LTE Parameter & Features Recommendation_Part-1

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31/07/2018

1

1 © © NokiNokia a 2014 2014 --File File Name -Name -VersiVersion on --CreaCreator tor --DocIDDocID

L

TE Paramet

er

& Feature

s

Recommendation

Orange Cote d'ivoire

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31/07/2018 31/07/2018 2

2 © © NNookkiia a 2200114 - F4 - Fiille e NNaamme - Ve - Veerrssiioon - Cn - Crreeaattoor - Dr - DooccIIDD 

 LLTE1402: Uplink Intra TE1402: Uplink Intra eNodeB CoM Activation & Parameter eNodeB CoM Activation & Parameter TrailsTrails



 Uplink Improved Latency Reaction Timer (Uplink Improved Latency Reaction Timer (ilReacTimerUlilReacTimerUl))



 expectedCellSizeexpectedCellSizeneed to change as per UE need to change as per UE propagationpropagation



 Power Control Parameter Need to Change_ Power Control Parameter Need to Change_ ulpcLowqualSchulpcLowqualSch



 TimerTimerT300T300 _Need to inc _Need to increase from 400ms rease from 400ms (default value) to 600ms(default value) to 600ms



 Low MIMO Utililization_Suspected MIMO Cross Need Site InterventionLow MIMO Utililization_Suspected MIMO Cross Need Site Intervention



 Poor MIMO Utilization_CQI Parameter need to change(Poor MIMO Utilization_CQI Parameter need to change(mimoClCqiThDmimoClCqiThD&&mimoClCqiThUmimoClCqiThU))



 Threshold for Coverage Based Handover(Intra & Inter Freq) Need to changeThreshold for Coverage Based Handover(Intra & Inter Freq) Need to change



 Better Cell Handover Threshold Need to changeBetter Cell Handover Threshold Need to change



 DRX Features is disabled in many DRX Features is disabled in many cells & DrxDuringMeasGap need to activate_ cells & DrxDuringMeasGap need to activate_ LTE1679LTE1679



 qrxlevminqrxlevminNeed to Change to -124 dBmNeed to Change to -124 dBm



 Cells having High UL RSSI for PUSCHCells having High UL RSSI for PUSCH



 Activate ActivateLTE1617LTE1617 _RLF triggered handov _RLF triggered handover and Reestabliser and Reestablishment Thment Timer Need to imer Need to TuneTune 

 Scheduling & PUCCH Parameter Need to TuneScheduling & PUCCH Parameter Need to Tune 

 sNonIntrsearchsNonIntrsearch _Inter-frequency _Inter-frequency and inter-RAand inter-RAT measurements T measurements threshold_ Nthreshold_ Need to changeeed to change 

 Cell Reselection Absolute Prio _Cell Reselection Absolute Prio _ cellReSelPriocellReSelPrio& Nbr Prio& Nbr Prio _eutCelResPrio _eutCelResPrioNeed to decide and setNeed to decide and set 

 LTE1685LTE1685Neighbor Relation Robustness Feature ImplementationNeighbor Relation Robustness Feature Implementation 

 LTE1944LTE1944dynamic handover blacklisting Feature Implementationdynamic handover blacklisting Feature Implementation 

 LTE1495LTE1495 _Fast Uplink _Fast Uplink Adaptation TAdaptation Trailrail

Topics

Part-1 Part-1

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31/07/2018 31/07/2018 2

2 © © NNookkiia a 2200114 - F4 - Fiille e NNaamme - Ve - Veerrssiioon - Cn - Crreeaattoor - Dr - DooccIIDD 

 LLTE1402: Uplink Intra TE1402: Uplink Intra eNodeB CoM Activation & Parameter eNodeB CoM Activation & Parameter TrailsTrails



 Uplink Improved Latency Reaction Timer (Uplink Improved Latency Reaction Timer (ilReacTimerUlilReacTimerUl))



 expectedCellSizeexpectedCellSizeneed to change as per UE need to change as per UE propagationpropagation



 Power Control Parameter Need to Change_ Power Control Parameter Need to Change_ ulpcLowqualSchulpcLowqualSch



 TimerTimerT300T300 _Need to inc _Need to increase from 400ms rease from 400ms (default value) to 600ms(default value) to 600ms



 Low MIMO Utililization_Suspected MIMO Cross Need Site InterventionLow MIMO Utililization_Suspected MIMO Cross Need Site Intervention



 Poor MIMO Utilization_CQI Parameter need to change(Poor MIMO Utilization_CQI Parameter need to change(mimoClCqiThDmimoClCqiThD&&mimoClCqiThUmimoClCqiThU))



 Threshold for Coverage Based Handover(Intra & Inter Freq) Need to changeThreshold for Coverage Based Handover(Intra & Inter Freq) Need to change



 Better Cell Handover Threshold Need to changeBetter Cell Handover Threshold Need to change



 DRX Features is disabled in many DRX Features is disabled in many cells & DrxDuringMeasGap need to activate_ cells & DrxDuringMeasGap need to activate_ LTE1679LTE1679



 qrxlevminqrxlevminNeed to Change to -124 dBmNeed to Change to -124 dBm



 Cells having High UL RSSI for PUSCHCells having High UL RSSI for PUSCH



 Activate ActivateLTE1617LTE1617 _RLF triggered handov _RLF triggered handover and Reestabliser and Reestablishment Thment Timer Need to imer Need to TuneTune 

 Scheduling & PUCCH Parameter Need to TuneScheduling & PUCCH Parameter Need to Tune 

 sNonIntrsearchsNonIntrsearch _Inter-frequency _Inter-frequency and inter-RAand inter-RAT measurements T measurements threshold_ Nthreshold_ Need to changeeed to change 

 Cell Reselection Absolute Prio _Cell Reselection Absolute Prio _ cellReSelPriocellReSelPrio& Nbr Prio& Nbr Prio _eutCelResPrio _eutCelResPrioNeed to decide and setNeed to decide and set 

 LTE1685LTE1685Neighbor Relation Robustness Feature ImplementationNeighbor Relation Robustness Feature Implementation 

 LTE1944LTE1944dynamic handover blacklisting Feature Implementationdynamic handover blacklisting Feature Implementation 

 LTE1495LTE1495 _Fast Uplink _Fast Uplink Adaptation TAdaptation Trailrail

Topics

Part-1 Part-1

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3 © © NNookkiia a 2200114 - F4 - Fiille e NNaamme - Ve - Veerrssiioon - Cn - Crreeaattoor - Dr - DooccIIDD

Introduction(Why use UL CoMP?

The uplink intra eNB

Co-ordinated Multipoin

t (CoMP) feature

improves

average cell throughput and the cell edge performance by

taking into account the uplink information

received from neighbor cell antennas

•

• This feature increases the UL TP and hence also service quality for UEs on the cell edge regions of intra eNBThis feature increases the UL TP and hence also service quality for UEs on the cell edge regions of intra eNB

neighbour cells configured in the CoMP set.

•

• Receive UEs uplink signal by more than one cellReceive UEs uplink signal by more than one cell

•

• Intra eNB CoMP: cells involved in reception of the UE belong to the same eNB (cells are colocated)Intra eNB CoMP: cells involved in reception of the UE belong to the same eNB (cells are colocated)

•

• LTE1402LTE1402: UL : UL inter-cell intra eNB reception + Interferencinter-cell intra eNB reception + Interference Rejection Come Rejection Combining (IRC),bining (IRC),UL SINRUL SINR

enhancement allows for increased UL throughput on average and cell edge

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4 © Nokia 2014 - File Name - Version - Creator - DocID

• With co-located cells being processed by the same System Module, sharing data among cells is no longer a problem • UEs in the internal cell boundaries will be received with similar levels by serving and neighbor cell

- Intra eNB UL CoMP is possible within internal cell boundaries

Sector1 LCR1: Tx1& Rx1 Sector1 LCR1: Tx2& Rx2 Sector2 LCR2: Tx1& Rx1 Sector2 LCR2: Tx1& Rx2 Sector3 LCR3: Tx1& Rx1 Sector3 LCR3: Tx2& Rx2 O pt 1 O pt 2 O pt 3 O p t 6 UL CoMP No UL CoMP between different eNBs UL CoMP UL CoMP RF Module System Module

UL CoMP

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UL CoMP

UL CoMP set consists of three cells. To receive a signal from the UE in the center of the cell number 2, the eNB uses only two Rx antennas from the serving cell because in the cell 1 and 3 signal from this UE is too low. When the UE is close to cell edge, the eNB combines signal received via two Rx antennas from the serving cell 2 and two Rx antennas from the neighbor cell 3 using IRC algorithm.

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Users on the m ain lobe do not benefit because antenna beam of neighboring cell has poor gain on this direction

Users in between cell borders have a good chance to have similar path loss to both c ells and benefit from UL CoMP.

• In LTE1402 Interference Rejection Combining (IRC) algorithm is used for UL reception

All 3GPP Rel. 8 compliant UEs will benefit from this feature.

When the UE is close to cell edge, the eNB combines signal received via two Rx antennas from the serving cell 2 and two Rx antennas from the neighbor cell 3 using IRC algorithm

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UL CoMP : Technical Details

-5 0 5 10 15 SINR_S SINR_N2 SINR_N1

Example: Cell N2 selected for UL combining, cell N1 has too large SINR difference to serving cell

Example: Cell N2 selected for UL combining, cell N1 has SINR difference to serving cell OK, but N2 has higher SINR

ulCoMpSinrThreshold -5 0 5 10 15 SINR_S SINR_N2 SINR_N1 ulCoMpSinrThreshold Only the UEs that are received in the neighbor cell with SINR higher than -10dB AND

of which neighbor cell SINR is no less than ulCompSinrThresh below their serving cell SINR can be received using CoMP combining.

KPI: Percentage of UEs using CoMP in the cell LTE_1261a

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UL CoMP : Technical Details

• CoMP set

In LTE 1402 cells that can be potentially used for joint UL reception form a CoMP Set

LTE1402 is used with 2Rx antennas, In this up to 2 cells can be selected for UL reception from so called CoMP sets containing up to 3 cells ,Cell selection is performed per TTI based on instantaneous SINR measurements.

CoMP reception can only be done for PUSCH. Other UL physical channels are received by serving cell antennas. Includes serving cell plus best Intra-eNB neighbor cell

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UL CoMP : Technical Details

UL_INTRA_COMP_UE_AVG[#] Percentage of UE Using UL CoMP[%]

Avg PDCP cell thp UL[kbps] UL PDCP SDU Volume[MB] Avg SINR for PUSCH[dB] Avg MCS PUSCH trans[#]

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10 © Nokia 2014 - F ile Name - Version - Creator - DocID

UL CoMP : Parameters

Abbreviated Name MO Class Full Name Description Range

and step

Default Value

actUlCoMp LNBTS Activate Uplink CoMP

Uplink coordinated multipoint (CoMP) reception activation for the eNB.

0 (false), 1 (true)

ulCoMpId ULCOMP Uplink coordinated

multipoint identifier This parameter uniquely identifies a ULCOMP instance.

0...8, step 1

ulCoMpCellList ULCOMP Uplink CoMP Cell

List List of cells belonging to the same uplink comp set.

0...65535, step 1

ulCoMpSinrThreshold ULCOMP Uplink CoMP SINR Threshold

Signal-Interference-Noise Ratio to be use for uplink CoMP operation.

The received uplink signal from a neighbor cell is combined to the serving cell signal if its SINR is less than ulCoMPSinrThreshold

below the SINR of the serving cell signal. The recommended default value is for:

- 2RX CoMP: 10 dB - 4RX CoMP: 15 dB -20...30 dB, step 1 dB 10 dB

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Uplink Improved Latency Reaction Timer(ilReacTimer )

Uplink Improved Latency Reaction Timer(ilReacTimer ) defines the time in which the UE has to send useful data after either the initial dummy grant or a previous reception of useful data.

If the Timer expires , the UE will not get dummy grant anymore.

Ranges: 0….2000ms , Steps 5 ms

It defines length of Uplink Improved Latency Reaction Timer (IULRT) , which determine period when UE has UL grant proactively assigned (even if it has nothing to send).

Described functionally is used to reduce and UL latency – as UE has an UL grant assigned , it doesn't have to request its via scheduling . As a result reduced latency in ping response among others is expected .

*We can make the TRIAL with different values in different phases

Values: 0 , 5, 10, 20 , 50 , 100 ms

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Uplink Improved Latency Reaction Timer(ilReacTimer )

Each time when UE is in RRC connected and there is no data f or the UE in UL buffer, the UE is scheduled with dummy grants by the time defined by ilReactTimer. When it expires , UE will not get any UL Grant intended for UL proactive scheduling.

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Uplink Improved Latency Reaction Timer(ilReacTimer )

• E-RAB performance improved

• RRC Stp SR improved

• Int Pow improved

• UL PRB usage improved

• Compl RACH Stp SR

• UL MCS

• UL BLER degraded

• PHR degraded

• IP Sch Thrpt degraded

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expectedCellSize need to change as per UE propagation

expectedCellSize: This parameter determines the appropriate counter histogram

range (set), which should be aligned with the expected size of the cell from

preceding network planning.

Abbreviated Name MO Class Range and step Formula for Getting

Internal Value expectedCellSize LNCEL 2.1km (1), 5km (2), 10km (3), 15km (4), 30km (5), 60km (6), 100km (7) gui ==> internal 2.1km ==> 1 5km ==> 2 10km ==> 3 15km ==> 4 30km ==> 5 60km ==> 6 100km ==> 7 In our network the present value 4 (15km) and which is regardless of the cell TA reports

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expectedCellSize need to change as per UE propagation

expectedCellSize =4

expectedCellSize =1

expectedCellSize =2

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

dBm



i

f

i

PL

j

P

i

M

P

i

P

_PUSCH

(

)



min

{

_CMAX

,

10 log

₁₀

(

_PUSCH

(

))



_{O_PUSCH}

(

)



(

)







_TF

(

)



(

)}

Open Loop (OL)

Closed Loop (CL)

P

_PUSCH

(i) :PUSCH Power in subframe

i

P _PUSCH(i) = min {P _CMAX, (

OL

+

CL

)}

All the parameters are signaled to the UE from

eNodeB

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Close Loop PC

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ulpcUpqualSch: Upper threshold of the power control window for the SINR (signal quality) for

PUSCH/SRS component.

Current Value : 20(OK)

ulpcLowqualSch :Lower threshold of the power control window for the SINR (signal quality) for

PUSCH / SRS component

Current Value : 0

Proposed: 4

ulpcLowlevSch: Lower threshold of the power control window for the RSSI (si gnal level)

for PUSCH / SRS component

Current Value : -103(OK)

ulpcUplevSch

: Upper threshold of the power control window for the RSSI ( signal level)

for PUSCH / SRS component.

Current Value : -88(OK)

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19 © Nokia 2014 - F ile Name - Version - Creator - DocID LOW_QUAL_** UP_QUAL_** LOW_LEV_** 2 3 5 6 4 7 + 1 dB or + 3 dB SINR RSSI -1 dB - 1dB - 1dB + 1 dB or + 3 dB + 1 dB or + 3 dB + 1 dB or + 3 dB + 1 dB or + 3 dB 0 dB 8 9 UP_LEV_** 1

Decis ion matrix for PUS CH

ulpcUpqualSch

High Thresh. For SINR for PUSCH LNCEL; -47...80dB; 1dB ; 20dB

ulpcLowqualSch

Low Thresh. For SINR for PUSCH

LNCEL; -47...80dB; 1dB ; 0dB

_{ulpcLowlevSch}

Low Thresh. For RSSI for PUSCH LNCEL; -127...0dBm;1dBm ;-103dBm

ulpcUplevSch

High Thresh. For RSSI for PUSCH LNCEL; -127...0dBm;1dBm ;-88dBm

*Too Low SINR

setting will limit

the throughput of

UE’s in good

condition: Cell –

Center UE’s are

forced to lower

down the power.

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Timer T300 _Need to increase from 400ms (default value) to 600ms

We have cells which having poor RRC Stp SR . We need to increase the Timer T300from 400ms (default value) to 600ms.

T300:

Timer T300 supervises the RRC connection establishment procedure.

Start: Transmission of RRCConnectionRequest

Stop: Reception of RRCConnectionSetup or RRCConnectionReject message, cell re-selection and upon abortion of connection establishment by upper layers

Please find the attached cells.

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Low MIMO Utililization_Suspected MIMO Cross_Need Site Intervention

Many cells which having very low MIMO Utilization and it seems having MIMO Cross.

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Low MIMO Utililization_Suspected MIMO Cross_Need Site Intervention

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mimoClCqiThD:CQI Threshold for fallback to closed loop MIMO single codeword transmission (in CQI) : { internal_value = gui_value * 10}

Current Value: 70 Proposed Value: 60

mimoClCqiThU :CQI Threshold for activation of closed loop MIMO dual codeword transmission (in CQI). { internal_value = gui_value * 10}

Current Value: 80 Proposed Value: 70

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Better cell HO

a3offset = 12(Current Value) a3offset = 6(Proposed Value)

a3TimeToTrigger = 1(40ms-Current Value)

a3TimeToTrigger = 8(320ms-Proposed Value)

This setting will allow UE to

make faster Handover

comparatively .

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Coverage Based Handover (Intra Freq)

threshold3 = 30(Current Value) threshold3a = 36(Current Value)

threshold3 = 30 (OK) threshold3a = 32 or 34 (Proposed)

This setting will allow UE to

make faster Handover

comparatively .

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Coverage Based Handover (Inter Freq)

threshold2InterFreq = Threshold for RSRP of serving cell for start of inter frequency measurements: LNCEL:-140...-43 dBm, step 1 dBm:

Current Value: 45 {internal_value = (gui_value + 140} = -95 Proposed : 28 => -112

Threshold2a = Threshold for RSRP of serving cell for stopping of Inter-RAT (InterFreq) Measurements : LNCEL: -140...-43 dBm, step 1 dBm

Current Value: 45 {internal_value = (gui_value + 140} = -95 Proposed : 32 => --108

threshold3InterFreq= Threshold for RSRP of serving cell. I f RSRP of serving value < threshold3InterFreq and RSRP of neighbour cell > threshold3aInterFreq then handover is triggered (A5 event):

Current Value: 30 => -110 (OK)

threshold3aInterFreq : Threshold for RSRP of neighbour cell. If RSRP of serving value < threshold3InterFreq and RSRP of neighbour cell > threshold3aInterFreq then handover is triggered (A5 event)

Current Value : 36 & 12 => --104 & -128 Proposed : 34 => -106

The current value is having no

meaning , because start and

ending of measurement at same

value.

This setting will allow UE to make faster Handover comparatively .

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LTE1679

_–

DRX with parallel UE measurement gaps

• With FL15A/TL15A release, there is a possibility to use DRX with parallel UE measurement gaps

(LTE1679)

- LTE1679 - gives a possibility for more energy savings

• If UE is already configured to use DRX Cycles when MG is being established, eNB will ensure a dedicated DRX configuration for the UE for the time when MG are setup

• Usage of DRX in parallel with MGs gives an opportunity to achieve longer battery lifetime when compared to continuous PDCCH monitoring (when LTE1679 is not activated)

Abbreviated name

Full name

LNCEL:actDrxDuringMeasGap Activate DRX during measurement gap

Note that:

• LTE1679 can be activated together with LTE42/LTE473 only (LNCEL:actDrx = true) or when LTE 585 SMART DRX is used as well (LNCEL:actSmartDrx = true)

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DRX and Measurements Gaps

Technical Details

Before FL15A/TL15A, during inter-frequency and inter-RAT measurements with MG, DRX

had to be disabled

• When Measurement Gap (MG) pattern was being

configured for UE, DRX was being released (UE was

configured with DRX Profile 1 until measurements

are done)

From FL/TL15A onwards, there is an opportunity

to activate DRX with parallel UE measurement

gaps (LNCEL:actDrxDuringMeasGap )

• LTE1679 does not support DRX with CS Fallback MG,

(CSFB MG) which is needed for CS Fallback via PS HO

• Once CSFB MG is being set up, DRX Profile 1 will

be sent to UE, regardless of LTE1679 activation status

drxProfile1

• drxProfileIndex =1 • drxProfilePrority = 45

DRX OFF

From FL15A/TL15A it is

possible to use DRX with

non-CSFB MG

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DRX and Measurements Gaps

Technical Details

When LTE1679 is activated (LNCEL:actDrxDuringMeasGap is set to true), UE for which

MG pattern is configured is still able to work with DRX, provided that non-CSFB MG is

established

• If UE was using any of regular DRX Profiles before MG need

(DRX Profile 2 – DRX Profile 5) then DRX Profile 2 will be

used for given UE for the time while MG are set up

• If UE was using any of Smart DRX Profiles before

MG need, Smart DRX Profile 2 will be used for

given UE for the time while MG are set up

• If UE was configured not to use DRX before MG

need (DRX Profile 1), DRX Profile will not be

changed with MG setup

Only DRX Profile 1, DRX

Profile 2 and Smart DRX

Profile 2 are allowed when

MG are set up

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DRX and Measurements Gaps

Technical Details

Measurement Gap allocation

• When LTE1679 is activated, eNB ensures that both SR(Scheduling Request) as well as DRX On

Duration are not fully overlapped with MG

- It usually results in MG offset equal to -7 TTIs in reference to DRX Cycle start

• MG is intended to be placed during plausible DRX Sleep time. This will reduce impact of LTE1679 on DL transmission as during DRX Sleep time, DL transmission is not expected anyway

• eNB ensures that SR is not overlapped with MG as well thus additional impact of LTE1679 on UL should be negligible

- When it is not possible to find a MG

offset that will not overlap with DRX

On Duration, it is allocated in a way

that overlapping is minimized

DRX Cycle DRX Cycle

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qrxlevmin Need to Change to -124 dBm

We Need to change the qrxlevmin value .

qrxlevmin: Specifies the minimum required RX RSRP level in the cell.

Current value is -120 ,

Proposed Value : -124dBm

Note: This proposed setting will allow UE to latch on the

network at respected level.

The Current value to sacrificing few UEs which can access the

Network.

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Cells having High UL RSSI for PUSCH

Please find the cells which having high UL RSSI . There are many cells which having poor UL RSSI. Below are the cells which should be on top priority to resolve this issue.

Average of Avg RSSI for PUSCH

Row Labels 03-08-2017 04-08-2017 05-08-2017 06-08-2017 07-08-2017 08-08-2017 09-08-2017 Avg RSSI HIRE_L8-3 -94.18785925 -88.89625681 -91.74855642 -93.04724103 -83.45037221 -86.68726296 -91.60604628 -89.94622785 ANYAMA_BELLEVILLE_L23 -3 -94.20405357 -96.01281404 -96.90902723 -87.0423559 -80 -90.83365015 BARDO_L8-3 -88.03333559 -91.93832873 -90.16159154 -87.71065858 -96.85743861 -93.97215016 -91.44558387 DUEKOUE_L8-1 -97.04559544 -94.14943082 -95.4713983 -91.17152565 -94.11403661 -93.68256703 -94.36941393 -94.28628111 AGNIKRO_L8-3 -96.1964877 -95.99852334 -93.56563637 -95.63184378 -90.38244893 -95.15590635 -94.48847441 PLAQUE_MARCHE_23-1 -94.99867416 -95.6385378 -94.70245084 -94.61740005 -97.41045927 -93.00733361 -92.66999726 -94.72069328 ATLANTIC_L8-2 -96.52944912 -96.0995387 -96.19080254 -93.45567588 -90.87178456 -96.44385147 -93.84867849 -94.77711154 ISSIA_KOKO_L8-3 -95.95968826 -95.00424274 -93.18683343 -97.37207348 -92.70931141 -95.1835004 -94.90260829 KANGANDI_L8-2 -95.80738734 -96.4897909 -95.26469483 -93.55661427 -95.72554392 -95.03423989 -92.44213875 -94.9029157 HONDE_L8-2 -96.22564144 -94.92195532 -95.36121618 -95.09464051 -94.88847678 -95.06400967 -95.33567599 -95.27023084 OFF_BANCO_L23-1 -95.29832133 -93.98288702 -96.82426722 -94.64446743 -93.83583333 -95.45377065 -97.56610252 -95.37223564 AGNEBY_L8-1 -94.98847102 -93.74288172 -95.00296747 -95.48946453 -96.79308433 -95.77057087 -97.28412705 -95.58165243 CAFOP_L8-2 -94.38533885 -94.60478112 -93.27291001 -97.88033695 -97.99739926 -95.62815324 AERIA_L8-3 -96.39891813 -95.18328478 -95.27116013 -96.02098227 -95.39489116 -95.39086457 -95.98321804 -95.6633313 DJIDOUBAYE_L8-1 -95.78481862 -97.35158789 -94.1995835 -95.76519164 -96.01208217 -97.80324614 -92.85624169 -95.68182166 BASILIQUE_L8-2 -96.95887681 -94.77268605 -95.84156653 -93.54067051 -97.43713611 -95.7101872 DOUE_L8-3 -95.79757852 -96.10676223 -94.05323198 -96.91693589 -94.40503583 -97.11141274 -95.7318262 MEAGUI_NETRO_L8-3 -94.97022718 -94.64954849 -95.91970939 -96.18965549 -97.13928481 -95.77368507 NEVADAV_L8-3 -95.79361173 -96.56396433 -91.31377994 -95.88620726 -97.92567412 -97.24327074 -95.78775135 UTEXI_L8-2 -95.72371171 -95.91616661 -96.90817679 -93.92185665 -95.7903182 -95.45480669 -96.95450471 -95.80993448 NOGBOLO_L8-3 -97.76630619 -93.54336464 -96.1153941 -95.47049731 -96.17873099 -95.81485865 DUEKOUE_RESIDENTIEL_ L8-3 -95.83378026 -94.77628859 -95.87605495 -96.14553606 -96.2093271 -95.93823361 -95.95561744 -95.81926257 FAMA_L8-3 -94.21104281 -94.99008957 -95.92561397 -97.44536407 -96.53755301 -95.82193269 BUYO_PLATO_L8-2 -96.04764264 -95.23462393 -94.76101347 -96.56546415 -97.05810157 -95.91731464 -95.9306934 CCT_L26-2 -95.33922952 -95.65075787 -95.91571568 -96.08433954 -97.59938394 -95.08700562 -95.94607203 PALETUVIER_L8-1 -96.4786114 -96.58503809 -96.71416147 -95.44284133 -95.88078358 -95.20090118 -95.64172822 -95.99200932 DUEKOUE_KERE_L8-1 -94.45914281 -97.55144842 -95.87549131 -95.46596324 -95.80248034 -96.93838853 -96.01548578 COSAV L26 2 97 64958425 94 47228127 94 6072017 96 07091919 97 81826767 96 12365082