62879007 zte umts load balance feature description

Page 1

Load Balance WCDMA RAN Feature Description


Load Balance Feature Description

Load Balance Feature Description Version

Date

Author

Approved By

V2.5

2009-1-20

Sha Xiubin

Zheng Dan

V3.0

2009-2-27

Sha Xiubin

Zheng Dan

Remarks

© 2008 ZTE Corporation. All rights reserved. ZTE CONFIDENTIAL: This document contains proprietary information of ZTE and is not to be disclosed or used without the prior written permission of ZTE. Due to update and improvement of ZTE products and technologies, information of the document is subjected to change without notice.

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Load Balance Feature Description

TABLE OF CONTENTS 1

Function Attribute ...................................................................................................... 1

2 2.1 2.1.1 2.1.2 2.1.3

Overview ..................................................................................................................... 1 Overview of the Functions ........................................................................................... 1 Load-based Multi-carrier Interoperation....................................................................... 1 Service-based Multi-carrier Interoperation................................................................... 3 Inter-RAT Load Balance .............................................................................................. 4

3 3.1 3.1.1 3.1.2 3.1.3 3.1.4 3.2 3.3 3.4

Load-based Multi-carrier Interoperation.................................................................. 4 Load Evaluating Factors .............................................................................................. 4 Uplink interference....................................................................................................... 4 Downlink power ........................................................................................................... 4 Code resources ........................................................................................................... 4 Coupling Operation Between These Factors .............................................................. 5 Load-based Multi-carrier Interoperation in Initial RRC procedure............................... 6 Load-based Multi-carrier Interoperation in RAB assignment ...................................... 6 Load-Based Multi-carrier Interoperation in Call holding procedure............................. 7

4 4.1 4.2 4.3

Service-based Multi-carrier Interoperation.............................................................. 7 Service-based Multi-carrier Interoperation in Initial RRC procedure........................... 7 Service-based Multi-carrier Interoperation in RAB Assignment .................................. 9 Service-based Multi-carrier Interoperation in Call holding procedure ....................... 10

5

Coupling of Load-based and Service-based Multi-carrier Interoperations........ 10

6 6.1 6.2

Inter-RAT Load Balance Strategy........................................................................... 11 Directed Retry Triggered by Inter-RAT Balancing..................................................... 11 Directed Retry Triggered by Admission Failure......................................................... 11

7 7.1 7.2 7.2.1 7.2.2 7.2.3 7.2.4 7.2.5 7.2.6 7.2.7 7.2.8 7.2.9 7.2.10 7.2.11

Configuration and Parameters ............................................................................... 11 Parameter List ........................................................................................................... 11 Parameter Configuration ........................................................................................... 12 Load Balance Switch of Initial RRC Procedure ......................................................... 12 Load Balance Switch of RAB Assignment Procedure ............................................... 13 Load Balance Switch of Call holding procedureing Procedure ................................. 13 Load balance switch for downlink power................................................................... 14 Load Balance Switch for Uplink Interference ............................................................ 15 Load Balance Switch for Code Resource.................................................................. 15 Downlink Power Weight for Load Balance ................................................................ 16 Uplink Interference Weight for Load Balance............................................................ 16 Code Weight for Load Balance.................................................................................. 17 UTRAN Downlink Load Balance Threshold-Power................................................... 18 Permitted Payload Difference Downlink Load Threshold in Inter-frequency CellsPower......................................................................................................................... 18 UTRAN Uplink Load Balance Threshold-Interference .............................................. 19 Permitted Payload Difference Uplink Load Threshold in Inter-frequency CellsInterference................................................................................................................ 20 UTRAN Downlink Load Balance Threshold-Code .................................................... 21 Permitted Payload Difference Downlink Load Threshold in Inter-frequency CellsCode .......................................................................................................................... 22 Service Balance Switch of Initial RRC Procedure ..................................................... 23 Service Balance Switch of RAB Assignment Procedure........................................... 24

7.2.12 7.2.13 7.2.14 7.2.15 7.2.16 7.2.17

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Load Balance Feature Description

7.2.18 7.2.19 7.2.20 7.2.21 7.2.22 7.2.23 7.2.24

Service Balance Switch of Call holding procedureing Procedure ............................. 24 Preferred Traffic Type................................................................................................ 25 Share Cover Indication (utranRelation) ..................................................................... 25 Share Cover Indication (gsmRelation) ...................................................................... 26 HSPA Support Method .............................................................................................. 27 Inter-RAT Downlink Load Balance Threshold-Power................................................ 27 Inter-RAT Uplink Load Balance Threshold-Interference ........................................... 28

8 8.1 8.2

Counter And Alarm .................................................................................................. 29 Counter List ............................................................................................................... 29 Alarm List ................................................................................................................... 29

9

Glossary .................................................................................................................... 29

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Load Balance Feature Description

1

Function Attribute System version: [RNC V3.07.300, Node B V4.00.100, OMMR V3.17.300, OMMB V4.00.100] Attribute: Mandatory function Related NE: UE NodeB √

RNC

MSCS

MGW

SGSN

GGSN

HLR

-

-

-

-

-

Note: *-: Non-related NE *√: Related NE

Dependency: [None] Exclusion: None Remarks: None.

2

Overview

2.1

Overview of the Functions Load balancing includes the intra-system load balancing (load-based multi-carrier interoperation, service-based multi-carrier interoperation) and Inter-RAT load balancing. Its chief principal is to deploy reasonably the inter-cell traffic based on the load of cell and the neighboring cell configuration (ShareCover, GsmShareCover), and use the system resources effectively to enhance the system capacity and QoS.

2.1.1

Load-based Multi-carrier Interoperation Load-based multi-carrier interoperation selects a target cell preferably in Initial RRC procedure, RAB assignment, and call holding procedure, rather than triggering the handover actively. That is, if a cell where the UE resides is overloaded, when selecting a target cell in Initial RRC procedure, RAB assignment, and call holding procedure, RNC will include the cell and its neighboring cells which are with “Overlap” or “ Covers” (ShareCover) relationship into the target cell list. The cell with lowest overall load in the list is selected as the target cell for access or handover. Its application scenarios are classified into three types: •

Initial RRC procedure: involving Initial RRC procedure.

RAB assignment: involving RAB assignment.

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Load Balance Feature Description

Call holding procedure: involving handover, relocation from other system or RNC to local RNC, call re-establishment triggered by CELL UPDATE, state transition from non-CELL_DCH to CELL_DCH.

In the three scenarios, related functions are controlled by three switches: InitRrcLBSw, RabAssLBSw, CallHoldLBSw. Principles of target cell selection in load-based multi-carrier interoperation: 1) Combine the target cell of UE for access/handover and its neighboring cells which are with “Overlap” or “ Covers”(ShareCover) relationship into a target cell set (named Set); 2) Pick a set (named Set1) of cells which the UE frequency-band supports from the target cell set; 3) Select the cell with the lowest overall load which can provide the requested service from the cell Set1. The cell load is evaluated by three factors: uplink interference (RTWP), downlink power (TCP), and downlink code resources. The related functions of the three factors are controlled by three switches: UlLdBalPwrSwch, DlLdBalPwrSwch, and LdBalCdSwch. The restricted resource may be different in different scenarios. For example, for cells in some areas, downlink power is frequently limited, while in cells of another area, the code resource is frequently limited. Therefore, different weights can be configured according to the three factors, so as to adapt to different application scenarios. Note: for cells supporting HSPA, the three factors are valued according to the following principles. The uplink interference is measured by the uplink payload: Uplink payload = Load generated by uplink DCH + Load generated by nonscheduling E-DCH + Load generated by the throughput of GBR services of scheduling E-DCH “Load generated by uplink DCH + Load generated by non-scheduling E-DCH” can be measured by NodeB RSRPS, while “Load generated by the throughput of GBR services of scheduling E-DCH” can be calculated by the uplink interference predictive formula. See <ZTE UMTS Admission Control Feature Description>. The downlink power is measured by the downlink payload:

downlink payload = NOHSDSCHPower +

Snum

∑ HSDSCHRequiredPower

i

i= 0

Where, NOHSDSCHPower refers to the Transmitted carrier power of all codes not used for HSPDSCH or HS-SCCH transmission that is reported by the NodeB.

HSDSCHRequiredPoweri It indicates the HS-DSCH Required Power of the scheduling priority i of the current cell.

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Load Balance Feature Description

Downlink code resources are measured by the code resource occupancy of channels other than HS-PDSCH.

2.1.2

Service-based Multi-carrier Interoperation The serving cells can be categorized by service type (HspaSptMeth) into five types: 1) Cells supporting HSUPA and HSDPA; 2) Cells supporting HSUPA, HSDPA and DCH; 3) Cells supporting HSDPA and DCH; 4) Cells supporting HSDPA only; 5) Cells which do not support HSUPA and HSDPA. And by frequency-band, the cells can be divided into UMTS900 and UMTS1800. The services carried by the cells may vary according to cell types. For example, the cells which do not support HSUPA and HSDPA mainly carry voice services, while cells supporting HSDPA and DCH mainly carry data services. As a result, the parameter “PrefTrafType” is defined for each cell to instruct which type of service is preferred for that cell. The operator can set the parameter flexibly to satisfy the requirements in different scenarios. PrefTrafType definition: •

Cs prefer is designed for receiving voice services.

Ps prefer is designed for receiving data services.

Cs+Ps prefer is designed for receiving frequency services such as UMTS900 services.

Non prefer indicates no prefer property.

Service-based multi-carrier interoperation selects a target cell preferably in Initial RRC procedure, RAB assignment, and call holding procedure, rather than triggering the handover actively. That is, when selecting a target cell in Initial RRC procedure, RAB assignment, and call holding procedure, RNC will select a proper cell as the target cell for access or handover based on specific service originated by the user equipment (UE). Its application scenarios are classified into three types: •

Initial RRC procedure: involving Initial RRC procedure.

RAB assignment: involving RAB assignment.

Call holding procedure: involving handover, relocation from other system or RNC to local RNC, call re-establishment triggered by CELL UPDATE, state transition from non-CELL_DCH to CELL_DCH.

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Load Balance Feature Description

In the three scenarios, related functions are controlled by three switches configured by OMC: InitRrcSBSw, RabAssSBSw, CallHoldSBSw.

2.1.3

Inter-RAT Load Balance The Inter-RAT load balance indicates the UE will be assigned to 2G system through Inter-RAT directed retry during RAB assignment when the cell where the UE resides is overloaded.

3

Load-based Multi-carrier Interoperation

3.1

Load Evaluating Factors

3.1.1

Uplink interference The uplink interference of a cell uses the RTWP (HSPA cells use uplink payload) as the load evaluating criterion. When the uplink load is heavy, load balancing is required, that is, the traffic is balanced to cells of other carriers to reduce the cell load. Thus, the stability of the system is ensured. When the uplink interference exceeds the preset threshold (UlLoadNeedBal2U), the load of the cell is heavy. The load-based multi-carrier interoperation should be triggered.

3.1.2

Downlink power The downlink power of a cell uses the CTCP (HSPA cells use downlink payload) as the load evaluating criterion. When the uplink load is heavy, load balancing is required, that is, the traffic is balanced to cells of other carriers to reduce the cell load. Thus, the stability of the system is ensured. When the downlink power exceeds the preset threshold (DlLoadNeedBal2U), the load of the cell is heavy. The load-based multi-carrier interoperation should be triggered.

3.1.3

Code resources By using load measuring method of the downlink channelization code resources, calculate the proportion of the quantity of code words in use to the total quantity of code words to indicate the load of the downlink channelization code resources. Then, take SF = 128 as the statistic granularity of the code resources. Because the HSDPA is shared, herein we just calculate the occupancy of code resource of DCH. When the downlink code resources exceed the preset threshold (DlCdLdNeedBal2U), the load of the cell is heavy. The load-based multi-carrier interoperation should be triggered.

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Load Balance Feature Description

3.1.4

Coupling Operation Between These Factors Three factors should be taken into consideration when evaluating the load: uplink interference, downlink power, and downlink code resources. The restricted resources vary in different scenarios. For example, for cells in some areas, downlink power is restricted usually, while in cells of another area, the code resources are restricted instead. Therefore, different weights can be configured as required according to the three factors, so as to adapt to different application scenarios. When evaluating the load of cell, the load weight, load, and load threshold of the three factors are tacken into account to calculate the cell overall load. See the following calculation method. (2 *( DestLoad i − DestThrdLo ad) i −( SourceLoad i − SourceThrd Load )) * Weight i Delta i i =1 The meanings of the parameters are as follows: Weight =

k

k indicates the number of factors that are considered in load balancing. The value is 3 at present, which indicates code resources, downlink power, and uplink interference. DestLoad indicates the actual load of the target cell (the uplink interference is measured by RTWP or uplink payload; the downlink power is measured by CTCP or downlink payload; the downlink code resources are measured by the occupancy of SF = 128 code resources of non-HS-DSCH channels). DestThrdLoad indicates the load balancing threshold (corresponds to DlLoadNeedBal2U, UlLoadNeedBal2U, and DlCdLdNeedBal2U configured in the target cell) of the target cell configured by OMC. SourceLoad indicates the load of the source cell. SourceThrdLoad indicates the load balancing threshold (corresponds to DlLoadNeedBal2U, UlLoadNeedBal2U, and DlCdLdNeedBal2U configured in the source cell) of the source cell. Delta indicates the load balancing threshold difference (corresponds to ExtraCDeltaTrd, ExtraCDeltaTru, and ExtraCDeltaCdTrd configured in the source cell) of the source cell configured by OMC. Weighti indicates the weight (corresponds to DlLdBalPwrWeight, UlLdBalPwrWeight, and LdBalCdWeight configured in the source cell) of each factor. The three factors - code resources, downlink power, and uplink interference - can be controlled by three switches: LdBalCdSwch, DlLdBalPwrSwch, and UlLdBalPwrSwch. When a factor is switched to OFF, it will not be taken into consideration in load balancing, and the corresponding weight is invalid (0). The sum of weights (DlLdBalPwrWeight, UlLdBalPwrWeight, and LdBalCdWeight) of each factor is 1, which is ensured by the configuration. If all of the three factors are switched to OFF, load balancing is not performed. If the load of the code resources exceeds its threshold of load balancing (DlCdLdNeedBal2U), or the load of downlink power exceeds its threshold of load balancing (DlLoadNeedBal2U), or the uplink interference exceeds its threshold of load balancing (UlLoadNeedBal2U), the load of the cell is heavy. Otherwise, the load is light. According to this principle, the serving cells and their UE-supporting neighboring cells which are with “Overlap” or “ Covers”(ShareCover) relationship are included into two cell lists, one for the heavy load cells and the other for the light load cells. Weight

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Load Balance Feature Description

calculations are performed for each cell in the two lists according to the above formula, and weights are sorted in an ascending order. The smaller the weight is, the lower the load is. The multi-carrier operation is triggered when the target cell of UE for access/handover is overloaded. That is, in Initial RRC procedure, RAB assignment, and call holding procedure, select a cell with the lowest weight (lowest evaluating of load) from target cell and its neighboring cells which are with “Overlap” or “ Covers” (ShareCover) relationship to access, and the cell should be supported by UE, and can be carried by services.

3.2

Load-based Multi-carrier Interoperation in Initial RRC procedure In the initial RRC procedure, if InitRrcLBSw switch is set to ON, the load of the serving cell meet the requirements of load-based multi-carrier interoperation (see 3.1 Load Evaluating Criterion), and the serving cell have inter-frequency neighboring cells with “Overlap” or “ Covers” ( ShareCover ) relationship, the load-based multi-carrier interoperation in Initial RRC procedure will be triggered, and a cell with the lowest load will be selected for access Note: In the initial RRC procedure, the specific services and some capabilities of the UE are not known. To avoid the balance failure due to balancing UE to the band that the UE does not support, the neighboring cell whose frequency band is different from the current serving cell will not be taken into account as the target cell of the load balancing.

3.3

Load-based Multi-carrier Interoperation in RAB assignment In the RAB assignment procedure, if RabAssLBSw switch is set to ON, the load of the serving cell meet the requirements of load-based multi-carrier interoperation (see 3.1 Load Evaluating Criterion), and the serving cell have inter-frequency neighboring cells which have “Overlap” or “ Covers”(ShareCover) relationship with the serving cell, the load-based multi-carrier interoperation in RAB assignment procedure will be triggered, that is the target cell selection is triggered by the load balancing in RAB assignment procedure. After the introduction of HSDPA and HSUPA, the cells can be categorized into multiple types: 1) Cells supporting HSUPA and HSDPA. 2) Cells supporting HSUPA, HSDPA and DCH. 3) Cells supporting HSDPA and DCH. 4) Cells supporting HSDPA only. 5) Cells which do not support HSUPA and HSDPA. There are also UMTS2100 and UMTS 900 cells of different bands. The UE provides different support to these cells. Therefore, in the load-based multi-carrier interoperation in RAB assignment, the service properties and UE capabilities should be taken into consideration to select the target cell. The specific principles are as follows:

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Load Balance Feature Description

(1) Combine the target cell of UE for access/handover and its neighboring cells which are with “Overlap” or “ Covers”(ShareCover) relationship into a target cell Set; (2) Pick a set (named as Set1) of cells which the UE band supports from the target cell set in step (1); (3) Pick a set (named as Set2) of cells which the UE currently originated service supports from Set1 in step (2); (4) Select the lowest load cell as the final target cell for access/handover in Set2. See services and target cell types which can carry the services in the following table: Table 1

Services and target cell types which can carry the services

Service Type

DCH/DCH

HS-DSCH/DCH

HS-DSCH/E-DCH

Target cell types which can carry the services

Cells which do not support HSUPA and HSDPA

Cells supporting HSDPA and DCH

Cells supporting HSUPA and HSDPA

Cells supporting HSUPA, HSDPA, and DCH

Cells supporting HSUPA, HSDPA, and DCH

Cells supporting HSDPA and DCH Cells supporting HSUPA, HSDPA, and DCH

That is to say, the cell whose service type is not included in the above table will be considered as an unsupported cell, and excluded out of the cell list.

3.4

Load-Based Multi-carrier Interoperation in Call holding procedure In handover, relocation from other system or RNC to local RNC, call re-establishment triggered by CELL UPDATE, state transition from non-CELL_DCH to CELL_DCH, if CallHoldLBSw is set to ON, the judgment of load-based multi-carrier interoperation in call holding procedure is performed. Its handling procedure is the same as that of the load-based multi-carrier interoperation in RAB assignment.

4

Service-based Multi-carrier Interoperation

4.1

Service-based Multi-carrier Interoperation in Initial RRC procedure In Initial RRC procedure, if InitRrcSBSw is set to ON, and the cell where the UE currently resides has inter-frequency neighboring cells which are with “Overlap” or “ Covers” ( ShareCover ) relationship, the most suitable cell is selected from the currently cell and these neighboring cells based on the establish cause of RRC request, UE supporting status, and cell properties (PrefTrafType, HspaSptMeth) to access.

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Load Balance Feature Description

For detailed preference rules of the target cell is as follows: For the Establishment cause of Originating Conversational Call,Terminating Conversational Call,Emergency Call,Inter-RAT cell re-selection,Inter-RAT cell change order,Registration, Detach,Call re-establishment,Originating Low Priority Signalling,Terminating Low Priority Signalling: Determine whether the following preferred cells exist in the light loaded target cells: Cs preferred cells which do not support HSUPA and HSDPA is preferred Cs+Ps preferred cells which do not support HSUPA and HSDPA is next preferred If no light loaded cell is selected in the step above, select the first cell in the load ranking list for access(see 3.1.4 Coupling Operation Between These Factors). For the Establishment cause of MBMS reception, MBMS ptp RB request: The current cell is the target cell. For the Establishment cause of Originating Streaming Call,Originating Interactive Call,Originating Background Call,Terminating Streaming Call,Terminating Interactive Call,Terminating Background Call,Originating High Priority Signalling,Terminating High Priority Signalling: The table 2 is the target cell selection rules for these calls. Table 2

List of Preferred Target Cells Table of Sequence of Cells of Services DCH/DCH

HS-DSCH/DCH, HS-DSCH/E-DCH

Establishment causes: Originating Streaming Call, Originating Interactive Call, Originating Background Call, Terminating Streaming Call, Terminating Interactive Call, Terminating Background Call, Originating High Priority Signaling, Terminating High Priority Signaling

Determine whether the following preferred cells exist in the lightly loaded target cells:

Determine whether the following preferred cells exist in the lightly loaded target cells:

Ps preferred cells which do not support HSUPA and HSDPA

Ps preferred cells which can support the R5

Cs+Ps preferred cells which do not support HSUPA and HSDPA The first cell that meets the preference rule is the preferred cell. If no cell is selected in the step above, select the first cell in the load ranking list for access.

Cs + Ps preferred cells which can support the R5 The first cell that meets the preference rule is the preferred cell. If no cell is selected in the step above, select the first cell in the load ranking list for access. Cells supporting R5 indicates: Cells supporting HSUPA and HSDPA; Cells supporting HSDPA, and DCH;

HSUPA,

Cells supporting HSDPA and

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Load Balance Feature Description

DCH; Cells supporting HSDPA only. The four types share the same priority.

Note: The lightly-loaded cell in the table 2 refers to the cell: whose code resource load is less than the threshold of code load balancing (DlCdLdNeedBal2U), and downlink power is less than the threshold of download load balancing (DlLoadNeedBal2U), and uplink interference is less than the threshold of uplink load balancing (UlLoadNeedBal2U).

4.2

Service-based Multi-carrier Interoperation in RAB Assignment In RAB assignment, if RabAssSBS is set to ON, the system will perform the judgment of the service-based multi-carrier interoperation in RAB assignment. After the introduction of HSDPA and HSUPA, the cells (HspaSptMeth) can be categorized into multiple types: 1) Cells supporting HSUPA and HSDPA. 2) Cells supporting HSUPA, HSDPA and DCH. 3) Cells supporting HSDPA and DCH. 4) Cells supporting HSDPA only. 5) Cells which do not support HSUPA and HSDPA. And by band, the cells can be divided into UMTS900 and UMTS1800. The supporting capabilities of UE vary by type of the cell. Consequently, the sorting and selection of the target cell should be based on the UE capabilities, current established services, and the Prefer property of each cell. The detailed procedure is as follows: 1) Combine the current cell where UE resides and its neighboring cells which are with “Overlap” or “ Covers”(ShareCover) relationship into a target cell set (named Set); (2) Exclude the cells whose bands are not supported by UE, and the cells which are not supported by the current service originated by UE from the Set in step (1). The remained cells form the a target set named Set1. The cell types which are supported by the current services of UE are as follows: Table 3

Table of Cell Types Supported by Current Services of UE

Service Type

DCH/DCH

HS-DSCH/DCH

HS-DSCH/E-DCH

Target cell types which can carry the services

Cells which do not support HSUPA and HSDPA

Cells supporting HSDPA and DCH

Cells supporting HSUPA and HSDPA

Cells supporting HSUPA, HSDPA, and DCH

Cells supporting HSUPA, HSDPA, and DCH

Cells supporting HSDPA and DCH Cells supporting HSUPA, HSDPA, and DCH

That is to say, the cell whose service type is not included in the above table will be considered as an unsupported cell, and excluded out of the cell list. (3) Cells in Set1 in step (2) will be sorted according to specific service types and the Prefer property of cells (PrefTrafType). See below table.

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Load Balance Feature Description

Table 4

Table of Sequence of Cells of Services Sequence of Cells

CS service

Cs preferred cells Cs + Ps preferred cells None preferred cells Ps preferred cells

Ps service

Ps preferred cells Cs + Ps preferred cells None preferred cells Cs preferred cells

CS + PS services

Cs + Ps preferred cells Ps preferred cells None preferred cells Cs preferred cells

(3) If the HCS function is introduced for cells, the cells should be sorted based on the HCS priorities of target cells in the descending order in the sorting in step (3). (The HCS priority ranges from 0 to 7. 0 is the lowest priority with relatively wide coverage, while 7 is the highest priority with relatively small coverage). That is to say, sort the listed cells based on the HCS properties in the precondition of meeting the prefer property. Based on the deletion and preference sorting procedures on the listed target cells in the above steps, select the first cell in the list as the target cell for access or handover.

4.3

Service-based Multi-carrier Interoperation in Call holding procedure In handover, relocation from other system or RNC to local RNC, call re-establishment triggered by CELL UPDATE, state transition from non-CELL_DCH to CELL_DCH, if CallHoldLBSw is set to ON, the judgment of service-based multi-carrier interoperation in call holding procedure is performed. Its handling procedure is the same as that of the service-based multi-carrier interoperation in RAB assignment.

5

Coupling of Load-based and Servicebased Multi-carrier Interoperations Both load-based and service-based multi-carrier interoperations function in the initial access and call holding procedure, and will not trigger handover actively but select the preferred cell and sort cells. The system load holds a great impact on the stability of system, thus the priority of load is higher than that of services. That is to say, perform service-based preference sorting of cells is in the precondition of meeting the load requirement. For example: Firstly, select the target cell in the lightly-loaded target cells list (whose code resource loads are less than the thresholds of code load balancing (DlCdLdNeedBal2U), and downlink powers are less than the thresholds of downlink load balancing (DlLoadNeedBal2U), and uplink interferences are less than the thresholds of uplink load balancing (UlLoadNeedBal2U)) according to the service types and Prefer property of cells (PrefTrafType) by service-based multi-carrier interoperation strategy. If

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Load Balance Feature Description

all the cells whose loads are less than the thresholds can not bear the services, select the lightest loaded cell according to load-based multi-carrier interoperation strategy.

6

Inter-RAT Load Balance Strategy The Inter-RAT load balance indicates that if the cell where the UE resides is overloaded during RAB assignment, the UE will be assigned to 2G system through Inter-RAT directed retry. According to the 3GPP 25.413 regulations, the directed retry indicates that RNC fails to reassign the CS service assigned by CN due to Directed retry, and RNC originates immediately the relocation from 3G to 2G in CS domain due to Directed retry, and then the CS service assigned by CN is relocated to 2G system. Currently, the CS service supported by 2G is mainly the AMR voice, Therefore, the directed retry refers to the directed retry of AMR voice.

6.1

Directed Retry Triggered by Inter-RAT Balancing When RNC receives the AMR service assignment message from CN, if the downlink load of the cell (CTCP or downlink payload) exceeds its Inter-RAT threshold of load balancing (DlLoadNeedBal2G), or the uplink interference of the cell (RTWP or uplink payload) exceeds its Inter-RAT threshold of load balancing (UlLoadNeedBal2G), and the UE supports 2G system and the current cell has neighboring cells which are with “Overlap” or “ Covers”(ShareCover) relationship, the RNC will trigger the directed retry to try to hand over the service to 2G neighboring cells.

6.2

Directed Retry Triggered by Admission Failure When RNC receives the AMR service assignment message from CN, and is not admitted by the cell (see ZTE UMTS Admission Control Feature Description), if the UE supports 2G system and the current cell has neighboring cells which are with “Overlap” or “ Covers”(ShareCover) relationship, RNC will trigger the directed retry to try to hand over the service to 2G neighboring cells.

7

Configuration and Parameters

7.1

Parameter List Abbreviated name

Parameter name

InitRrcLBSw

Load Balance Switch of Initial RRC Procedure

RabAssLBSw

Load Balance Switch of RAB Assignment Procedure

CallHoldLBSw

Load Balance Switch of Call holding procedureing Procedure

DlLdBalPwrSwch

Load Balance Switch for Downlink Power

UlLdBalPwrSwch

Load Balance Switch for Uplink Interference

LdBalCdSwch

Load balance switch for code

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Load Balance Feature Description

DlLdBalPwrWeight

Downlink Power weight for load balance

UlLdBalPwrWeight

Uplink Interference Weight for Load Balance

LdBalCdWeight

Code weight for load balance

DlLoadNeedBal2U

UTRAN Downlink Load Balance Threshold- Power

ExtraCDeltaTrd

Permitted Payload Difference Downlink Load Threshold in Interfrequency Cells –Power

UlLoadNeedBal2U

UTRAN Uplink Load Balance Threshold-Interference

ExtraCDeltaTru

Permitted Payload Difference Uplink Load Threshold in Inter-frequency Cells-Interference

DlCdLdNeedBal2U

UTRAN Downlink Load Balance Threshold -Code

ExtraCDeltaCdTrd

Permitted Payload Difference Downlink Load Threshold in Interfrequency Cells-Code

InitRrcSBSw

Service Balance Switch of Initial RRC Procedure

RabAssSBSw

Service Balance Switch of RAB Assignment Procedure

CallHoldSBSw

Service Balance Switch of Call holding procedureing Procedure

PrefTrafType

Preferred Traffic Type

ShareCover

Share Cover Indication (utranRelation)

GsmShareCover

Share Cover Indication (gsmRelation)

HspaSptMeth

HSPA Support Method

DlLoadNeedBal2G

Inter-RAT Downlink Load Balance Threshold-Power(%)

UlLoadNeedBal2G

Inter-RAT Uplink Load Balance Threshold-Interference(dB)

7.2

Parameter Configuration

7.2.1

Load Balance Switch of Initial RRC Procedure •

Parameter Description

Parameter name

Load Balance Switch of Initial RRC Procedure

Abbreviated name

InitRrcLBSw

Description

This parameter is a load balance switch which indicates whether the load balance function is open for initial RRC accessing procedure . 0: Closed

Range and Step

1: Inter-frequency Open 2: Inter-RAT Open 3: Inter-frequency and Inter-RAT Open

Unit

N/A

Default Value (note)

1: Inter-frequency Open

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12


Load Balance Feature Description

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Balance Information->Load Balance Switch of Initial RRC Procedure •

Parameter Configuration

This parameter is a load balancing switch for RRC initial access.

7.2.2

Load Balance Switch of RAB Assignment Procedure •

Parameter Description

Parameter name

Load Balance Switch of RAB Assignment Procedure

Abbreviated name

RabAssLBSw

Description

This parameter is a load balance switch which indicates whether the load balance function is open for RAB assignment procedure. 0: Closed

Range and Step

1: Inter-frequency Open 2: Inter-RAT Open 3: Inter-frequency and Inter-RAT Open

Unit

N/A

Default Value (note)

1: Inter-frequency Open

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Balance Information->Load Balance Switch of RAB Assignment Procedure •

Parameter Configuration

This parameter is a load balance switch which indicates whether the load balance function is open for RAB assignment procedure.

7.2.3

Load Balance Switch of Call holding procedureing Procedure •

Parameter Description

Parameter name

Load Balance Switch of Call holding procedureing Procedure

Abbreviated name

CallHoldLBSw

Description

This parameter is a load balance switch which indicates whether load balance function is open for call holding procedureing procedure. The application scenes include handover, relocation,

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13


Load Balance Feature Description

RAB re-establishment and FACH->DCH. 0: Closed Range and Step

1: Inter-frequency Open 2: Inter-RAT Open 3: Inter-frequency and Inter-RAT Open

Unit

N/A

Default Value (note)

0: Closed

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Balance Information-> Load Balance Switch of Call holding procedureing Procedure •

Parameter Configuration

This parameter is a load balance switch which indicates whether load balance function is open for call holding procedureing procedure. The application scenes include handover, relocation, RAB re-establishment and FACH->DCH.

7.2.4

Load balance switch for downlink power •

Parameter Description

Parameter name

Load Balance Switch for Downlink Power

Abbreviated name

DlLdBalPwrSwch

Description Range and Step

This parameter is a switch indicating whether load balance based on downlink transmitting power is open or not. 0: Closed 1: Open

Unit

N/A

Default Value (note)

1: Open

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Balance Information-> Load Balance Switch for Downlink Power •

Parameter Configuration

This parameter is a switch indicating whether load balance based on downlink power is open or not.

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14


Load Balance Feature Description

7.2.5

Load Balance Switch for Uplink Interference •

Parameter Description

Parameter name

Load Balance Switch for Uplink Interference

Abbreviated name

UlLdBalPwrSwch

Description Range and Step

This parameter is a switch indicating whether load balance based on uplink RTWP is open or not. 0: Closed 1: Open

Unit

N/A

Default Value (note)

0: Closed

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Balance Information-> Load Balance Switch for Uplink Interference •

Parameter Configuration

This parameter is a switch indicating whether load balance based on uplink interference is open or not.

7.2.6

Load Balance Switch for Code Resource •

Parameter Description

Parameter name

Load Balance Switch for Code Resource

Abbreviated name

LdBalCdSwch

Description Range and Step

This parameter is a switch indicating whether load balance based on downlink channellization code resource is open or not. 0: Closed 1: Open

Unit

N/A

Default Value (note)

1: Open

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Balance Information-> Load Balance Switch for Code •

Parameter Configuration

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15


Load Balance Feature Description

This parameter is a switch indicating whether load balance based on code resources is open or not.

7.2.7

Downlink Power Weight for Load Balance •

Parameter Description

Parameter name

Downlink Power Weight for Load Balance (%)

Abbreviated name

DlLdBalPwrWeight

Description

This parameter indicates the weight of downlink transmitting power. When evaluating the cell load, several factors such as downlink channellization code, downlink transmitting power and uplink RTWP are taken into account for load balance. Each factor is configured a weight, and sum of each factor’s (whose switch is open) weight is 1.

Range and Step

[0, 100]% step 1%

Unit

%

Default Value (note)

40%

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Balance Information-> Downlink Power Weight for Load Balance(%) •

Parameter Configuration

This parameter indicates the weight of downlink power resources in several factors of load balance. When evaluating the cell load, several factors such as code resources, downlink power and uplink interference are taken into account for load balance. The sum of each factor’s (whose switch is open) weight is 1.

7.2.8

Uplink Interference Weight for Load Balance •

Parameter Description

Parameter name

Uplink Interference Weight for Load Balance (%)

Abbreviated name

UlLdBalPwrWeight

Description

This parameter indicates the weight of uplink RTWP. When evaluating the cell load, several factors such as downlink channellization code, downlink transmitting power and uplink RTWP are taken into account for load balance. Each factor is configured a weight, and sum of each factor’s (whose switch is open) weight is 1.

Range and Step

[0,100]%

Unit

%

ZTE Confidential Proprietary

step 1%

© 2008 ZTE Corporation. All rights reserved.

16


Load Balance Feature Description

Default Value (note) •

0%

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Balance Information->Uplink Interference weight for Load Balance(%) •

Parameter Configuration

This parameter indicates the weight of uplink interference in several factors of load balance. When evaluating the cell load, several factors such as code resources, downlink power and uplink interference are taken into account for load balance. The sum of each factor’s (whose switch is open) weight is 1.

7.2.9

Code Weight for Load Balance •

Parameter Description

Parameter name

Code Weight for Load Balance (%)

Abbreviated name

LdBalCdWeight

Description

This parameter indicates the weight of downlink channellization code. When evaluating the cell load, several factors such as downlink channellization code, downlink transmitting power and uplink RTWP are taken into account for load balance. Each factor is configured a weight, and sum of each factor’s (whose switch is open) weight is 1.

Range and Step

[0, 100]% step 1%

Unit

%

Default Value (note)

60%

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Balance Information->Code weight for Load Balance(%) •

Parameter Configuration

This parameter indicates the weight of code resources in several factors of load balance. When evaluating the cell load, several factors such as code resources, downlink power and uplink interference are taken into account for load balance. The sum of each factor’s (whose switch is open) weight is 1.

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17


Load Balance Feature Description

7.2.10

UTRAN Downlink Load Balance Threshold-Power •

Parameter Description

Parameter name

UTRAN Downlink Load Balance Threshold-Power (%)

Abbreviated name

DlLoadNeedBal2U

Description

This parameter indicates the downlink Power load threshold for load balance between UTRAN cells. If the downlink Power load of local UTRAN cell exceeds the threshold indicated by this parameter, the downlink load balance judgment is performed and UE in local cell may be balanced to other UTRAN cell.

Range and Step

[0, 100]%

Unit

%

Default Value (note)

55%

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Balance Information->UTRAN Downlink Load Balance Threshold-Power(%) •

Parameter Configuration

This parameter indicates the downlink Power load threshold for load balance between UTRAN cells. If the downlink Power load of local UTRAN cell exceeds the threshold indicated by this parameter, the downlink load balance judgment is performed and UE in local cell may be balanced to other UTRAN cell.

7.2.11

Permitted Payload Difference Downlink Load Threshold in Interfrequency Cells-Power •

Parameter Description

Parameter name Abbreviated name

Permitted Payload Difference Downlink Load Threshold in Interfrequency Cells-Power (%) ExtraCDeltaTrd

Description

This parameter indicates the downlink TCP load difference threshold between inter-frequency cells. When the downlink transmitting power of local cell exceeds the UTRAN Downlink TCP Load Balance Threshold and the downlink TCP difference of serving and inter-frequency cell exceeds the threshold indicated by this parameter, the inter-frequency cell is a target cell satisfying the condition of load balance.

Range and Step

[0, 100]% step 1%

Unit

%

Default Value (note)

10%

ZTE Confidential Proprietary

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18


Load Balance Feature Description

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Balance Information->Permmited Payload Difference Downlink Load Threshold in Inter-frequency Cells –Power(%) •

Parameter Configuration

This parameter indicates the downlink TCP load difference threshold between interfrequency cells. It is used to evaluate the load of a cell as follows: k (2 *(DestLoad i − DestThrdLo ad) i −(SourceLoad i − SourceThrd Load )) Weight = ∑ * Weight i Delta i i =1

Where, k indicates the number of factors that are considered in load balancing. The value is 3 at present, which includes code resources, downlink power, and uplink interference. DestLoad indicates the actual load of the target cell (the uplink interference is measured by RTWP; the downlink power is measured by CTCP; the downlink code resources are measured by the occupancy of SF = 128 code resources of non-HS-DSCH channels). DestThrdLoad indicates the load balancing threshold (corresponds to DlLoadNeedBal2U, UlLoadNeedBal2U, and DlCdLdNeedBal2U configured in the target cell) of the target cell configured by OMC. SourceLoad indicates the load of the source cell. SourceThrdLoad indicates the load balancing threshold (corresponds to DlLoadNeedBal2U, UlLoadNeedBal2U, and DlCdLdNeedBal2U configured in the source cell) of the source cell. Delta indicates the load balancing threshold difference (corresponds to ExtraCDeltaTrd, ExtraCDeltaTru, and ExtraCDeltaCdTrd configured in the source cell) of the source cell configured by OMC. Weight indicates the weight (corresponds to DlLdBalPwrWeight, UlLdBalPwrWeight, and LdBalCdWeight configured in the source cell) of each factor.

7.2.12

UTRAN Uplink Load Balance Threshold-Interference •

Parameter Description

Parameter name

UTRAN Uplink Load Balance Threshold-Interference (dB)

Abbreviated name

UlLoadNeedBal2U

Description

ZTE Confidential Proprietary

This parameter indicates the uplink RTWP threshold for load balance between UTRAN cells. If the uplink RTWP of local UTRAN cell exceeds the threshold indicated by this parameter, the uplink load balance judgment is performed and UE in local cell

© 2008 ZTE Corporation. All rights reserved.

19


Load Balance Feature Description

may be balanced to other UTRAN cell. Range and Step

[0,62] dB step 0.1 dB

Unit

dB

Default Value (note)

20dB

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Balance Information->UTRAN Uplink Load Balance Threshold-Interference(dB) •

Parameter Configuration

This parameter indicates the uplink RTWP threshold for load balance between UTRAN cells. If the uplink RTWP of local UTRAN cell exceeds the threshold indicated by this parameter, the uplink load balance judgment is performed and UE in local cell may be balanced to other UTRAN cell.

7.2.13

Permitted Payload Difference Uplink Load Threshold in Interfrequency Cells-Interference •

Parameter Description

Parameter name Abbreviated name

Permitted Payload Difference Uplink Load Threshold in Interfrequency Cells-Interference (%) ExtraCDeltaTru

Description

This parameter indicates the uplink RTWP load difference threshold between inter-frequency cells. When uplink RTWP of local cell exceeds UTRAN Uplink RTWP Load Balance Threshold and the uplink RTWP difference of serving and inter-frequency cell exceeds the threshold indicated by this parameter, the interfrequency cell is a target cell satisfying the condition of load balance.

Range and Step

[0, 100]%

Unit

%

Default Value (note)

10%

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Balance Information->Permmited Payload Difference Uplink Threshold in Inter-frequency CellsInterference(%) •

Parameter Configuration

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Load Balance Feature Description

This parameter indicates the uplink RTWP load difference threshold between interfrequency cells. It is used to evaluate the load (Weight) of a cell as follows: k (2 *(DestLoadi − DestThrdLo ad) i −(SourceLoad i − SourceThrd Load )) Weight = ∑ * Weight i Deltai i =1 Where,

k indicates the number of factors that are considered in load balancing. The value is 3 at present, which includes code resources, downlink power, and uplink interference. DestLoad indicates the actual load of the target cell (the uplink interference is measured by RTWP; the downlink power is measured by CTCP; the downlink code resources are measured by the occupancy of SF = 128 code layer of non-HS-DSCH channels). DestThrdLoad indicates the load balancing threshold (corresponds to DlLoadNeedBal2U, UlLoadNeedBal2U, and DlCdLdNeedBal2U configured in the target cell) of the target cell configured by OMC. SourceLoad indicates the load of the source cell. SourceThrdLoad indicates the load balancing threshold (corresponds to DlLoadNeedBal2U, UlLoadNeedBal2U, and DlCdLdNeedBal2U configured in the source cell) of the source cell. Delta indicates the load balancing threshold difference (corresponds to ExtraCDeltaTrd, ExtraCDeltaTru, and ExtraCDeltaCdTrd configured in the source cell) of the source cell configured by OMC. Weight indicates the weight (corresponds to DlLdBalPwrWeight, UlLdBalPwrWeight, and LdBalCdWeight configured in the source cell) of each factor.

7.2.14

UTRAN Downlink Load Balance Threshold-Code •

Parameter Description

Parameter name

UTRAN Downlink Load Balance Threshold-Code (%)

Abbreviated name

DlCdLdNeedBal2U

Description

This parameter indicates the downlink channellization code load balance threshold. If the local UTRAN cell’s downlink channellization code usage ratio exceeds the threshold indicated by this parameter, the downlink load balance judgment is performed and some UEs may be balanced to other UTRAN cell.

Range and Step

[0, 100]% step 1%

Unit

%

Default Value (note)

50%

OMC Path

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21


Load Balance Feature Description

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Balance Information->UTRAN Downlink Load Balance Threshold –Code(%) •

Parameter Configuration

This parameter indicates the load balance threshold of downlink code resources of a cell. If the downlink load exceeds the threshold indicated by this parameter, the downlink load balance judgment is performed and some UEs may be balanced to other UTRAN cell.

7.2.15

Permitted Payload Difference Downlink Load Threshold in Interfrequency Cells-Code •

Parameter Description

Parameter name Abbreviated name

Permitted Payload Difference Downlink Load Threshold in Interfrequency Cells-Code (%) ExtraCDeltaCdTrd

Description

This parameter indicates the downlink channellization code threshold for load balance between inter-frequency cells. When the local UTRAN cell’s downlink channellization code usage ratio exceeds the UTRAN Downlink Channellization Code Load Balance Threshold and the channellization code usage ratio difference of serving and target cell exceeds the threshold indicated by this parameter, the inter-frequency cell is a target cell satisfying the condition of load balance.

Range and Step

[0, 100]% step 1%

Unit

%

Default Value (note)

10%

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Balance Information->Permmited Payload Difference Downlink Load Threshold in Inter-frequency Cells-Code(%) •

Parameter Configuration

This parameter indicates the code resource load difference threshold between interfrequency cells. It is used to evaluate the load(Weight) of a cell as follows: k (2 *(DestLoadi − DestThrdLoad) i −(SourceLoadi − SourceThrdLoad)) Weight = ∑ * Weight i Deltai i =1 Where,

k indicates the number of factors that are considered in load balancing. The value is 3 at present, which includes code resources, downlink power, and uplink interference.

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22


Load Balance Feature Description

DestLoad indicates the actual load of the target cell (the uplink interference is measured by RTWP; the downlink power is measured by CTCP; the downlink code resources are measured by the occupancy of SF = 128 code layer of non-HS-DSCH channels). DestThrdLoad indicates the load balancing threshold (corresponds to DlLoadNeedBal2U, UlLoadNeedBal2U, and DlCdLdNeedBal2U configured in the target cell) of the target cell configured by OMC. SourceLoad indicates the load of the source cell. SourceThrdLoad indicates the load balancing threshold (corresponds to DlLoadNeedBal2U, UlLoadNeedBal2U, and DlCdLdNeedBal2U configured in the source cell) of the source cell. Delta indicates the load balancing threshold difference (corresponds to ExtraCDeltaTrd, ExtraCDeltaTru, and ExtraCDeltaCdTrd configured in the source cell) of the source cell configured by OMC. Weight indicates the weight (corresponds to DlLdBalPwrWeight, UlLdBalPwrWeight, and LdBalCdWeight configured in the source cell) of each factor.

7.2.16

Service Balance Switch of Initial RRC Procedure •

Parameter Description

Parameter name

Service Balance Switch of Initial RRC Procedure

Abbreviated name

InitRrcSBSw

Description

Range and Step

This parameter is a service balance switch which indicates whether the RRC service balance function is open for initial RRC procedure used for accessing. 0: Closed 1: Open

Unit

N/A

Default Value (note)

0: Closed

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Balance Information->Service Balance Switch of Initial RRC Procedure •

Parameter Configuration

This parameter is a service balance switch which indicates whether the RRC service balance function is open for initial RRC procedure used for accessing.

ZTE Confidential Proprietary

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23


Load Balance Feature Description

7.2.17

Service Balance Switch of RAB Assignment Procedure •

Parameter Description

Parameter name

Service Balance Switch of RAB Assignment Procedure

Abbreviated name

RabAssSBSw

Description

Range and Step

This parameter is a service balance switch which indicates whether the load service function is open for RAB assignment procedure. 0: Closed 1: Open

Unit

N/A

Default Value (note)

0: Closed

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Balance Information->Service Balance Switch of RAB Assignment Procedure •

Parameter Configuration

This parameter is a load balance switch which indicates whether the load service function is open for RAB assignment procedure.

7.2.18

Service Balance Switch of Call holding procedureing Procedure •

Parameter Description

Parameter name

Service Balance Switch of Call holding procedureing Procedure

Abbreviated name

CallHoldSBSw

Description

Range and Step

This parameter is a service balance switch which indicates whether load balance function is open for call holding procedureing procedure. The application scenes are including handover, relocation, RAB re-establishment and FACH->DCH. 0: Closed 1: Open

Unit

N/A

Default Value (note)

0: Closed

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Balance Information->Service Balance Switch of Call holding procedureing Procedure

ZTE Confidential Proprietary

© 2008 ZTE Corporation. All rights reserved.

24


Load Balance Feature Description

Parameter Configuration

This parameter is a load balance switch which indicates whether load balance function is open for call holding procedureing procedure. The application scenes are including handover, relocation, RAB re-establishment and FACH->DCH.

7.2.19

Preferred Traffic Type •

Parameter Description

Parameter name

Preferred Traffic Type

Abbreviated name

PrefTrafType

Description

This parameter indicates which traffic type is preferred in the cell. CS service will be accessed the cell with attribute of “CS Preferred” , and PS Service will be accessed the cell with attribute of “PS Prferred”, and CS+PS service will be accessed the cell with attribute of “CS+PS Preferred”. 0: No Preference

Range and Step

1: CS Preferred 2: PS Preferred 3: CS+PS Preferred

Unit

N/A

Default Value (note)

3: CS+PS Preferred

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Modify Advanced Parameter->Ultran Cell>Preferred Traffic Type •

Parameter Configuration

This parameter indicates which traffic type is preferred in the cell. CS service will be accessed the cell with attribute of “CS Preferred” , and PS Service will be accessed the cell with attribute of “PS Preferred”, and CS+PS service will be accessed the cell with attribute of “CS+PS Preferred”.

7.2.20

Share Cover Indication (utranRelation) •

Parameter Description

Parameter name

Share Cover Indication (utranRelation)

Abbreviated name

ShareCover

Description

ZTE Confidential Proprietary

This parameter describes the neighboring relationship of the serving cell and neighboring cell.

© 2008 ZTE Corporation. All rights reserved.

25


Load Balance Feature Description

0: Neighbor Range and Step

1: Overlap 2: Covers 3: Contained in

Unit

N/A

Default Value (note)

0: Neighbor

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Neighboring Cell->Neighboring Cell XXX>Modify Advanced Parameter-> Share Cover Indication •

Parameter Configuration

This parameter describes the location of the serving cell and neighboring cell.

7.2.21

Share Cover Indication (gsmRelation) •

Parameter Description

Parameter name

Share Cover Indication (gsmRelation)

Abbreviated name

GsmShareCover

Description

This parameter describes the neighboring relationship of the serving cell and Gsm neighboring cell. 0: Neighbor

Range and Step

1: Overlap 2: Covers 3: Contained in

Unit

N/A

Default Value (note)

0: Neighbor

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->GSM Neighbouring Cell->GSM Neighbouring Cell XXX->Modify Advanced Parameter-> Share Cover Indication •

Parameter Configuration

This parameter describes the location of the serving cell and Gsm neighboring cell.

ZTE Confidential Proprietary

© 2008 ZTE Corporation. All rights reserved.

26


Load Balance Feature Description

7.2.22

HSPA Support Method •

Parameter Description

Parameter name

HSPA Support Method

Abbreviated name

HspaSptMeth

Description

This parameter indicates the support of DCH, HSDPA and HSUPA in the cell. 0: Not Support HSUPA and HSDPA 1: Support HSDPA and DCH

Range and Step

2: Support HSDPA only 3: Support HSUPA, HSDPA and DCH 4: Support HSUPA and HSDPA

Unit

N/A

Default Value (note)

3: Support HSUPA, HSDPA and DCH

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX->Cell Ability and Cell Reselection-> HSPA Support Method •

Parameter Configuration

This parameter indicates the support of HSPA in the cell.

7.2.23

Inter-RAT Downlink Load Balance Threshold-Power •

Parameter Description

Parameter name

Inter-RAT Downlink Load Balance Threshold-Power (%)

Abbreviated name

DlLoadNeedBal2G

Description

This parameter indicates the downlink load threshold for load balance between different RAT systems. If the downlink load of the local cell exceeds the threshold indicated by this parameter, performs the downlink load balance judgment and UE of local cell may be balanced to other RAT systems.

Range and Step

[0, 100]%, step 1%

Unit

%

Default Value (note)

58%

OMC Path

ZTE Confidential Proprietary

© 2008 ZTE Corporation. All rights reserved.

27


Load Balance Feature Description

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX-> Modify Advanced Parameter -> Balance Information-> Inter-RAT Downlink Load Balance Threshold-Power(%) •

Parameter Configuration

This parameter indicates the downlink load threshold for load balance between interRAT. If the downlink load of the local cell exceeds the threshold indicated by this parameter, performs the downlink load balance judgment and UE may be balanced to inter-RAT cells. The power threshold is higher than UTRAN Downlink Load Balance Threshold-Power (%) by default. That means, when the load balance is triggered by downlink power, the load is balanced to utran cells at first, and will not be balanced to inter-RAT cells until the downlink power increases and reaches to the threshold indicated by this parameter. The higher the parameter value is, the smaller the possibility of that the services are balanced to inter-RAT cells. And vice versa.

7.2.24

Inter-RAT Uplink Load Balance Threshold-Interference •

Parameter Description

Parameter name

Inter-RAT Uplink Load Balance Threshold-Interference(dB)

Abbreviated name

UlLoadNeedBal2G

Description

This parameter indicates the uplink RTWP threshold for load balance between different RAT systems. If the uplink RTWP of local cell exceeds the threshold indicated by this parameter, performs the uplink load balance judgment and UE of local cell may be balanced to other RAT systems.

Range and Step

(0.. 62) dB, step 0.1

Unit

dB

Default Value (note)

20dB

OMC Path

Path: View->Configuration Management->RNC NE->RNC Radio Resource Management->Utran Cell->Utran Cell XXX-> Modify Advanced Parameter -> Balance Information-> Inter-RAT Uplink Load Balance Threshold-Interference(dB) •

Parameter Configuration

This parameter indicates the uplink interference load threshold for load balance between different systems. If the uplink interference of local cell exceeds the threshold indicated by this parameter, performs the uplink interference load balance judgment and UE of local cell may be balanced to other systems.

ZTE Confidential Proprietary

© 2008 ZTE Corporation. All rights reserved.

28


Load Balance Feature Description

The power threshold is higher than Inter-RAT Uplink Load Balance ThresholdInterference (dB) by default. That is, when the load balance is triggered by uplink interference, the load is balanced to utran cells at first, and will not be balanced to InterRAT cells until the uplink interference increases and reaches to the threshold indicated by this parameter. The higher the parameter value is, the smaller the possibility of that the services are balanced to cells of other systems is. And vice versa.

8

Counter And Alarm

8.1

Counter List This feature has no relative counter.

8.2

Alarm List This feature has no relative alarm.

9

Glossary CS

Circuit switched

HCS

Hierarchical Cell Structure

HSDPA

High speed downlink packet access

HSUPA

High speed uplink packet access

PS

Packet switched

RAB

Radio access bearer

RNC

Radio network controller

RRC

Radio resource control

RSCP

Received Signal Code Power

RTWP

Received total wide band power

SF

Spreading Factor

UE

User equipment

UMTS

Universal mobile telecommunication system

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Š 2008 ZTE Corporation. All rights reserved.

29


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