXLEV HO
threshold trigger a HO command for UL/DL rxlev HO
Specifies the averaging parameters for calculating DL/UL RXLEV
averaged value from MRs for reported neighbour measurements.After entering command for this parameter prompts are displayed
for hreqave (Averaging window size; number of MR averaged to
make 1 values ) and hreqt (how many averaged value to use to
make a decission).
Handover margin for a neighbour cell
enables or disables handovers due to the uplink rxqual
enables or disables handovers due to the downlink rxqual
Specifies the averaging parameters for calculating DL/UL RXQUAL
averaged value from MRs and hence make decisions for the
downlink/uplink receive quality HO (UL/DL QUAL).
After entering command for this parameter prompts are displayed
for hreqave (Averaging window size; number of MR averaged to
make 1 values ) and hreqt (how many averaged value to use to
make a decission).
n6: number of averages taken to make decission for UL/DL rxqual
HO
p6: number of values out of n values that when exceed QUAL HOthreshold trigger a HO command for UL/DL rxqual HO
specifies the handover control threshold for the RXQUAL uplink.
This threshold is checked to determine if a rxqual UL handover
condition exists.
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specifies the handover control threshold for the RXQUAL downlink.
This threshold is checked to determine if a rxqual DL handover
condition exists.
Quality threshold for uplink/downlink handover repectively for:
Calls on hopping channelCalls on HR (AMR + non-AMR)
Calls on hopping HR channel (AMR + non-AMR)
Calls on AMR FR
Calls on hopping AMR FR channel
Handover margin for a neighbour cell for quality handovers
specifies whether the MS or the BTS must be at full power (in cae
the power was controled) before a rxlev or rxqual handover cantake place.
disables or enables handovers due to interference.
Specifies the averaging parameters for calculating DL/UL RXLEV
averaged value from MRs and hence make decisions for the
downlink/uplink interference HO (UL/DL INTF).
After entering command for this parameter prompts are displayed
for hreqave (Averaging window size; number of MR averaged to
make 1 values ) and hreqt (how many averaged value to use to
make a decission).
n7: number of averages taken to make decission for UL/DL
rxlev_intf HO
p7: number of values out of n values that when exceed HO
thresholds trigger a HO command for UL/DL rxlev_intf HO
specifies the intra-cell control thresholds for the RXLEV UL
If the RXLEV UL is greater than this threshold and quality is poorer
(greater) than l_rxqual_ul_h, an interference (intra-cell) HO is
triggered
specifies the intra-cell control thresholds for the RXLEV DLIf the RXLEV DL is greater than this threshold and quality is poorer
(greater) than l_rxqual_dl_h, an interference (intra-cell) HO is
triggered
enables or disables handovers due to the uplink rxlev
enables or disables handovers due to the downlink rxlev
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Specifies the averaging parameters for calculating DL/UL RXLEV
averaged value from MRs and hence make decisions for the
downlink/uplink receive level HO (UL/DL RXLEV).
After entering command for this parametererompts are displayed
for hreqave (Averaging window size; number of MR averaged to
make 1 values ) and hreqt (how many averaged value to use to
make a decission).
n5: number of averages taken to make decission for UL/DL rxlev
HO
p5: number of values out of n values that when exceed RXLEV HO
threshold trigger a HO command for UL/DL rxlev HO
specifies the handover control threshold for the RXLEV uplink. This
threshold is checked to determine if a rxlev UL handover condition
exists.
specifies the handover control threshold for the RXLEV downlink.This threshold is checked to determine if a rxlev DL handover
condition exists.
Handover margin for a neighbour cell for level handovers
specifies whether a call can be handed over to a neighbor cell due
to the downlink receive level even when the neighbor cell receive
level is lower than the serving cell receive level.
disables or enables the distance comparison process for handovers
specifies the MS maximum range for the distance handover
algorithm
n8: number of averages taken to make decission for distance HO
p8: number of values out of n values that when exceed
ms_max_range threshold trigger a HO command for distance HO
enables or disables the Directed Retry procedures on the BSC
enables or disables the standard Directed Retry congestion
procedure in a cell. The procedure initiates a handover if possiblefor a call needing a TCH in the case of congestion.
enables or disables the Directed Retry feature in the neighbour, i.e.
makes the neighbour a possible candidate for DR handovers
determines if a handover is handled during an assignment
procedure (for the BSC)
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specifies the congestion relief type, i.e. how to handle existing calls
on a TCH when an MS needs a TCH and none are available in that
cell.
specifies the level of overall TCH utilisation by any MS in a given
Cell, at which the Congestion Relief procedure is initiated
100 means congestion relief will be triggered when attempting to
use the last resource
101 means congestion relief can only will be triggered when there
are no resources left.
Used to control the percentage point at which Multiband MS willstart to be redirected to the preferred band. The BSS does not
allow an incoming band preference handover should the servicing
of that handover cause this percentage to be exceeded.
Handover margin for a neighbour cell for congestion handovers
Used to control how a given cell behaves should it be unable to
Used to control how a given cell behaves should it reject a
when enabled removes rejection of non imperative handovers
The inner_zone_alg parameter specifies the algorithm to be used
for the inner zone of the cell.
specifies the downlink receive level threshold that must be crossed
for a handover to take place between the outer zone and the inner
zone.
specifies the uplink receive level threshold that must be crossed for
a handover to take place between the outer zone and the inner
zone.
specifies the margin for the inner zone handover hysteresis.
applied to powe