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State Transition RAN13.0
Feature Parameter Description
Issue 04
Date 2013-01-30
HUAWEI TECHNOLOGIES CO., LTD.
Copyright Huawei Technologies Co., Ltd. 2012. All rights reserved.
No part of this document may be reproduced or transmitted in any form or by any means without prior
written consent of Huawei Technologies Co., Ltd.
Trademarks and Permissions
and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd.
All other trademarks and trade names mentioned in this document are the property of their respective
holders.
Notice
The purchased products, services and features are stipulated by the contract made between Huawei and
the customer. All or part of the products, services and features described in this document may not be
within the purchase scope or the usage scope. Unless otherwise specified in the contract, all statements,
information, and recommendations in this document are provided "AS IS" without warranties, guarantees or
representations of any kind, either express or implied.
The information in this document is subject to change without notice. Every effort has been made in the
preparation of this document to ensure accuracy of the contents, but all statements, information, and
recommendations in this document do not constitute the warranty of any kind, express or implied.
Huawei Technologies Co., Ltd.
Address: Huawei Industrial Base
Bantian, Longgang
Shenzhen 518129
People's Republic of China
Website: http://www.huawei.com
Email: support@huawei.com
WCDMA RAN
State Transition Contents
Issue 04 (2013-01-30) Huawei Proprietary and Confidential
Copyright Huawei Technologies Co., Ltd
i
Contents
1 Introduction ................................................................................................................................ 1-1
1.1 Scope ............................................................................................................................................ 1-1
1.2 Intended Audience......................................................................................................................... 1-1
1.3 Change History .............................................................................................................................. 1-1
2 Overview...................................................................................................................................... 2-1
3 Technical Description .............................................................................................................. 3-1
3.1 UE State Transition Switches ........................................................................................................ 3-1
3.2 D2F State Transition ...................................................................................................................... 3-1
3.3 Low Activity State .......................................................................................................................... 3-3
3.4 F2P State Transition ...................................................................................................................... 3-4
3.5 P2U State Transition...................................................................................................................... 3-4
3.6 P2F and U2F State Transition ....................................................................................................... 3-4
3.7 F2D State Transition ...................................................................................................................... 3-5
3.8 D2D State Transition ..................................................................................................................... 3-5
3.9 CPC and EFACH State Transition ................................................................................................. 3-7
3.10 Always Online .............................................................................................................................. 3-9
3.11 PCH Blacklist ............................................................................................................................. 3-12
4 Parameters.................................................................................................................................. 4-1
5 Counters ...................................................................................................................................... 5-1
6 Glossary ...................................................................................................................................... 6-1
7 Reference Documents ............................................................................................................. 7-1
WCDMA RAN
State Transition 1 Introduction
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1 Introduction
1.1 Scope
This document describes the State Transition feature.
This document requires that readers know the dynamic channel configuration control (DCCC) mechanism. It is recommended that readers read the DCCC Feature Parameter Description beforehand.
1.2 Intended Audience
This document is intended for:
Personnel who are familiar with WCDMA basics
Personnel who need to understand State Transition
Personnel who work with Huawei products
1.3 Change History
This section provides information on the changes in different document versions.
There are two types of changes, which are defined as follows:
Feature change: refers to a change in the State Transition feature of a specific product version.
Editorial change: refers to a change in wording or the addition of information that was not described in the earlier version.
Document Issues
The document issues are as follows:
04(2013-01-30)
03 (2012-05-30)
02 (2011-12-30)
01 (2011-04-30)
Draft B (2011-03-30)
Draft A (2010-12-30)
04(2013-01-30)
This is the document for the fourth commercial release of RAN13.0.
Compared with issue 03 (2012-05-30) of RAN13.0, this issue incorporates the changes described in the following table.
Change Type Change Description Parameter Change
Feature change Added the PCH blacklist function to address the compatibility issue of certain UE types. For details, see section 3.11 PCH Blacklist.
Added the following parameters:
PROCESSSWITCH: RSVDBIT1_BIT4
TAC_FUNC
Editorial change None. None.
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State Transition 1 Introduction
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03 (2012-05-30)
This is the document for the third commercial release of RAN13.0.
Compared with issue 02 (2011-12-30) of RAN13.0, this issue incorporates the changes described in the following table.
Change Type Change Description Parameter Change
Feature change None. None.
Editorial change Deleted the description of the always online function for combined CS and PS services. For details, see section 3.10 "Always Online."
Removed the following parameters:
CfgSwitch
02 (2011-12-30)
This is the document for the second commercial release of RAN13.0.
Compared with issue 01 (2011-04-30) of RAN13.0, this issue incorporates the changes described in the following table.
Change Type Change Description Parameter Change
Feature change Added the description about how to prevent ping-pong state transitions between CELL_DCH and CELL_FACH. For details, see section 3.2 "D2F State Transition."
Added the description of the always online function for combined CS and PS services. For details, see section 3.10 "Always Online."
Added the following parameters:
PerfEnhanceSwitch
HSUPA4AThrouThd
HSDPA4ATvmThd
CfgSwitch
Editorial change None None
01 (2011-04-30)
This is the document for the first commercial release of RAN13.0.
Compared with issue Draft B (2011-03-30) of RAN13.0, this issue has no change.
Draft B (2011-03-30)
This is the draft of the document for RAN13.0.
Compared with Draft A (2010-12-30) of RAN13.0, this issue optimizes the description.
Draft A (2010-12-30)
This is the draft of the document for RAN13.0.
This is a new document.
WCDMA RAN
State Transition 2 Overview
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2 Overview
Figure 2-1 shows the following UE state transitions:
Between the UTRAN connected and the GSM connected modes for CS services
Between the UTRAN connected and the GSM/GPRS packet transfer modes for PS services
Between the idle and the UTRAN connected modes
State transitions in UTRAN connected mode
Figure 2-1 UE state transitions
This section describes only the UE state transitions in UTRAN connected mode, as shown in Figure 2-2.
Figure 2-2 UE state transitions in UTRAN connected mode
4B
4A
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After a radio resource control (RRC) connection is set up, the RNC monitors UE activities and uses the UE state transition function to change the UE state (WRFD-010202 UE State in Connected Mode).
A UE state transition is triggered by the traffic volume, timer, or user mobility. The trigger conditions for UE state transitions are described as follows:
Traffic volume report from the UE
Event 4A: The traffic volume is greater than the event 4A threshold.
Event 4B: The traffic volume is less than the event 4B threshold.
Cell reselection
If the number of cell reselections exceeds the specified threshold during the specified period (timer), the UE is considered to be in the state of frequent cell reselections.
Paging/Data
There is data to be transmitted.
Overload
When a cell is overloaded, the RNC may transit the UE state from CELL_DCH (DCH/HS-DSCH/E-DCH) to CELL_FACH (FACH) to relieve the load.
Table 2-1 lists the UE state transition types.
Table 2-1 UE state transition types
State Transition Channel Switch Description
D2F D2F CELL_DCH (DCH) to CELL_FACH
E2F CELL_DCH (E-DCH) to CELL_FACH
H2F CELL_DCH(HS-DSCH) to CELL_FACH
F2D F2D CELL_FACH to CELL_DCH (DCH)
F2H CELL_FACH to CELL_DCH (HS-DSCH)
F2E CELL_FACH to CELL_DCH (E-DCH)
F2P - CELL_FACH to CELL_PCH
P2U - CELL_PCH to URA_PCH
P2F - CELL_PCH to CELL_FACH
U2F - URA_PCH to CELL_FACH
D2D H2D CELL_DCH (HS-DSCH) to CELL_DCH (DCH)
E2D CELL_DCH (E-DCH) to CELL_DCH (DCH)
D2H CELL_DCH (DCH) to CELL_DCH (HS-DSCH)
D2E CELL_DCH (DCH) to CELL_DCH (E-DCH)
CPC and EFACH CPC2F CELL_DCH (CPC) to CELL_FACH
CPC2EFACH CELL_DCH (CPC) to Enhanced CELL_FACH
EFACH2CPC Enhanced CELL_FACH to CELL_DCH (CPC)
EFACH2D Enhanced CELL_FACH to CELL_DCH (DCH)
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State Transition Channel Switch Description
D2EFACH CELL_DCH (DCH) to Enhanced CELL_FACH
F2CPC CELL_FACH to CELL_DCH (CPC)
Always online - RRC Connected mode to Idle mode
Fast dormancy - A new state transition mechanism is designed for fast dormancy.
For details, see the Enhanced Fast Dormancy Feature Parameter Description.
Low activity - For best effort (BE) services that are not allowed for state transitions, the RNC can enable the BE services to enter the low activity state which is configured with lower rates.
If a UE is performing a CS service, it stays in the CELL_DCH state during the call and D2F state transition is not allowed.
If a UE is performing a streaming service, F2P state transition is not allowed.
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State Transition 3 Technical Description
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3 Technical Description
3.1 UE State Transition Switches
SET UCORRMALGOSWITCH (DraSwitch) defines the following RNC-level switches for dynamic resource allocation:
DRA_PS_BE_STATE_TRANS_SWITCH: controls state transition for UEs performing BE services.
DRA_PS_NON_BE_STATE_TRANS_SWITCH: controls state transition for UEs performing non-BE services (PS real-time service).
DRA_HSDPA_STATE_TRANS_SWITCH: controls state transition from HS-DSCH to FACH.
This switch is valid only when either DRA_PS_BE_STATE_TRANS_SWITCH, or DRA_PS_NON_BE_STATE_TRANS_SWITCH, or both of them are turned on. DRA_PS_BE_STATE_TRANS_SWITCH is turned on for BE services, and DRA_PS_NON_BE_STATE_TRANS_SWITCH is turned on for non-BE services.
DRA_HSUPA_STATE_TRANS_SWITCH: controls state transition from E-DCH to FACH.
This switch is valid only when either of the following switches or both of them are turned on:
DRA_PS_BE_STATE_TRANS_SWITCH, which is turned on for BE services.
DRA_PS_NON_BE_STATE_TRANS_SWITCH, which is turned on for non-BE services.
When the previous switches are turned on:
If DRA_DCCC_SWITCH is set to 1 and the dynamic channel adjustment strategy (DcccStg) is set to RATE_UP_AND_DOWN_ON_DCH, the UE state transition function starts working when the UL/DL rate is less than or equal to the UL/DL rate threshold for DCCC (UlDcccRateThd/DlDcccRateThd).
If DRA_DCCC_SWITCH is set to 1 and DcccStg is set to RATE_UP_ONLY_ON_DCH, the UE state transition function always works.
If DRA_DCCC_SWITCH is set to 0, the UE state transition function always works.
If the timers for online detection are set to be small values for inactive PS services, the RRC connection may be released before UE state transition. The timers for online detection can be set by using the SET UPSINACTTIMER command.
SET UUESTATETRANS is used to set the UE RRC state transition parameters (RNC-level).
SET UUESTATETRANSTIMER is used to set the UE RRC state transition timers (RNC-level).
3.2 D2F State Transition
Figure 3-1 shows the D2F state transition.
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Figure 3-1 D2F state transition
B
When receiving a report on event 4B, the RNC starts the timer for D2F state transition and the counters for UL and DL event 4B reports. If the numbers of UL and DL event 4B reports are greater than or equal to the D2F transition threshold before the timer expires, then the D2F state transition is performed when the timer expires.
The D2F state transition threshold is the rounded-down value obtained by using the following equation:
D2F transition threshold = D2F transition time/(Time to trigger + Pending time after trigger) x State transition traffic redundancy coefficient
In this equation:
The D2F state transition time, time to trigger, and pending time after trigger are specified by the parameters listed in Table 3-1.
The state transition traffic redundancy coefficient is used to prevent false detection that a UE is in the low-activity state due to the loss of measurement reports. This coefficient is set to 80%.
Table 3-1 Parameters related to D2F state transition
Service Type
D2F Transition Timer
Event 4B Threshold Time to Trigger Event 4B
Pending Time After Event 4B Trigger
BE service on the DCH
BeD2FStateTransTimer
D2F2PTvmThd D2FTvmTimeToTrig D2FTvmPTAT
BE service on the HS-DSCH
BeH2FStateTransTimer
BeH2FTvmThd BeH2FTvmTimeToTrig BeH2FTvmPTAT
PS real-time service
RtDH2FStateTransTimer
RtDH2FTvmThd RtDH2FTvmTimeToTrig
RtDH2FTvmPTAT
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Service Type
D2F Transition Timer
Event 4B Threshold Time to Trigger Event 4B
Pending Time After Event 4B Trigger
BE service on the E-DCH
BeE2FStateTransTimer
E2FThrouThd E2FThrouTimeToTrig
x E2FThrouMeasPeriod
E2FThrouPTAT x E2FThrouMeasPeriod
The parameters related to event 4B are set to their respective values for the UL and DL. The parameters include the time to trigger, pending time after trigger, and threshold. An example for BE services: if the UL channel is DCH and the DL channel is HS-DSCH, the parameter configurations for BE services on the DCH as listed in Table 3-1 are used for the UL, and the parameter configurations for BE services on the HS-DSCH as listed in Table 3-1 are used for the DL.
State transitions from E-DCH to FACH and from DCH to FACH are similar. The difference is that the event 4B measurement for state transition from E-DCH to FACH is based on the throughput with the throughput measurement period being specified by E2FThrouMeasPeriod. In addition, the threshold of event 4B is based on the throughput and is specified by E2FThrouThd.
To prevent ping-pong state transitions between CELL_DCH and CELL_FACH, turn on the switch PERFENH_H2F_OPT_SWITCH under the PerfEnhanceSwitch parameter in the SET UCORRMPARA command and disable HSUPA DCCC in the uplink. After the switch PERFENH_H2F_OPT_SWITCH is turned on, starting event 4a measurement also starts event 4b measurement. If the RNC receives an event 4a report before the D2F state transition timer expires, the uplink throughput is higher than HSUPA4AThrouThd or the downlink throughput is higher than HSDPA4ATvmThd. In this case, the RNC stops the D2F state transition timer to prevent unnecessary state transitions.
3.3 Low Activity State
For BE services, if DRA_PS_BE_STATE_TRANS_SWITCH is set to 0 or the UE has other services that do not allow UE state transition, UE state transition cannot be performed. If the numbers of UL and DL event 4B reports are greater or equal to the D2F transition threshold before the transition timer expires, the rate can be changed to the low activity rate.
For a single service:
For BE service on the DCH (UL and DL), the UL and DL rates can be changed to the low-activity rate threshold (LittleRateThd).
For BE service on the DCH (UL) and HS-DSCH (DL), only the UL rate can be changed to LittleRateThd.
For BE service on the E-DCH (UL) and DCH (DL), only the DL rate can be changed to LittleRateThd.
Note that if LittleRateThd is greater than or equal to UlDcccRateThd or DlDcccRateThd, the rate cannot be changed to LittleRateThd.
If LittleRateThd is excessively high, excessive resources are occupied for a long time even when no data is transmitted, leading to network congestion. If LittleRateThd is excessively low, the throughput is lower than the expected value when the UE starts transmitting data again, even though less radio resources are consumed.
For combined services:
If a CS service is involved, the UE stays in the CELL_DCH state and D2F state transition is not allowed. If a PS service meets the conditions for D2F state transition, the RNC reduces the data rate of PS services to the low activity rate.
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If only PS services are involved and the state transition switches are turned off, the RNC reduces the data rate of PS services to the low activity rate.
3.4 F2P State Transition
F2P state transition is applicable to BE services in the PS domain.
F2P state transition is similar to D2F state transition.
When receiving a report that event 4B occurs and the traffic volume is zero, the RNC starts the timer for F2P state transition and the counters for UL and DL event 4B reports. If the numbers of UL and DL event 4B reports are greater than the F2P state transition threshold before the timer expires, the F2P state transition is performed when the timer expires.
The F2P state transition threshold is the rounded-down value obtained by using the following equation:
F2P transition threshold = F2P transition time/(Time to trigger + Pending time after trigger) x State transition traffic redundancy coefficient
Table 3-2 lists the parameters related to F2P state transition.
Table 3-2 Parameters related to F2P state transition
Service Type F2P Transition Timer
Event 4B
Threshold
Time to Trigger Event 4B
Pending Time After Event 4B Trigger
PS BE service BeF2PStateTransTimer
D2F2PTvmThd F2PTvmTimeToTrig F2PTvmPTAT
If the cell is in the overload or congestion state, F2D state transition is not allowed.
3.5 P2U State Transition
P2U state transition is applicable to BE services in the PS domain.
Before the state transition, the UE is in the CELL_PCH state. During the cell reselection, the UE sends the CELL UPDATE messages. The RNC starts a timer (CellReSelectTimer) and counts the number of CELL UPDATE messages with the cause value of cell reselection. When the timer expires, the number of CELL UPDATE messages may be above the threshold (CellReSelectCounter). In this case, the RNC initiates a state transition when the UE sends the CELL UPDATE message again.
The P2U state transition involves the transient state CELL_FACH, in which necessary signaling interactions are performed.
3.6 P2F and U2F State Transition
P2F and U2F state transitions are performed when UTRAN pages the UE or when the UE needs to exchange information with the UTRAN. No parameters are involved.
When the switch RSVDBIT1_BIT20 of RsvdPara1 in the SET URRCTRLSWITCH command is turned on and the UE tries to originate or terminate a CS service and the FACH is congested, the RNC instructs the UE to perform a P2D (instead of P2F) state transition.
When the switch FACH_DTCH_CONGEST_P2D of PROCESSSWITCH2 in the SET URRCTRLSWITCH command is turned on and the UE tries to originate or terminate a PS service and the FACH is congested, the RNC instructs the UE to perform a P2D (instead of P2F) state transition..
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3.7 F2D State Transition
The F2D state transition is performed when the UTRAN receives an event 4A report triggered by the UL or DL traffic volume. The RNC determines the transport channel (DCH, HS-DSCH, or E-DCH) and the target rate.
Table 3-3 lists the target rates for F2D state transition.
Table 3-3 Target rates for F2D state transition
Service Type
Event 4A Threshold
Target Rate
BE service on the DCH
BeF2DTvmThd UL target rate (DCH) = min (MBR, UL rate threshold for DCCC)
DL target rate (DCH) = min (MBR, DL rate threshold for DCCC)
BE service on the HS-DSCH
BeF2HTvmThd UL target rate (DCH) = min (MBR, UL rate threshold for DCCC)
UL target rate (E-DCH) = min (HSUPA rate adjustment set)
DL target rate (HS-DSCH) = MBR
PS real-time service
RtF2DHTvmThd UL target rate (DCH) = MBR
DL target rate (DCH) = MBR
BE service on the E-DCH
BeF2ETvmThd UL target rate (E-DCH) = min (HSUPA rate adjustment set) if HSUPA_DCCC_SWITCH is set to 1
UL target rate (E-DCH) = MBR if HSUPA_DCCC_SWITCH is set to 0.
DL target rate (DCH) = min (MBR, DL rate threshold for DCCC)
DL target rate (H-DSCH) = MBR
3.8 D2D State Transition
For HSDPA and HSUPA, there are two more states: CELL_DCH (with HS-DSCH) and CELL_DCH (with E-DCH).
Figure 3-2 shows how D2D state transition is implemented.
Figure 3-2 D2H/E or H/E2D state transition
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Table 3-4 D2D state transition types
Type Trigger Condition
E2D During a RAB setup, RAB is carried over the E-DCH but resources are insufficient.
During a RAB setup, RAB is carried over the E-DCH but the coverage is insufficient. For details, see the Radio Bearers Feature Parameter Description.
After an HSUPA RAB setup, if the radio coverage is poor during HSUPA data transmission, refer to the descriptions below this table.
The E-DCH serving cell (the best cell) has changed.
The new best cell does not support the E-DCH.
The new best cell does not have enough resources for the E-DCH.
D2E In the preceding E2D scenarios, the RNC may shift the UE from the DCH to the E-DCH.
Periodic attempts to reconfigure to the E-DCH (timer)
Traffic volume (event 4A)
If a UE reports event 6B2 and event 4A and the UE services can be carried on the E-DCH, then the RNC shifts the UE from the DCH to the E-DCH when the transmission rate increases.
H2D RABs are carried over the HS-DSCH but resources are insufficient.
The HS-DSCH serving cell (the best cell) has changed.
The new best cell does not support the HS-DSCH.
The new best cell does not have enough resources for the HS-DSCH.
D2H In the preceding H2D scenarios, the RNC may shift the UE from the DCH to the HS-DSCH.
Periodic attempts to reconfigure to the HS-DSCH (timer)
Traffic volume (event 4A)
Coverage-based Fallback from the E-DCH to the DCH
The coverage-based fallback from the E-DCH to the DCH algorithm is introduced to improve uplink coverage performance of a single UE during HSUPA BE service data transmission. This algorithm is controlled by ReservedSwitch0: RESERVED_SWITCH_0_BIT7.
During HSUPA BE service data transmission, BE service falls back from the E-DCH to the DCH when both the following conditions are met:
The UE reports 6A event.
The UE does not report 6B event after the 6A event.
The UE reports 4B for all HSUPA BE services.
Other services on the UE also fall back to the DCH.
The formula for calculating the threshold of event 6A is as follows:
Threshold of event 6A/6B = Maximum UE transmit power Relative threshold of event 6A for BE service
Where
Maximum UE transmit power is configured by MaxAllowedUlTxPower.
For 2ms TTI, the relative threshold of event 6A for BE service is BeThd6A1, and that for 10 ms TTI is BeThd6A2.
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For 2ms TTI, the relative threshold of event 6A for BE service is BeThd6B1, and that for 10 ms TTI is BeThd6B2.
The threshold of event 4B is E2DThrou4BThd.
A fallback from E-DCH to DCH occurs only in the current cell, which means the inter-frequency directed retry decision (DRD) is not performed.
If the switch for coverage-based fallback from the E-DCH to the DCH (ReservedSwitch0: RESERVED_SWITCH_0_BIT7) is enabled, the algorithm for coverage-based dynamic TTI adjustment of BE services automatically disables. For details about the algorithm for coverage-based dynamic TTI adjustment of BE services, see HSUPA TTI Selection Feature Parameter Description.
Coverage-based Switchback from DCH to the E-DCH
After a UE falls back to the DCH from the E-DCH, the UE does not periodically attempt to switch back to the E-DCH. When the uplink coverage recovers, the UE will be switched back to the E-DCH from the DCH. If the UE reports the event 6B and 4A and does not report 6A afterward, informs the UE of uplink coverage recovery.
The formula for calculating the threshold of event 6B is as follows:
Threshold of event 6B = Maximum UE transmit power Relative threshold of event 6B for BE service (ReservedU8Para1 in SET UCORRMALGOSWITCH)
Threshold of event 6A = Maximum UE transmit power Relative threshold of event 6B for BE service (ReservedU8Para0 in SET UCORRMALGOSWITCH)
For the traffic triggerred 4A, see the DCCC Based on Traffic Volume section in DCCC Feature Parameter Description.
3.9 CPC and EFACH State Transition
This section describes the new functions of state transition introduced in HSPA+.
HSPA+ requires two new states: CELL_DCH (CPC) and enhanced CELL_FACH. The CELL_DCH (CPC) state corresponds to the CELL_DCH state with continuous packet connectivity (CPC) activated, and the enhanced CELL_FACH state corresponds to the CELL_FACH state with enhanced CELL_FACH operation activated.
Figure 3-3 shows the new types of state transitions introduced in HSPA+.
Figure 3-3 New types of state transitions introduced in HSPA+
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These state transitions are triggered by event 4A or 4B. Several new parameters are introduced for these state transitions, compared with state transitions between CELL_DCH and CELL_FACH.
The only impact of the following new state transitions is that new timers to trigger event 4B are introduced.
Type New Timer
CPC2F BeCpc2FStateTransTimer: BE service state transition timer (CPC_HS-DSCH to F/RACH)
RtCpc2FStateTransTimer: real-time service state transition timer (CPC_HSPA to F/RACH)
D2EFACH BeD2EFachStateTransTimer: BE service state transition timer (DCH to E_FACH)
BeH2EFachStateTransTimer: BE service state transition timer (HS-DSCH to E_FACH)
RtDH2EFachStateTransTimer: real-time service state transition timer (DCH or HSPA to E_FACH)
CPC2EFACH BeCpc2EFachStateTransTimer: BE service state transition timer (CPC_HS-DSCH to E_FACH)
RtCpc2EFachStateTransTimer: real-time service state transition timer (CPC_HSPA to E_FACH)
The only impact of the following new state transitions is that new timers and thresholds to trigger event 4A are introduced.
Type New Timer and Event 4A Threshold
F2CPC The new thresholds are as follows:
BeF2CpcHTvmThd: event 4A threshold for BE service state transition (F/RACH to CPC_HS-DSCH)
RtF2CpcTvmThd: event 4A threshold for real-time service state transition (F/RACH to CPC_HSPA)
BeF2CpcETvmThd: event 4A threshold for BE service state transition (F/RACH to CPC_E-DCH)
The new timers are as follows:
BeF2CpcHTvmTimeToTrig: event 4A trigger time for BE service state transition (F/RACH to CPC_HS-DSCH)
RtF2CpcTvmTimeToTrig: event 4A trigger time for real-time service state transition (F/RACH to CPC_HSPA)
BeF2CpcETvmTimeToTrig: event 4A trigger time for real-time service state transition (F/RACH to CPC_E-DCH)
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Type New Timer and Event 4A Threshold
EFACH2D The new thresholds are as follows:
BeEFach2DTvmThd: event 4A threshold for BE service state transition (E_FACH to DCH)
BeEFach2HTvmThd: event 4A threshold for BE service state transition (E_FACH to HS-DSCH)
RtEFach2DHTvmThd: event 4A threshold for real-time service state transition (E_FACH to DCH or HSPA)
The new timers are as follows:
BeEFach2DTvmTimeToTrig: event 4A trigger time for BE service state transition (E-FACH to DCH)
BeEFach2HTvmTimeToTrig: event 4A trigger time for BE service state transition (E_FACH to HS-DSCH)
RtEFach2DHTvmTimeToTrig: event 4A trigger time for real-time service state transition (E_FACH to DCH/HSPA)
EFACH2CPC The new thresholds are as follows:
BeEFach2CpcTvmThd: event 4A threshold for BE service state transition (E_FACH to CPC_HS-DSCH)
RtEFach2CpcTvmThd: event 4A threshold for PS real-time service state transition (E_FACH to CPC_HSPA)
The new timers are as follows:
BeEFach2CpcTvmTimeToTrig: event 4A trigger time for BE service state transition (E_FACH to CPC_HS-DSCH)
RtEFach2CpcTvmTimeToTrig: event 4A trigger time for real-time service state transition (E_FACH to CPC_HSPA)
The function of the state transitions between enhanced CELL_FACH and CELL_PCH is the same as that of the state transitions between CELL_FACH and CELL_PCH.
3.10 Always Online
When the RNC detects that a UE performing a PS service has no data to transmit, the RNC sends a request to the CN for a service connection release. The CN initiates a release procedure, requesting the RNC to release the corresponding radio resources. The CN, however, reserves the Packet Data Protocol (PDP) context for this PS service of the UE. When the UE reinitiates the service of this PDP context, it does not need to apply for the PDP context again. Therefore, the UE in the PS domain is always online.
For each PS RAB, two Packet Data Convergence Protocol (PDCP) timers, namely T1 and T2, are available. Service connection release when a UE has no data to transmit is implemented based on these two timers. The values of T1 and T2 for different services are set by the parameters listed in Table 3-5.
SET UPSINACTTIMER is used to set the PS inactivity timers (RNC-level). If inactivity detection is not required for a particular service, set T1 and T2 to 0.
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Table 3-5 Parameters related to T1 and T2
Service type T1 T2
Conversational service PsInactTmrForCon ProtectTmrForCon
Streaming service PsInactTmrForStr ProtectTmrForStr
Interactive service PsInactTmrForInt ProtectTmrForInt
Background service PsInactTmrForBac ProtectTmrForBac
IMS signaling PSInactTmrForImsSig ProtectTmrForImsSig
Figure 3-4 shows the service connection release procedure when a UE has no data to transmit.
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State Transition 3 Technical Description
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Figure 3-4 Service connection release procedure when a UE has no data to transmit
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State Transition 3 Technical Description
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The service connection release procedure is as follows:
1. When the PDCP entity of a service is set up, timer T1 is started.
2. If the PDCP entity still detects that there is no UL or DL data packet when the T1 timer expires, the PDCP entity sends a service connection release request to the RRC layer and starts the T2 timer.
3. If the CN does not initiate the service connection release, the PDCP entity continues to detect data packets. If the PDCP entity still detects that there is no UL or DL data packet when the T2 timer expires, the PDCP entity sends a service connection release request to the RRC layer.
If there is only one RAB for the UE in the PS domain, the RNC sends an IU RELEASE REQUEST message to the CN.
If there is more than one RAB for the UE in the PS domain, the RNC sends a RAB RELEASE REQUEST message to the CN.
The two messages indicate the release causes in the User Inactivity IE.
4. Upon receiving the message, the CN initiates the release procedure. At the same time, the CN reserves the PDP context for the service. When the UE reinitiates the service of this PDP context, it does not have to apply for the PDP context again.
The service connection release request from the PDCP entity may not be processed in time because the associated processor in the RNC is busy.
3.11 PCH Blacklist
Huawei provides the PCH blacklist function to address the compatibility issue of certain types of UEs in CELL_PCH or URA_PCH state. A PCH blacklist consists of type allocation codes (TACs) of international mobile equipment identities (IMEIs). Operators add TACs of certain UEs to the PCH blacklist. The RNC determines whether the TAC of an IMEI carried in the UE-reported Identity Request message is on the PCH blacklist.
To add a TAC of a certain UE to the PCH blacklist, an operator needs to set the TAC_FUNC parameter to
Fast_Dormancy and select RSVDBIT1_BIT4 of the PROCESSSWITCH parameter, set the FastDormancy parameter to ON, and then run the ADD UIMEITAC command to add the TAC to the TAC text box.
When a UE is to transit from the CELL_DCH or CELL_FACH state to the CELL_PCH or URA_PCH state, the RNC determines whether the UE's TAC is on the PCH blacklist. If so, the RNC forbids the state transition for the UE and directly releases the RRC connection with the UE.
An IMEI consists of 14 decimal digits plus a check digit. It includes 8-digit TAC, 6-digit serial number (SNR), and 1-digit spare digit.
TAC identifies an authenticated device type.
SNR defines serial number of the UE.
The structure of an IMEI is specified in 3GPP TS 23.003. Following is the composition of an IMEI:
TAC (8bit) SNR (6bit) Spare (1bit)
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State Transition 4 Parameters
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4 Parameters
Table 4-1 Parameter description
Parameter ID
NE MML Command
Feature ID Feature Name
Description
BeCpc2EFachStateTransTimer
BSC6900
SET UUESTATETRANSTIMER(Optional)
WRFD-010686
WRFD-010687
WRFD-010688
CPC - DTX / DRX
CPC - HS-SCCH less operation
Downlink Enhanced CELL_FACH
Meaning:Timer for state transition from CPC to E_FACH of BE services, used to check whether the UE in the CELL_DCH(with CPC) state with BE services is in the stable low activity state.
GUI Value Range:1~65535
Actual Value Range:1~65535
Unit:s
Default Value:5
BeCpc2FStateTransTimer
BSC6900
SET UUESTATETRANSTIMER(Optional)
WRFD-010686
WRFD-010687
CPC - DTX / DRX
CPC - HS-SCCH less operation
Meaning:Timer for state transition from CPC to FACH of BE services, used to check whether the UE in the CELL_DCH(with CPC) state with BE services is in the stable low activity state.
GUI Value Range:1~65535
Actual Value Range:1~65535
Unit:s
Default Value:5
BeD2EFachStateTransTimer
BSC6900
SET UUESTATETRANSTIMER(Optional)
WRFD-010688
Downlink Enhanced CELL_FACH
Meaning:Timer for state transition from DCH to E_FACH of BE services, used to check whether the UE in the CELL_DCH(with DCH) state with BE services is in the stable low activity state.
GUI Value Range:1~65535
Actual Value Range:1~65535
Unit:s
Default Value:5
BeD2FStateTransTimer
BSC6900
SET UUESTATETRANSTIMER(Optional)
WRFD-010202
UE State in Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
Meaning:Timer for state transition from DCH to FACH of BE services, used to check whether the UE in the CELL_DCH state with BE services is in the stable low activity state.
GUI Value Range:1~65535
Actual Value Range:1~65535
Unit:s
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
Default Value:5
BeE2FStateTransTimer
BSC6900
SET UUESTATETRANSTIMER(Optional)
WRFD-010202
UE State in Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
Meaning:Timer for state transition from E-DCH to FACH of BE services, used to check whether the UE in the CELL_DCH(with E-DCH) state with BE services is in the stable low activity state.
GUI Value Range:1~65535
Actual Value Range:1~65535
Unit:s
Default Value:5
BeEFach2CpcTvmThd
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010688
WRFD-010686
WRFD-010687
Downlink Enhanced CELL_FACH
CPC - DTX / DRX
CPC - HS-SCCH less operation
Meaning:This parameter specifies the threshold of the traffic volume of 4A event for triggering the transition of BE services from E_FACH to CPC.
GUI Value Range:D16, D32, D64, D128, D256, D512, D1024, D2k, D3k, D4k, D6k, D8k, D12k, D16k, D24k, D32k, D48k, D64k, D96k, D128k, D192k, D256k, D384k, D512k, D768k
Actual Value Range:16, 32, 64, 128, 256, 512, 1024, 2k, 3k, 4k, 6k, 8k, 12k, 16k, 24k, 32k, 48k, 64k, 96k, 128k, 192k, 256k, 384k, 512k, 768k
Unit:byte
Default Value:D1024
BeEFach2CpcTvmTimeToTrig
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010688
WRFD-010686
WRFD-010687
Downlink Enhanced CELL_FACH
CPC - DTX / DRX
CPC - HS-SCCH less operation
Meaning:This parameter specifies the occurrence time of 4A event for triggering the transition of BE services from E_FACH to CPC. This parameter can prevent unnecessary reports to be triggered, caused by traffic volume variation.
GUI Value Range:D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D240, D320, D640, D1280, D2560, D5000
Actual Value Range:0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000
Unit:ms
Default Value:D0
BeEFach2 BSC69 SET WRFD-010 Downlink Meaning:This parameter specifies the
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
DTvmThd 00 UUESTATETRANS(Optional)
688 Enhanced CELL_FACH
threshold of the traffic volume of 4A event for triggering the transition of BE services from E_FACH to DCH.
GUI Value Range:D16, D32, D64, D128, D256, D512, D1024, D2k, D3k, D4k, D6k, D8k, D12k, D16k, D24k, D32k, D48k, D64k, D96k, D128k, D192k, D256k, D384k, D512k, D768k
Actual Value Range:16, 32, 64, 128, 256, 512, 1024, 2k, 3k, 4k, 6k, 8k, 12k, 16k, 24k, 32k, 48k, 64k, 96k, 128k, 192k, 256k, 384k, 512k, 768k
Unit:byte
Default Value:D1024
BeEFach2DTvmTimeToTrig
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010688
Downlink Enhanced CELL_FACH
Meaning:This parameter specifies the occurrence time of 4A event for triggering the transition of BE services from E_FACH to DCH. This parameter can prevent unnecessary reports to be triggered, caused by traffic volume variation.
GUI Value Range:D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D240, D320, D640, D1280, D2560, D5000
Actual Value Range:0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000
Unit:ms
Default Value:D0
BeEFach2HTvmThd
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010688
Downlink Enhanced CELL_FACH
Meaning:This parameter specifies the threshold of the traffic volume of 4A event for triggering the transition of BE services from E_FACH to HS-DSCH.
GUI Value Range:D16, D32, D64, D128, D256, D512, D1024, D2k, D3k, D4k, D6k, D8k, D12k, D16k, D24k, D32k, D48k, D64k, D96k, D128k, D192k, D256k, D384k, D512k, D768k
Actual Value Range:16, 32, 64, 128, 256, 512, 1024, 2k, 3k, 4k, 6k, 8k, 12k, 16k, 24k, 32k, 48k, 64k, 96k, 128k, 192k, 256k, 384k, 512k, 768k
Unit:byte
Default Value:D1024
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
BeEFach2HTvmTimeToTrig
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010688
Downlink Enhanced CELL_FACH
Meaning:This parameter specifies the occurrence time of 4A event for triggering the transition of BE services from E_FACH to HS-DSCH. This parameter can prevent unnecessary reports to be triggered, caused by traffic volume variation.
GUI Value Range:D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D240, D320, D640, D1280, D2560, D5000
Actual Value Range:0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000
Unit:ms
Default Value:D0
BeF2CpcETvmThd
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010686
WRFD-010687
CPC - DTX / DRX
CPC - HS-SCCH less operation
Meaning:This parameter specifies the threshold of the traffic volume of 4A event for triggering the transition of BE services from FACH to E-DCH with CPC technology.
GUI Value Range:D16, D32, D64, D128, D256, D512, D1024, D2k, D3k, D4k, D6k, D8k, D12k, D16k, D24k, D32k, D48k, D64k, D96k, D128k, D192k, D256k, D384k, D512k, D768k
Actual Value Range:16, 32, 64, 128, 256, 512, 1024, 2k, 3k, 4k, 6k, 8k, 12k, 16k, 24k, 32k, 48k, 64k, 96k, 128k, 192k, 256k, 384k, 512k, 768k
Unit:byte
Default Value:D1024
BeF2CpcETvmTimeToTrig
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010686
WRFD-010687
CPC - DTX / DRX
CPC - HS-SCCH less operation
Meaning:This parameter specifies the occurrence time of 4A event for triggering the transition of BE services from FACH to E-DCH with CPC technology. This parameter can prevent unnecessary reports to be triggered, caused by traffic volume variation.
GUI Value Range:D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D240, D320, D640, D1280, D2560, D5000
Actual Value Range:0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000
Unit:ms
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
Default Value:D0
BeF2CpcHTvmThd
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010686
WRFD-010687
CPC - DTX / DRX
CPC - HS-SCCH less operation
Meaning:This parameter specifies the threshold of the traffic volume of 4A event for triggering the transition of BE services from FACH to HS-DSCH with CPC technology.
GUI Value Range:D16, D32, D64, D128, D256, D512, D1024, D2k, D3k, D4k, D6k, D8k, D12k, D16k, D24k, D32k, D48k, D64k, D96k, D128k, D192k, D256k, D384k, D512k, D768k
Actual Value Range:16, 32, 64, 128, 256, 512, 1024, 2k, 3k, 4k, 6k, 8k, 12k, 16k, 24k, 32k, 48k, 64k, 96k, 128k, 192k, 256k, 384k, 512k, 768k
Unit:byte
Default Value:D1024
BeF2CpcHTvmTimeToTrig
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010686
WRFD-010687
CPC - DTX / DRX
CPC - HS-SCCH less operation
Meaning:This parameter specifies the occurrence time of 4A event for triggering the transition of BE services from FACH to HS-DSCH with CPC technology. This parameter can prevent unnecessary reports to be triggered, caused by traffic volume variation.
GUI Value Range:D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D240, D320, D640, D1280, D2560, D5000
Actual Value Range:0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000
Unit:ms
Default Value:D0
BeF2DTvmThd
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010202
UE State in Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
Meaning:This parameter specifies the threshold of the traffic volume of 4A event for triggering the transition of BE services from FACH to DCH.
GUI Value Range:D16, D32, D64, D128, D256, D512, D1024, D2k, D3k, D4k, D6k, D8k, D12k, D16k, D24k, D32k, D48k, D64k, D96k, D128k, D192k, D256k, D384k, D512k, D768k
Actual Value Range:16, 32, 64, 128, 256, 512, 1024, 2k, 3k, 4k, 6k, 8k, 12k, 16k, 24k, 32k, 48k, 64k, 96k, 128k, 192k, 256k, 384k, 512k,
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State Transition 4 Parameters
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
768k
Unit:byte
Default Value:D1024
BeF2ETvmThd
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010202
UE State in Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
Meaning:This parameter specifies the threshold of the traffic volume of 4A event for triggering the transition of BE services from FACH to E-DCH.
GUI Value Range:D16, D32, D64, D128, D256, D512, D1024, D2k, D3k, D4k, D6k, D8k, D12k, D16k, D24k, D32k, D48k, D64k, D96k, D128k, D192k, D256k, D384k, D512k, D768k
Actual Value Range:16, 32, 64, 128, 256, 512, 1024, 2k, 3k, 4k, 6k, 8k, 12k, 16k, 24k, 32k, 48k, 64k, 96k, 128k, 192k, 256k, 384k, 512k, 768k
Unit:byte
Default Value:D1024
BeF2HTvmThd
BSC6900
SET UUESTATETRANS(Optional)
WRFD-01061111
HSDPA State Transition
Meaning:This parameter specifies the threshold of the traffic volume of 4A event for triggering the transition of BE services from FACH to HS-DSCH.
GUI Value Range:D16, D32, D64, D128, D256, D512, D1024, D2k, D3k, D4k, D6k, D8k, D12k, D16k, D24k, D32k, D48k, D64k, D96k, D128k, D192k, D256k, D384k, D512k, D768k
Actual Value Range:16, 32, 64, 128, 256, 512, 1024, 2k, 3k, 4k, 6k, 8k, 12k, 16k, 24k, 32k, 48k, 64k, 96k, 128k, 192k, 256k, 384k, 512k, 768k
Unit:byte
Default Value:D1024
BeF2PStateTransTimer
BSC6900
SET UUESTATETRANSTIMER(Optional)
WRFD-010202
UE State in Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
Meaning:Timer for state transition from FACH or E_FACH to PCH of BE services, used to check whether the UE in the CELL_FACH state is in the stable low activity state.
GUI Value Range:1~65535
Actual Value Range:1~65535
Unit:s
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State Transition 4 Parameters
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
Default Value:65535
BeH2EFachStateTransTimer
BSC6900
SET UUESTATETRANSTIMER(Optional)
WRFD-010688
Downlink Enhanced CELL_FACH
Meaning:Timer for state transition from HSPA to E_FACH of BE services, used to check whether the UE in the CELL_DCH(with HSPA) state with BE services is in the stable low activity state.
GUI Value Range:1~65535
Actual Value Range:1~65535
Unit:s
Default Value:5
BeH2FStateTransTimer
BSC6900
SET UUESTATETRANSTIMER(Optional)
WRFD-010202
WRFD-01061111
UE State in Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
HSDPA State Transition
Meaning:Timer for state transition from HS-DSCH to FACH of BE services, used to check whether the UE in the CELL_DCH(with HS-DSCH) state with BE services is in the stable low activity state.
GUI Value Range:1~65535
Actual Value Range:1~65535
Unit:s
Default Value:5
BeH2FTvmPTAT
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010202
WRFD-01061111
UE State in Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
HSDPA State Transition
Meaning:Pending time after the traffic volume event 4B for state transition from HSPA to FACH is reported. This parameter is used to prevent too many traffic volume events 4B being reported.
GUI Value Range:D250, D500, D1000, D2000, D4000, D8000, D16000
Actual Value Range:250, 500, 1000, 2000, 4000, 8000, 16000
Unit:ms
Default Value:D1000
BeH2FTvmThd
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010202
WRFD-01061111
UE State in Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FAC
Meaning:This parameter is used to check whether the UE in the low activity state. If the UE is on HS-DSCH channel, the low activity counter increases by 1 every time traffic volume event 4B is reported.
GUI Value Range:D8, D16, D32, D64, D128, D256, D512, D1024, D2k, D3k, D4k, D6k, D8k,
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State Transition 4 Parameters
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
H)
HSDPA State Transition
D12k, D16k, D24k, D32k, D48k, D64k, D96k, D128k, D192k, D256k, D384k, D512k, D768k
Actual Value Range:8, 16, 32, 64, 128, 256, 512, 1024, 2k, 3k, 4k, 6k, 8k, 12k, 16k, 24k, 32k, 48k, 64k, 96k, 128k, 192k, 256k, 384k, 512k, 768k
Unit:byte
Default Value:D64
BeH2FTvmTimeToTrig
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010202
WRFD-01061111
UE State in Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
HSDPA State Transition
Meaning:When the traffic volume is below the 4B threshold and remains so for the period specified by this parameter, the event 4B is reported. This parameter can prevent unnecessary reports to be triggered, caused by traffic volume variation.
GUI Value Range:D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D240, D320, D640, D1280, D2560, D5000
Actual Value Range:0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000
Unit:ms
Default Value:D5000
BeThd6A1 BSC6900
SET UEDCHTTIRECFG(Optional)
WRFD-010690
TTI Switch for BE Services Based on Coverage
Meaning:Threshold for triggering event 6A1 for BE services. Event 6A1 is reported through a measurement report, and is triggered when the transmit power of a UE is greater than the absolute threshold for triggering event 6A1. The value of this parameter is a relative threshold, which is calculated as follows: Absolute threshold for triggering event 6A1 = Maximum uplink transmit power - Value of this parameter.
GUI Value Range:0~82
Actual Value Range:0~82
Unit:dB
Default Value:3
BeThd6A2 BSC6900
SET UEDCHTTIRECFG(Optional)
WRFD-010690
TTI Switch for BE Services Based on
Meaning:Threshold for triggering event 6A2 for BE services. Event 6A2 is reported through a measurement report, and is triggered when the transmit power of a UE is greater than the absolute threshold for triggering event 6A2.
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State Transition 4 Parameters
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
Coverage The value of this parameter is a relative threshold, which is calculated as follows: Absolute threshold for triggering event 6A2 = Maximum uplink transmit power - Value of this parameter.
GUI Value Range:0~82
Actual Value Range:0~82
Unit:dB
Default Value:4
BeThd6B1 BSC6900
SET UEDCHTTIRECFG(Optional)
WRFD-010690
TTI Switch for BE Services Based on Coverage
Meaning:Threshold for triggering event 6B1 for BE services. Event 6B1 is reported through a measurement report, and is triggered when the transmit power of a UE is smaller than the absolute threshold for triggering event 6B1. The value of this parameter is a relative threshold, which is calculated as follows: Absolute threshold for triggering event 6B1 = Maximum uplink transmit power - Value of this parameter.
GUI Value Range:0~82
Actual Value Range:0~82
Unit:dB
Default Value:3
BeThd6B2 BSC6900
SET UEDCHTTIRECFG(Optional)
WRFD-010690
TTI Switch for BE Services Based on Coverage
Meaning:Threshold for triggering event 6B2 for BE services. Event 6B2 is reported through a measurement report, and is triggered when the transmit power of a UE is smaller than the absolute threshold for triggering event 6B2. The value of this parameter is a relative threshold, which is calculated as follows: Absolute threshold for triggering event 6B2 = Maximum uplink transmit power - Value of this parameter.
GUI Value Range:0~82
Actual Value Range:0~82
Unit:dB
Default Value:4
CellReSelectCounter
BSC6900
SET UUESTATETRANS(Op
WRFD-010202
UE State in Connected Mode
Meaning:If the times the UE in the CELL_PCH state performs cell reselection is greater than or equal to the threshold, it is regarded that the
WCDMA RAN
State Transition 4 Parameters
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Copyright Huawei Technologies Co., Ltd
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
tional) (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
cell reselection is frequent. When the timer expires, the target state is set to URA_PCH. In the next cell update procedure, the UE is informed of state transition to URA_PCH in the CELL_UPDATE_CONFIRM message.
GUI Value Range:1~65535
Actual Value Range:1~65535
Unit:None
Default Value:9
CellReSelectTimer
BSC6900
SET UUESTATETRANSTIMER(Optional)
WRFD-010202
UE State in Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
Meaning:Length of the cell reselection frequency timer. This parameter is used together with CellReSelectCounter to detect the frequency of cell reselection of the UE in the CELL_PCH state.
GUI Value Range:1~65535
Actual Value Range:1~65535
Unit:s
Default Value:180
CfgSwitch BSC6900
SET UCORRMALGOSWITCH(Optional)
WRFD-010615
WRFD-01061501
WRFD-01061502
WRFD-01061503
WRFD-01061504
WRFD-010683
WRFD-010684
WRFD-010686
WRFD-010687
WRFD-011500
Multiple RAB Package
Combination of Two PS Services
Combination of One CS Service and Two PS Services
Combination of Three PS Services
Combination of One CS Service and Three PS Services
Downlink
Meaning:Channel configuration strategy switch group.
1) CFG_DL_BLIND_DETECTION_SWITCH: When the switch is on, the DL blind transport format detection function is used for single SRB and AMR+SRB bearers. Note that the UE is only required to support the blind transport format stipulated in 3GPP 25.212 section 4.3.1.
2) CFG_HSDPA_64QAM_SWITCH: When the switch is on, 64QAM can be configured for the HSDPA service.
3) CFG_HSDPA_DC_SWITCH: When the switch is on, DC can be configured for the HSDPA service.
4) CFG_HSDPA_MIMO_SWITCH: When the switch is on, MIMO can be configured for the HSDPA service.
5) CFG_HSDPA_MIMO_WITH_64QAM_SWITCH: When the switch is on and the switches for 64QAM and MIMO are on, 64QAM+MIMO can be configured for the HSDPA service
WCDMA RAN
State Transition 4 Parameters
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Copyright Huawei Technologies Co., Ltd
4-11
Parameter ID
NE MML Command
Feature ID Feature Name
Description
WRFD-011501
WRFD-02060504
WRFD-010697
WRFD-010699
WRFD-010693
WRFD-010694
WRFD-010696
64 QAM
2 x 2 MIMO
CPC - DTX / DRX
CPC - HS-SCCH less operation
PDCP Header Compression (RFC2507)
PDCP Header Compression (RoHC)
Lossless SRNS Relocation
E-DPCCH Boosting
DC-HSDPA+MIMO
DL 64QAM+MIMO
UL 16QAM
DC-HSDPA
6) CFG_HSPA_DTX_DRX_SWITCH: When the switch is on, DTX_DRX can be configured for the HSPA service.
7) CFG_HSPA_HSSCCH_LESS_OP_SWITCH: When the switch is on, HS-SCCH Less Operation can be configured for the HSPA service.
8) CFG_HSUPA_16QAM_SWITCH: When the switch is on, 16QAM can be configured for the HSUPA service.
9) CFG_IMS_SUPPORT_SWITCH: When the switch is on and the IMS license is activated, the RNC supports IMS signaling.
10) CFG_LOSSLESS_DLRLC_PDUSIZECHG_SWITCH: When the switch is on, DL lossless RLC PDU size change is supported.
11) CFG_LOSSLESS_RELOC_CFG_SWITCH: When the switch is on and the UE supports lossless relocation, the RNC configures lossless relocation for PDCP parameters if the requirements of RLC mode, discard mode, and sequential submission are met. Then, lossless relocation is used for the UE.
12) CFG_MULTI_RAB_SWITCH: When the switch is on, the RNC supports multi-RABs combinations such as 2CS, 2CS+1PS, 1CS+2PS, and 2PS.
13) CFG_PDCP_IPV6_HEAD_COMPRESS_SWITCH: When the switch is on and the PDCP Header compression license is activated, the PDCP header compression algorithm for IPv6 is used at the RNC.
14) CFG_PDCP_RFC2507_HC_SWITCH: When the switch is on and the PDCP Header compression license is activated, the PDCP RFC2507 header compression algorithm is used for the RNC.
15) CFG_PDCP_RFC3095_HC_SWITCH: When the switch is on and the PDCP ROHC license is activated, the PDCP RFC3095 header compression algorithm is used for the RNC.
WCDMA RAN
State Transition 4 Parameters
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Copyright Huawei Technologies Co., Ltd
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
16) CFG_PTT_SWITCH: When this switch is on, the RNC identifies the PTT user based on the QoS attributes in the RAB assignment request message. Then, the PTT users are subject to special processing.
17) CFG_RAB_REL_RMV_HSPAPLUS_SWITCH: When this switch is on and if an RAB release is performed, the RNC decides whether to fall back a certain HSPA(HSPA+) feature based on the requirement of remaining traffic carried by the UE. That is, if an HSPA+ feature is required by the previously released RAB connection but is not required in the initial bearer policy of the remaining traffic, the RNC falls back the feature to save the transmission resources. The HSPA+ features that support the fallback are MIMO, 64QAM, MIMO+64QAM, UL 16QAM, DC-HSDPA, and UL TTI 2ms.
18) CFG_EDPCCH_BOOSTING_SWITCH: When the switch is on, Boosting can be configured for the HSUPA service.
19) CFG_HSDPA_DCMIMO_SWITCH: When this switch is turned on, DC+MIMO can be configured for the HSDPA service.
20) CFG_FREE_USER_SWITCH: When this switch is turned on, special handling for free access user is enabled.
21) CFG_DC_MIMO_DYNAMIC_SELECT_SWITCH: When this switch is turned on, the RNC determines whether to enable the DC-HSDPA or MIMO feature for a newly admitted user based on the cell load and the number of HSDPA users.
GUI Value Range:CFG_DL_BLIND_DETECTION_SWITCH, CFG_HSDPA_64QAM_SWITCH, CFG_HSDPA_DC_SWITCH, CFG_HSDPA_MIMO_SWITCH, CFG_HSDPA_MIMO_WITH_64QAM_SWITCH, CFG_HSPA_DTX_DRX_SWITCH, CFG_HSPA_HSSCCH_LESS_OP_SWITCH, CFG_HSUPA_16QAM_SWITCH, CFG_IMS_SUPPORT_SWITCH, CFG_LOSSLESS_DLRLC_PDUSIZECHG_SWITCH, CFG_LOSSLESS_RELOC_CFG_SWITCH,
WCDMA RAN
State Transition 4 Parameters
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Copyright Huawei Technologies Co., Ltd
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
CFG_MULTI_RAB_SWITCH, CFG_PDCP_IPV6_HEAD_COMPRESS_SWITCH, CFG_PDCP_RFC2507_HC_SWITCH, CFG_PDCP_RFC3095_HC_SWITCH, CFG_PTT_SWITCH, CFG_RAB_REL_RMV_HSPAPLUS_SWITCH, CFG_EDPCCH_BOOSTING_SWITCH, CFG_HSDPA_DCMIMO_SWITCH, CFG_FREE_USER_SWITCH, CFG_DC_MIMO_DYNAMIC_SELECT_SWITCH
Actual Value Range:CFG_DL_BLIND_DETECTION_SWITCH, CFG_HSDPA_64QAM_SWITCH, CFG_HSDPA_DC_SWITCH, CFG_HSDPA_MIMO_SWITCH, CFG_HSDPA_MIMO_WITH_64QAM_SWITCH, CFG_HSPA_DTX_DRX_SWITCH, CFG_HSPA_HSSCCH_LESS_OP_SWITCH, CFG_HSUPA_16QAM_SWITCH, CFG_IMS_SUPPORT_SWITCH, CFG_LOSSLESS_DLRLC_PDUSIZECHG_SWITCH, CFG_LOSSLESS_RELOC_CFG_SWITCH, CFG_MULTI_RAB_SWITCH, CFG_PDCP_IPV6_HEAD_COMPRESS_SWITCH, CFG_PDCP_RFC2507_HC_SWITCH, CFG_PDCP_RFC3095_HC_SWITCH, CFG_PTT_SWITCH, CFG_RAB_REL_RMV_HSPAPLUS_SWITCH, CFG_EDPCCH_BOOSTING_SWITCH, CFG_HSDPA_DCMIMO_SWITCH, CFG_FREE_USER_SWITCH, CFG_DC_MIMO_DYNAMIC_SELECT_SWITCH
Unit:None
Default Value:None
D2F2PTvmThd
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010202
UE State in Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
Meaning:This parameter is used to check whether the UE in the low activity state. If the UE is on DCH channel, the low activity counter increases by 1 every time traffic volume event 4B is reported. If the UE is on FACH channel, the low activity counter increases by 1 if the traffic volume is 0 in the traffic volume event 4B report.
GUI Value Range:D8, D16, D32, D64, D128, D256, D512, D1024, D2k, D3k, D4k, D6k, D8k, D12k, D16k, D24k, D32k, D48k, D64k, D96k,
WCDMA RAN
State Transition 4 Parameters
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Copyright Huawei Technologies Co., Ltd
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
D128k, D192k, D256k, D384k, D512k, D768k
Actual Value Range:8, 16, 32, 64, 128, 256, 512, 1024, 2k, 3k, 4k, 6k, 8k, 12k, 16k, 24k, 32k, 48k, 64k, 96k, 128k, 192k, 256k, 384k, 512k, 768k
Unit:byte
Default Value:D64
D2FTvmPTAT
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010202
UE State in Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
Meaning:Pending time after the traffic volume event 4B for state transition from DCH to FACH is reported. This parameter is used to prevent too many traffic volume events 4B being reported.
GUI Value Range:D250, D500, D1000, D2000, D4000, D8000, D16000
Actual Value Range:250, 500, 1000, 2000, 4000, 8000, 16000
Unit:ms
Default Value:D1000
D2FTvmTimeToTrig
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010202
UE State in Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
Meaning:When the traffic volume is below the 4B threshold and remains so for the period specified by this parameter, the event 4B is reported. This parameter can prevent unnecessary reports to be triggered, caused by traffic volume variation.
GUI Value Range:D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D240, D320, D640, D1280, D2560, D5000
Actual Value Range:0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000
Unit:ms
Default Value:D5000
DcccStg BSC6900
SET UDCCC(Optional)
WRFD-021101
Dynamic Channel Configuration Control (DCCC)
Meaning:Strategy for adjustment of the rate of the PS BE service when the UE is in the CELL_DCH state. RATE_UP_AND_DOWN_ON_DCH indicates that the rate over the DCH can be raised or lowered. RATE_UP_ONLY indicates that the rate over the DCH can only be raised. When UE is in low activity state, it is no need to degrade the traffic rate to the threshold for
WCDMA RAN
State Transition 4 Parameters
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Copyright Huawei Technologies Co., Ltd
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
DCCC before state transition to CELL_FACH. That means UE can transit to CELL_FACH state at any rate.
GUI Value Range:RATE_UP_AND_DOWN_ON_DCH, RATE_UP_ONLY_ON_DCH
Actual Value Range:RATE_UP_AND_DOWN_ON_DCH, RATE_UP_ONLY_ON_DCH
Unit:None
Default Value:RATE_UP_AND_DOWN_ON_DCH
DlDcccRateThd
BSC6900
SET UDCCC(Optional)
WRFD-021101
Dynamic Channel Configuration Control (DCCC)
Meaning:For a BE service that has a low maximum rate, the DCCC algorithm is not obviously effective yet it increases algorithm processing. Thus, the traffic-based DCCC algorithm is applied to BE services whose maximum DL rate is greater than the threshold.
GUI Value Range:D8, D16, D32, D64, D128, D144, D256, D384
Actual Value Range:8, 16, 32, 64, 128, 144, 256, 384
Unit:kbit/s
Default Value:D64
DraSwitch BSC6900
SET UCORRMALGOSWITCH(Optional)
WRFD-01061111
WRFD-01061208
WRFD-01061404
WRFD-011502
WRFD-021101
WRFD-050405
WRFD-050408
WRFD-010
HSDPA State Transition
HSUPA DCCC
HSUPA 2ms/10ms TTI Handover
Active Queue Management (AQM)
Dynamic Channel Configuration Control
Meaning:Dynamic resource allocation switch group.
1) DRA_AQM_SWITCH: When the switch is on, the active queue management algorithm is used for the RNC.
2) DRA_BASE_ADM_CE_BE_TTI_L2_OPT_SWITCH: When the switch is on, the TTI dynamic adjustment algorithm for admission CE-based BE services applies to the UE with the UL enhanced L2 feature. This parameter is valid when DRA_BASE_ADM_CE_BE_TTI_RECFG_SWITCH(DraSwitch) is set to ON.
3) DRA_BASE_ADM_CE_BE_TTI_RECFG_SWITCH: When the switch is on, the TTI dynamic adjustment algorithm is supported for
WCDMA RAN
State Transition 4 Parameters
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Copyright Huawei Technologies Co., Ltd
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
690 (DCCC)
Overbooking on ATM Transmission
Overbooking on IP Transmission
TTI Switch for BE Services Based on Coverage
admission CE-based BE services.
4) DRA_BASE_COVER_BE_TTI_L2_OPT_SWITCH: When the switch is on, the TTI dynamic adjustment algorithm for coverage-based BE services applies to the UE with the UL enhanced L2 feature. This parameter is valid when DRA_BASE_COVER_BE_TTI_RECFG_SWITCH(DraSwitch) is set to ON.
5) DRA_BASE_COVER_BE_TTI_RECFG_SWITCH: When the switch is on, the TTI dynamic adjustment algorithm is supported for coverage-based BE services.
6) DRA_BASE_RES_BE_TTI_L2_OPT_SWITCH: When the switch is on, the TTI dynamic adjustment algorithm for differentiation-based BE services applies to the UE with the UL enhanced L2 feature. This parameter is valid when DRA_BASE_RES_BE_TTI_RECFG_SWITCH(DraSwitch) is set to ON.
7) DRA_BASE_RES_BE_TTI_RECFG_SWITCH: When the switch is on, the TTI dynamic adjustment algorithm is supported for differentiation-based BE services.
8) DRA_DCCC_SWITCH: When the switch is on, the dynamic channel reconfiguration control algorithm is used for the RNC.
9) DRA_HSDPA_DL_FLOW_CONTROL_SWITCH: When the switch is on, flow control is enabled for HSDPA services in AM mode.
10) DRA_HSDPA_STATE_TRANS_SWITCH: When the switch is on, the status of the UE RRC that carrying HSDPA services can be changed to CELL_FACH at the RNC. If a PS BE service is carried over the HS-DSCH, the switch PS_BE_STATE_TRANS_SWITCH should be on simultaneously. If a PS real-time service is carried over the HS-DSCH, the switch PS_NON_BE_STATE_TRANS_SWITCH should be on simultaneously.
WCDMA RAN
State Transition 4 Parameters
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Copyright Huawei Technologies Co., Ltd
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
11) DRA_HSUPA_DCCC_SWITCH: When the switch is on, the DCCC algorithm is used for HSUPA. The DCCC switch must be also on before this switch takes effect.
12) DRA_HSUPA_STATE_TRANS_SWITCH: When the switch is on, the status of the UE RRC that carrying HSUPA services can be changed to CELL_FACH at the RNC. If a PS BE service is carried over the E-DCH, the switch PS_BE_STATE_TRANS_SWITCH should be on simultaneously. If a PS real-time service is carried over the E-DCH, the switch PS_NON_BE_STATE_TRANS_SWITCH should be on simultaneously.
13) DRA_IP_SERVICE_QOS_SWITCH: Switch of the algorithm for increasing the quality of subscribed services. When this parameter is set to ON, the service priority weight of the subscriber whose key parameters (IP Address, IP Port, and IP Protocol Type) match the specified ones can be adjusted. In this way, the QoS is improved.
14) DRA_PS_BE_STATE_TRANS_SWITCH: When the switch is on, UE RRC status transition (CELL_FACH/CELL_PCH/URA_PCH) is allowed at the RNC.
15) DRA_PS_NON_BE_STATE_TRANS_SWITCH: When the switch is on, the status of the UE RRC that carrying real-time services can be changed to CELL_FACH at the RNC.
16) DRA_R99_DL_FLOW_CONTROL_SWITCH: Under a poor radio environment, the QoS of high speed services drops considerably and the TX power is overly high. In this case, the RNC can set restrictions on certain transmission formats based on the transmission quality, thus lowering traffic speed and TX power. When the switch is on, the R99 downlink flow control function is enabled.
17) DRA_THROUGHPUT_DCCC_SWITCH: When the switch is on, the DCCC based on traffic statistics is supported over the DCH.
18) DRA_VOICE_SAVE_CE_SWITCH: when the switch is on, the TTI selection based on the voice service type (including VoIP and CS over
WCDMA RAN
State Transition 4 Parameters
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Copyright Huawei Technologies Co., Ltd
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
HSPA) is supported when the service is initially established.
19) DRA_VOICE_TTI_RECFG_SWITCH: when the switch is on, the TTI adjustment based on the voice service type (including VoIP and CS over HSPA) is supported.
GUI Value Range:DRA_AQM_SWITCH, DRA_BASE_ADM_CE_BE_TTI_L2_OPT_SWITCH, DRA_BASE_ADM_CE_BE_TTI_RECFG_SWITCH, DRA_BASE_COVER_BE_TTI_L2_OPT_SWITCH, DRA_BASE_COVER_BE_TTI_RECFG_SWITCH, DRA_BASE_RES_BE_TTI_L2_OPT_SWITCH, DRA_BASE_RES_BE_TTI_RECFG_SWITCH, DRA_DCCC_SWITCH, DRA_HSDPA_DL_FLOW_CONTROL_SWITCH, DRA_HSDPA_STATE_TRANS_SWITCH, DRA_HSUPA_DCCC_SWITCH, DRA_HSUPA_STATE_TRANS_SWITCH, DRA_IP_SERVICE_QOS_SWITCH, DRA_PS_BE_STATE_TRANS_SWITCH, DRA_PS_NON_BE_STATE_TRANS_SWITCH, DRA_R99_DL_FLOW_CONTROL_SWITCH, DRA_THROUGHPUT_DCCC_SWITCH, DRA_VOICE_SAVE_CE_SWITCH, DRA_VOICE_TTI_RECFG_SWITCH
Actual Value Range:DRA_AQM_SWITCH, DRA_BASE_ADM_CE_BE_TTI_L2_OPT_SWITCH, DRA_BASE_ADM_CE_BE_TTI_RECFG_SWITCH, DRA_BASE_COVER_BE_TTI_L2_OPT_SWITCH, DRA_BASE_COVER_BE_TTI_RECFG_SWITCH, DRA_BASE_RES_BE_TTI_L2_OPT_SWITCH, DRA_BASE_RES_BE_TTI_RECFG_SWITCH, DRA_DCCC_SWITCH, DRA_HSDPA_DL_FLOW_CONTROL_SWITCH, DRA_HSDPA_STATE_TRANS_SWITCH, DRA_HSUPA_DCCC_SWITCH, DRA_HSUPA_STATE_TRANS_SWITCH, DRA_IP_SERVICE_QOS_SWITCH, DRA_PS_BE_STATE_TRANS_SWITCH, DRA_PS_NON_BE_STATE_TRANS_SWITCH
WCDMA RAN
State Transition 4 Parameters
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Copyright Huawei Technologies Co., Ltd
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
, DRA_R99_DL_FLOW_CONTROL_SWITCH, DRA_THROUGHPUT_DCCC_SWITCH, DRA_VOICE_SAVE_CE_SWITCH, DRA_VOICE_TTI_RECFG_SWITCH
Unit:None
Default Value:None
E2DThrou4BThd
BSC6900
SET UDCCC(Optional)
None None Meaning:Throughput event 4B threshold for BE service E-DCH-to-DCH channel switch in the uplink based on coverage
GUI Value Range:0~1148
Actual Value Range:0~11480
Unit:10kbit/s
Default Value:30
E2FThrouMeasPeriod
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010202
WRFD-01061208
WRFD-021101
UE State in Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
HSUPA DCCC
Dynamic Channel Configuration Control (DCCC)
Meaning:Period of E-DCH throughput ratio measurement. This parameter specifies the period of E-DCH throughput ratio measurement. The throughput ratio over the E-DCH is periodically measured to implement state transition from E-DCH to FACH and DCCC algorithm on EDCH.
GUI Value Range:1~10000
Actual Value Range:10~100000
Unit:10ms
Default Value:30
E2FThrouPTAT
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010202
WRFD-01061208
WRFD-021101
UE State in Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
HSUPA DCCC
Dynamic Channel
Meaning:Number of pending periods after the throughput event 4B for state transition from E-DCH to FACH is triggered. This parameter is used to prevent too many throughput events 4B being reported. Pending time after the throughput event 4B is triggered = value of this parameter x measurement period x 10 ms.
GUI Value Range:0~1023
Actual Value Range:0~1023
Unit:None
Default Value:4
WCDMA RAN
State Transition 4 Parameters
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Copyright Huawei Technologies Co., Ltd
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
Configuration Control (DCCC)
E2FThrouThd
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010202
UE State in Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
Meaning:This parameter is used to check whether the UE in the low activity state. If the UE is on the E-DCH channel, the low activity counter increases by 1 every time throughput ratio event 4B is reported.
GUI Value Range:0~384
Actual Value Range:0~384
Unit:kbit/s
Default Value:8
E2FThrouTimeToTrig
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010202
WRFD-01061208
WRFD-021101
UE State in Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
HSUPA DCCC
Dynamic Channel Configuration Control (DCCC)
Meaning:Number of periods before the throughput ratio event 4B for state transition from E-DCH to FACH is triggered. When the throughput ratio is below the lower threshold and remains so for the period specified by this parameter, the event 4B is reported. This parameter can prevent unnecessary reports to be triggered, caused by traffic volume variation. Time to trigger the throughput ratio event 4B = value of this parameter x measurement period x 10 ms.
GUI Value Range:0~1023
Actual Value Range:0~1023
Unit:None
Default Value:2
F2PTvmPTAT
BSC6900
SET UUESTATETRANS(Optional)
WRFD-010202
UE State in Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
Meaning:Pending time after the traffic volume event 4B for state transition from FACH to PCH is reported. This parameter is used to prevent too many traffic volume events 4B being reported.
GUI Value Range:D250, D500, D1000, D2000, D4000, D8000, D16000
Actual Value Range:250, 500, 1000, 2000, 4000, 8000, 16000
Unit:ms
Default Value:D16000
F2PTvmTi BSC69 SET WRFD-010 UE State in Meaning:When the traffic volume is below the
WCDMA RAN
State Transition 4 Parameters
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Copyright Huawei Technologies Co., Ltd
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Parameter ID
NE MML Command
Feature ID Feature Name
Description
meToTrig 00 UUESTATETRANS(Optional)
202 Connected Mode (CELL-DCH, CELL-PCH, URA-PCH, CELL-FACH)
4B threshold and remains so for the period specified by this parameter, the event 4B is reported. This parameter can prevent unnecessary reports to be triggered, caused by traffic volume variation.
GUI Value Range:D0, D10, D20, D40, D60, D80, D100, D120, D160, D200, D240, D320, D640, D1280, D2560, D5000
Actual Value Range:0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000
Unit:ms
Default Value:D5000
HSDPA4ATvmThd
BSC6900
SET UUESTATETRANS(Optional)
WRFD-01061111
HSDPA State Transition
Meaning:Event 4A threshold for HSDPA traffic measurement in the optimized H2F state transition algorithm. H2F state transition is a state transition of HSPA UEs from CELL_DCH to CELL_FACH.
GUI Value Range:D8, D16, D32, D64, D128, D256, D512, D1024, D2k, D3k, D4k, D6k, D8k, D12k, D16k, D24k, D32k, D48k, D64k, D96k, D128k, D192k, D256k, D384k, D512k
Actual Value Range:8, 16, 32, 64, 128, 256, 512, 1024, 2k, 3k, 4k, 6k, 8k, 12k, 16k, 24k, 32k, 48k, 64k, 96k, 128k, 192k, 256k, 384k, 512k
Unit:byte
Default Value:D1024
HSUPA4AThrouThd
BSC6900
SET UUESTATETRANS(Optional)
WRFD-01061111
HSDPA State Transition
Meaning:Event 4A threshold for HSUPA throughput measurement in the optimized H2F state transition algorithm. H2F state transition is a state transition of HSPA UEs from CELL_DCH to CELL_FACH.
GUI Value Range:0~384
Actual Value Range:0~384
Unit:kbit/s
Default Value:64
LittleRateThd
BSC6900
SET UDCCC(Optional)
WRFD-021101
Dynamic Channel Configurati
Meaning:When the BE service rate decreases to the DCCC threshold rate, the UE, however, cannot perform state transition to FACH state
WCDMA RAN
State Transition 4 Parameters
Issue 04 (2013-01-30) Huawei Proprietary and Confidential
Copyright Huawei Technologies Co., Ltd
4-22
Parameter ID
NE MML Command
Feature ID Feature Name
Description
on Control (DCCC)
because, for example, the state transition switch is OFF or there are CS services. In this case, when traffic remains low for quite a long period, the service rate decreases to this rate and D2F state transition is not performed. The timer parameters and traffic volume measurement parameters for the function of low activity rate adjustment are the same as those in the D2F state transition process. The relative parameters can be set in command SET UUESTATETRANS and SET UUESTATETRANSTIMER.
GUI Value Range:D0, D8, D16, D32, D64, D128, D144, D256, D384
Actual Value Range:0, 8, 16, 32, 64, 128, 144, 256, 384
Unit:kbit/s
Default Value:D64
PerfEnhanceSwitch
BSC6900
SET UCORRMPARA(Optional)
WRFD-01061111
HSDPA State Transition
Meaning:Whether the performance enhancement function is enabled:
1) PERFENH_AMR_SPEC_BR_SWITCH: When the switch is set to ON, the procedure specific to AMR service establishment takes effect.
2) PERFENH_AMR_TMPLT_SWITCH: When the switch is set to ON, the AMR template takes effect.
3) PERFENH_SRB_TMPLT_SWITCH: When the switch is set to ON, the SRB template takes effect.
4) PERFENH_OLPC_TMPLT_SWITCH: When the switch is set to ON, the OLPC template takes effect.
5) PERFENH_AMR_SP_TMPLT_SWITCH: When the switch is set to ON, the AMR parameter template takes effect.
6) PERFENH_INTRAFREQ_MC_TMPLT_SWITCH: When the switch is set to ON, the intra-frequency measurement control template takes effect.
7) PERFENH_INTERRAT_PENALTY_50_SWITCH: After a UE fails to be handed over to a 2G
WCDMA RAN
State Transition 4 Parameters
Issue 04 (2013-01-30) Huawei Proprietary and Confidential
Copyright Huawei Technologies Co., Ltd
4-23
Parameter ID
NE MML Command
Feature ID Feature Name
Description
cell during an inter-RAT handover, the RNC forbids the UE to attempt a handover to the 2G cell in a certain period. When the switch is set to ON, the period is 50s. When the switch is set to OFF, the period is 30s.
8) PERFENH_SRB_OVER_HSUPA_TTI10_SWITCH: When the switch is set to ON, the uplink SRBs of HSUPA 10 ms non-conversational services are always carried on DCHs, and the original parameter Type of Channel Preferably Carrying Signaling RB is invalid. When the switch is set to OFF, SRBs for HSUPA 10 ms non-conversational services can be carried on HSUPA channels when the original parameter Type of Channel Preferably Carrying Signaling RB is set to HSUPA or HSPA. The switch is set to OFF by default.
9) PERFENH_HSUPA_TTI2_ENHANCE_SWITCH: When the switch is set to ON, the single-user peak-rate improvement algorithm of HSUPA 2 ms TTI is enabled. When the switch is set to OFF, the algorithm is disabled. The switch is set to OFF by default.
10) PERFENH_UU_P2D_CUC_OPT_SWITCH: When this switch is turned on, the P2D cell update confirm message simplification algorithm takes effect. When this switch is turned off, the algorithm does not take effect. By default, this switch is turned off.
11) PERFENH_RL_RECFG_SIR_CONSIDER_SWITCH: This check box controls whether the RNC considers the converged SIRTarget value that is used before radio link reconfiguration in outer loop power control performed after radio link reconfiguration.
If the check box is not selected, the RNC sends the initial SIRTarget value used after radio link reconfiguration to the NodeB.
If the check box is selected, the RNC selects a more appropriate value from the initial SIRTarget value used after radio link reconfiguration and the converged SIRTarget value used before radio link reconfiguration. Then the RNC sends the selected value to the
WCDMA RAN
State Transition 4 Parameters
Issue 04 (2013-01-30) Huawei Proprietary and Confidential
Copyright Huawei Technologies Co., Ltd
4-24
Parameter ID
NE MML Command
Feature ID Feature Name
Description
NodeB.
Setting of this check box takes effect only when the PC_RL_RECFG_SIR_TARGET_CARRY_SWITCH check box is selected.
12) PERFENH_RRC_REDIR_PROTECT_SWITCH: When the switch is set to ON, The mechanism to avoid endless back-and-forth RRC-redirections takes effect. The switch is set to OFF by default.
13) PERFENH_H2F_OPT_SWITCH: whether to enable the optimized algorithm for HSPA UE state transition from CELL_DCH to CELL_FACH (also referred to as H2F state transition). When the switch is turned on, the optimized H2F state transition algorithm is enabled, an
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