HSIFLS TRIAL on TRIPOLI Site

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outline›Introduction

›HS Inter-Frequency Load Sharing (HSIFLS)

›Conclusion

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Introduction›In P7 inter-frequency load sharing feature has the following properties:–Feature : FAJ 121 435–Triggered at RRC connection setup–Applies to all calls (R99 and HS)–Does not take into account UE and cell capabilities

–Triggered only by “non-HSDPA and the HSDPA required power”

–Triggered only when downlink transmitted power is above 50% (fixed) of the pwradm (configurable).

– Activation at RNC level by setting loadSharingRrcEnabled=1

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Introduction›In W10 two new load sharing features are introduced (in addition to the existing ones) to balance more efficiently the traffic between cells:–HSDPA Inter-frequency loadsharing–Non-HSPA Inter-frequency loadsharing

›Without loss of generality, These features have three degrees of freedom:–Trigger type (HS users, Power, Dlcode)–Trigger thresholds (configurable)–UE type and cell capabilities (considered)

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HSIFLS›HSDPA Inter-frequency loadsharing

–Feature : FAJ 121 1467–Triggered at RAB setup or upswitch from FACH/DCH to HS (Controlled by cell param iflsmode)

–Applies to HS connection (Including EUL, MIMO, MC)–Triggered by the number of HS users–Activated on RNC level (HspaLoadSharing should be Enabled and Activated)

–Cell parameter Coveragerelation.hsLoadSharing should be ON–HSIFLS is working if cell parameter hsIflsThreshUsers>0–Up to 5 coveragerelations (colocated and non-colocated, SRNC) can be defined for each cell and the best cell among them is chosen for load sharing

–UE and cell capability are considered (capability examined first)

–Old cell selection procedure is disabled when HSIFLS is operational

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HSIFLS-Algorithm› Feature is Enabled and activated on RNC level› On cell level CoverageRelation is defined, Attribute hsLoadSharing=ON and hsIflsThreshUsers>0

› If any of previous conditions are not met, HS cell selection procedure is followed

› Target cells should have at least same coverage as the source because Blind IFHO will be attempted

Trigger(iflsmode)

Path Loss check(pathlossThreshold )

iflsmode=0 (New RAB)iflsmode=1 (Upswith)iflsmode=2 (New RAB OR Upswith)

Cpich_Pwr – Cpich_RSCP >pathlossThresholdThis check is not performed in Cell_FACH

Evaluation : CapabilityIf the UE is more capable than the source cell, trigger in the source cell does not apply and also the hysteresis

Evaluation : Load

Continue in the same cell

Blind IFHO, FACH to HS HS-Reconfig; Fail?

Non-Congested cell found

UE has same capability Suitable cell found

Continue in Src cell

Continue in target cell

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HSIFLS-Evaluation-load

Please refer to next slides for param definition

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HSIFLS-Parameter›coverageRelation Used to define a coverage related candidate cell, that can be used as a target for load sharing. Applies to both HSDPA and Non-HSPA load sharing, and is also used by HS cell selection. The following attributes can be configured: – hsLoadsharing. If this attribute is set to ON, this coverage relation applies for HSDPA Inter-frequency load sharing.

– dchLoadsharing. If this attribute is set to ON, this coverage relation applies for Non-HSPA Inter-frequency load sharing.

– hsCellSelection. Can be set to ON in only one coverage relation out from the same cell. Defines that this coverage relation applies for HS cell selection.

›hsIflsThreshUsers An Operator cell parameter. Defined as percent of the admission limit hsdpaUsersAdm. More than this number of HS serving cell users are required to trigger HS load sharing out from the cell. If set to 0 the feature is OFF in the cell.

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HSIFLS-Parameter›hsIflsMarginUsers An Operator cell parameter. Defines a number of serving cell HS users that shall be subtracted when computing the remaining resources in a cell. Defined as percent of the admission limit hsdpaUsersAdm.

›pathlossThreshold An Operator cell parameter. Defines the maximum allowed pathloss before triggering a blind IFHO attempt from a dedicated channel. Also applies to Non-HSPA load sharing.

›iflsHyst An Operator RNC parameter. Defines a required load hysteresis between source and target cell, as a percent of current load. Also applies to Non-HSPA load sharing.

›iflsMode An Operator cell parameter. Configures which RAB switches that can trigger load sharing. Also applies to non-HSPA load sharing. – RAB_EST: Trigger at RAB establishment only. – UPSWITCH_ATT: Trigger at upswitch attempts caused by channel switching. Note that this value will disable non-HSPA load sharing since this feature is only triggered by RAB establishment.

– RAB_EST_OR_UPSWITCH_ATT: Trigger both a RAB establishment and at upswitch attempts.

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HSIFLS-MonitoringpmOutHsIflsHhoAttNumber of attempted outgoing Hard Handovers due to HS Inter-Frequency load sharing. This counter is incremented by one when an RRC Physical Channel Reconfiguration, Radio Bearer Setup or Radio Bearer Reconfiguration is sent to the UE, for an attempt to do a Hard HO or reconfiguration to a load sharing candidate cell, and triggered by HS Inter-Frequency load sharing. The counter is stepped in the best cell in the source active set.pmOutHsIflsHhoSuccNumber of successful outgoing Hard Handovers due to HS Inter-Frequency load sharing.This counter is incremented by one when an RRC Physical Channel Reconfiguration Complete, Radio Bearer Setup Complete or Radio Bearer Reconfiguration Complete is received from the UE, during an attempt to do a Hard HO or reconfiguration to a load sharing candidate cell, triggered by HS Inter-Frequency load sharing. The counter is stepped in the best cell in the source active set.pmInHsIflsHhoAttNumber of attempted incoming Hard Handovers due to HS Inter-Frequency load sharing. This counter is incremented by one when an RRC Physical Channel Reconfiguration, Radio Bearer Setup or Radio Bearer Reconfiguration is sent to the UE, for an attempt to do a Hard HO or reconfiguration to a load sharing candidate cell, and triggered by HS Inter-Frequency load sharing. The counter is stepped in the target cell.pmInHsIflsHhoSuccNumber of successful incoming Hard Handovers due to HS Inter-Frequency load sharing. This counter is incremented by one when an RRC Physical Channel Reconfiguration Complete, Radio Bearer Setup Complete or Radio Bearer Reconfiguration Complete is received from the UE, during an attempt to do a Hard HO or reconfiguration to a load sharing candidate cell, triggered by HS Inter-Frequency load sharing. The counter is stepped in the target cell.

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HSIFLS-Case Study›HS-HIFLS can be used to control user distribution between carriers.

›It can be used to efficiently utilize all resources on both carriers.

›Feature activated on a Tripoli cell sector 2.›4 different scenarios and thresholds are done:

RNC Feature/ParamhsLoadSharing ON

iflsHyst 5

Parameter Carrier Scenario 1 Scenario 2 Scenario 3 Scenario 4hsIflsThreshUser

s 1 50 35 10 20pathlossThreshol

d 1 140 140 140 140hsIflsMarginUser

s 2 0 0 0 0iflsmode 1 0 0 0 0

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HSIFLS-Case Study›Prioritize sharing from 1st carrier to 2nd carrier›IFLS intensity increases at more aggressive settings with good success rate.

IFLS at 50%

IFLS at 35%

IFLS at 10%

IFLS at 20%

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HSIFLS-Case Study

IFLS at 50%

IFLS at 35%

IFLS at 10%

IFLS at 20%

›At HSIFLS activation (at 50% threshold), the gap between F1 and F2 in terms or HS users and HS RAB attempts is reduced. At 35% it is even reduced more. At aggressive settings(10% and 20%), F2 is favorized more.

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HSIFLS-Case Study

IFLS at 50%

IFLS at 35%

IFLS at 10%

IFLS at 20%

›HS RAB SR is stable except at aggressive settings where F2 HS rejections increased.

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HSIFLS-Case Study-Conclusion›Using different thresholds we can distribute the HS users and the HS load between the 2 carriers.›The recommended scenario is to equally distribute the users on both carriers–For higher spectrum efficiency–Lower HS rejections–To achieve the maximum possible user throughput especially a very high load.