effectiveness of cell outage compensation in lte networks · 2018-12-29 · effectiveness of cell...
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![Page 1: Effectiveness of Cell Outage Compensation in LTE Networks · 2018-12-29 · Effectiveness of Cell Outage Compensation in LTE Networks Mehdi Amirijoo, Ericsson, Sweden Ljupco Jorguseski,](https://reader033.vdocument.in/reader033/viewer/2022041916/5e69e0a78ba2365e584829d3/html5/thumbnails/1.jpg)
Effectiveness of Cell Outage Compensation in LTE Networks
Mehdi Amirijoo, Ericsson, SwedenLjupco Jorguseski, TNO, The NetherlandsRemco Litjens, TNO, The NetherlandsRenato do Nascimento, Alcatel-Lucent, Portugal
CCNC ‘11January 10, 2011Las Vegas, USA
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• INTRODUCTION• ASSESSMENT APPROACH• NUMERICAL RESULTS• CONCLUDING REMARKS
OUTLINE
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• INTRODUCTION• ASSESSMENT APPROACH• NUMERICAL RESULTS• CONCLUDING REMARKS
OUTLINE
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• LTE• Mobile cellular network technology• E-UTRAN, a.k.a. ‘Long Term Evolution’• Standardised by 3GPP R8-…• 3.9G successor to UMTS• Key features
• OFDM• MIMO• SON• …
INTRODUCTION
1989
OBLB1980
NMT 900
1985 NMT 450
+ HSDPA+ HSDPA2006
UMTSUMTS2003 UMTS
+ HSPA
2001
GSM1994
+ GPRS
LTE2011
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INTRODUCTION
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MeasurementsDetection
Compensation
Operator policy:Coverage, QoS
Control parameters
Coverage/QoS map estimation
• Cell outage management / self-healing• Automatic detection and compensation of ‘outages’
• eNodeB failure, cell failure,physical signal/channel failure
• Enhances robustness/resilience
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• Cell outage management / self-healing• Control parameters
• Transmit power settings• Antenna downtilt• Azimuth/beamforming• Scheduler’s fairness parameter• Intra/inter-RAT handover parameters, load balancing• Neighbour cell lists• …
INTRODUCTION
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• Cell outage management / self-healing• Control parameters
• Transmit power settings
INTRODUCTION
• PMAX = PPILOT + PDATA = fixed• Raising PPILOT increases coverage,
but decreases PDATA and hence thetraffic handling capacity/quality
• An increased coverage also impliesmore absorbed traffic, hence moreresource sharing and less per-user QoS
DOWNLINK
• P0 ≡ target received power density (per RB)• Reducing P0 lowers inter-cell interference
levels and hence increases coverage• Reducing P0 lowers the achievable MCS
and hence throughput/QoS per RB• An increased coverage also implies
more absorbed traffic, hence moreresource sharing and less per-user QoS
UPLINK
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• Cell outage management / self-healing• Control parameters
• Antenna downtilt
INTRODUCTION
• Raising TILT increases coverage,but also increases inter-cell interference
• An increased coverage also impliesmore absorbed traffic, hence moreresource sharing and less per-user QoS
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• Objective
INTRODUCTION
TO ASSESS THE EFFECTIVENESS OF PPILOT, P0AND TILT IN MITIGATING THE EFFECTS OF CELL
OUTAGES IN DIFFERENT SCENARIOS
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• INTRODUCTION• ASSESSMENT APPROACH• NUMERICAL RESULTS• CONCLUDING REMARKS
OUTLINE
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• Scenarios• Diverse aspects are of potential interest …
• Site density• Traffic load• Service mix• Spatial traffic distribution• User mobility• Propagation environment• …
ASSESSMENT APPROACH
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• Scenarios• COVL Coverage-oriented network layout with low traffic load• CAPL Capacity -oriented network layout with low traffic load• CAPM Capacity -oriented network layout with medium traffic load• CAPH Capacity -oriented network layout with high traffic load
ASSESSMENT APPROACH
Capacity-driven layout Coverage-driven layout
Inter-site distance 500 m 2200 m
Antenna downtilt 15o 5o
System bandwidth 10 MHz
PMAX,BS, PRS, PMAX,UE 46 dBm, 33 dBm, 25 dBm
Path loss 128.1 + 37.6 log10 r, with r in km
Shadowing σ = 8 dB, inter-site correlation of ½, decorrel. distance = inter-site distance / 15
Antenna model 3GPP 3D model
Noise level -199 dBW/Hz in DL, -195 dBW/Hz in UL
Service Generic elastic data service with a requested throughput of 1 Mb/s (DL) & 250 kb/s (UL)
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• Performance metrics• Coverage probability• Uplink/downlink user throughput• Fraction of satisfied users, where ‘satisfied’ is …
• Covered• Uplink throughput ≥ α × 250 kb/s• Downlink throughput ≥ α × 1 Mb/s
• ... and α reflects the operator policy in thatit expresses the relative importance ofcoverage and quality
• When applicable, metrics areassessed over first tier of tellssurrouding the outage area
ASSESSMENT APPROACH
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• INTRODUCTION• ASSESSMENT APPROACH• NUMERICAL RESULTS• CONCLUDING REMARKS
OUTLINE
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PRE-OUTAGE SITUATION POST-OUTAGE SITUATIONWITHOUT COMPENSATION
UPL
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POST-OUTAGE SITUATIONWITH OPTIMISED PPILOT
PRE-OUTAGE SITUATION POST-OUTAGE SITUATIONWITHOUT COMPENSATION
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POST-OUTAGE SITUATIONWITH OPTIMISED PPILOT
PRE-OUTAGE SITUATION POST-OUTAGE SITUATIONWITHOUT COMPENSATION
UPL
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POST-OUTAGE SITUATIONWITH OPTIMISED PPILOT
NUMERICAL RESULTS
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PRE-OUTAGE SITUATION POST-OUTAGE SITUATIONWITHOUT COMPENSATION
UPL
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USE
RTH
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POST-OUTAGE SITUATIONWITH OPTIMISED P0
PRE-OUTAGE SITUATION POST-OUTAGE SITUATIONWITHOUT COMPENSATION
UPL
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USE
RTH
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POST-OUTAGE SITUATIONWITH OPTIMISED P0
PRE-OUTAGE SITUATION POST-OUTAGE SITUATIONWITHOUT COMPENSATION
UPL
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USE
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POST-OUTAGE SITUATIONWITH OPTIMISED P0
NUMERICAL RESULTS
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PRE-OUTAGE SITUATION POST-OUTAGE SITUATIONWITHOUT COMPENSATION
UPL
INK
USE
RTH
RO
UG
HPU
TC
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RA
GE
PRO
BA
BIL
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DO
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LIN
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PUT
POST-OUTAGE SITUATIONWITH OPTIMISED TILT
PRE-OUTAGE SITUATION POST-OUTAGE SITUATIONWITHOUT COMPENSATION
UPL
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USE
RTH
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PUT
POST-OUTAGE SITUATIONWITH OPTIMISED TILT
PRE-OUTAGE SITUATION POST-OUTAGE SITUATIONWITHOUT COMPENSATION
UPL
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USE
RTH
RO
UG
HPU
TC
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RA
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PRO
BA
BIL
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POST-OUTAGE SITUATIONWITH OPTIMISED TILT
NUMERICAL RESULTS
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NUMERICAL RESULTSCOVERAGE-DRIVEN LAYOUT (LOW LOAD)
0
0.2
0.4
0.6
0.8
1
pre-outage (reference) post-outage (nocompensation)
post-outage (optimisedtilt)
post-outage (optimisedP_0)
post-outage (optimisedP_RS)
FRA
CTI
ON
OF
SATI
SFIE
D U
SER
SCAPACITY-DRIVEN LAYOUT (LOW LOAD)
0
0.2
0.4
0.6
0.8
1
pre-outage (reference) post-outage (nocompensation)
post-outage (optimisedtilt)
post-outage (optimisedP_0)
post-outage (optimisedP_RS)
FRA
CTI
ON
OF
SATI
SFIE
D U
SER
S
CAPACITY-DRIVEN LAYOUT (MEDIUM LOAD)
0
0.2
0.4
0.6
0.8
1
pre-outage (reference) post-outage (nocompensation)
post-outage (optimisedtilt)
post-outage (optimisedP_0)
post-outage (optimisedP_RS)
FRA
CTI
ON
OF
SATI
SFIE
D U
SER
S
CAPACITY-DRIVEN LAYOUT (HIGH LOAD)
0
0.2
0.4
0.6
0.8
1
pre-outage (reference) post-outage (nocompensation)
post-outage (optimisedtilt)
post-outage (optimisedP_0)
post-outage (optimisedP_RS)
FRA
CTI
ON
OF
SATI
SFIE
D U
SER
S
PRE-OUTAGE(REFERENCE)
POST-OUTAGE(OPTIMISED TILT)
POST-OUTAGE(OPTIMISED P0)
POST-OUTAGE(OPTIMISED PPILOT)
PRE-OUTAGE(REFERENCE)
POST-OUTAGE(OPTIMISED TILT)
POST-OUTAGE(OPTIMISED P0)
POST-OUTAGE(OPTIMISED PPILOT)
PRE-OUTAGE(REFERENCE)
POST-OUTAGE(OPTIMISED TILT)
POST-OUTAGE(OPTIMISED P0)
POST-OUTAGE(OPTIMISED PPILOT)
PRE-OUTAGE(REFERENCE)
POST-OUTAGE(OPTIMISED TILT)
POST-OUTAGE(OPTIMISED P0)
POST-OUTAGE(OPTIMISED PPILOT)
POST-OUTAGE(NO COMPENSATION)
POST-OUTAGE(NO COMPENSATION)
POST-OUTAGE(NO COMPENSATION)
POST-OUTAGE(NO COMPENSATION)
COVERAGE-DRIVEN LAYOUT (LOW LOAD)
0
0.2
0.4
0.6
0.8
1
pre-outage (reference) post-outage (nocompensation)
post-outage (optimisedtilt)
post-outage (optimisedP_0)
post-outage (optimisedP_RS)
FRA
CTI
ON
OF
SATI
SFIE
D U
SER
SCAPACITY-DRIVEN LAYOUT (LOW LOAD)
0
0.2
0.4
0.6
0.8
1
pre-outage (reference) post-outage (nocompensation)
post-outage (optimisedtilt)
post-outage (optimisedP_0)
post-outage (optimisedP_RS)
FRA
CTI
ON
OF
SATI
SFIE
D U
SER
S
CAPACITY-DRIVEN LAYOUT (MEDIUM LOAD)
0
0.2
0.4
0.6
0.8
1
pre-outage (reference) post-outage (nocompensation)
post-outage (optimisedtilt)
post-outage (optimisedP_0)
post-outage (optimisedP_RS)
FRA
CTI
ON
OF
SATI
SFIE
D U
SER
S
CAPACITY-DRIVEN LAYOUT (HIGH LOAD)
0
0.2
0.4
0.6
0.8
1
pre-outage (reference) post-outage (nocompensation)
post-outage (optimisedtilt)
post-outage (optimisedP_0)
post-outage (optimisedP_RS)
FRA
CTI
ON
OF
SATI
SFIE
D U
SER
S
PRE-OUTAGE(REFERENCE)
POST-OUTAGE(OPTIMISED TILT)
POST-OUTAGE(OPTIMISED P0)
POST-OUTAGE(OPTIMISED PPILOT)
PRE-OUTAGE(REFERENCE)
POST-OUTAGE(OPTIMISED TILT)
POST-OUTAGE(OPTIMISED P0)
POST-OUTAGE(OPTIMISED PPILOT)
PRE-OUTAGE(REFERENCE)
POST-OUTAGE(OPTIMISED TILT)
POST-OUTAGE(OPTIMISED P0)
POST-OUTAGE(OPTIMISED PPILOT)
PRE-OUTAGE(REFERENCE)
POST-OUTAGE(OPTIMISED TILT)
POST-OUTAGE(OPTIMISED P0)
POST-OUTAGE(OPTIMISED PPILOT)
POST-OUTAGE(NO COMPENSATION)
POST-OUTAGE(NO COMPENSATION)
POST-OUTAGE(NO COMPENSATION)
POST-OUTAGE(NO COMPENSATION)
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• INTRODUCTION• ASSESSMENT APPROACH• NUMERICAL RESULTS• CONCLUDING REMARKS
OUTLINE
![Page 20: Effectiveness of Cell Outage Compensation in LTE Networks · 2018-12-29 · Effectiveness of Cell Outage Compensation in LTE Networks Mehdi Amirijoo, Ericsson, Sweden Ljupco Jorguseski,](https://reader033.vdocument.in/reader033/viewer/2022041916/5e69e0a78ba2365e584829d3/html5/thumbnails/20.jpg)
• Cell outage management in LTE networks• Assessment of compensation potential of adapting …
• … PPILOT, P0 and the antenna downtilt
• Key insights• Both the compensation potential and the most effective control
parameter depend on the traffic load and the operator policy• P0 and the antenna downtilt are most effective in improving coverage• P0 and the antenna downtilt is most effective in improving user throughput
• Further research• Development of on-line algorthms for cell outage compensation
CONCLUDING REMARKS
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ACKNOWLEDGMENT
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ANNOUNCEMENT