FDD-LTE Radio Network PlanningZTE University
ContentsFDD-LTE network deployment strategyFDD-LTE site selectionFDD-LTE network simulationFDD-LTE spectral efficiency
The process of FDD-LTE network planning
Information collectionInformation collection is to gather any information relate to LTE network proposal, such as:Operators requirementsOperators existent network sites density and distributionThe frequency band and bandwidth available for LTE systemThe environment information of the city to be coveredSubscribers and traffic model forecastDigital map.
Deployment strategyWhich area the LTE radio network will be introduced in first?
Deployment strategy
Deployment strategy
Requirements and targetsCoverage requirementsCoverage areaCoverage QoSCoverage special target
Dense UrbanUrbanSuburbanRuralCell Edge User Throughput (kbps)512384256128
MorphologyDense UrbanUrbanSuburbanRuralShadowing Standard Deviation(dB)8866Area Coverage Probability95%95%95%90%
Capacity requirementsRequirements and targetssubscriber target and densityTraffic modelStages and phases
Typical serviceRAB TypeBearer Rate UL (kbps)Bearer Rate DL (kbps)Intensity (mErl)UL Vol. (kByte)DL Vol. (kByte)VoiceVoice12.212.220--Video conferenceData1281281.5--Video/Audio StreamingData256256-180750Web Browsing/ HTTPData128500-125450FTPData5002000-225900Gaming Interactive Data128128-125450P2PData5002000-5001500
Propagation model calibrationCW test Tune the propagation model parametersAfter calibration, the exact propagation model will be used in network design and planning
Radio network designLink budget analysis Capacity analysis
Radio network designLink BudgetCell radius and site number Coverage Requirements Which is limitationThe final site numberand cell radiusCapacity analysisSite number andCell radiusCapacity Requirements
Site selection and surveyBase on the network design result of cell range or inter-site distance Base on existent network site distribution information or other candidate site, select fit legacy site to reuse or add new site. Site selection can be run by tools or manually. Candidate siteResult site
Coverage prediction and simulationParameters settingCoverage prediction Monte carol simulation
The process of FDD-LTE network planning
ContentsFDD-LTE network deployment strategyFDD-LTE site selectionFDD-LTE network simulationFDD-LTE spectral efficiency
Site SelectionHow to process so many candidate sites and so large areaHow to priority covered POI
Site Selection PrincipleInter site distance following network design result.Preference for the existing base stationTry to select the ideal honeycomb structure of the siteThe selected site should be close to important areas and dense areasAntenna must have enough isolation space to avoid interference between systemsTry to avoid select very high build or hill as site address in urban area
Manual site selectionWe found tool has obvious limits in term of balancing between threshold, coverage, traffic load, cost of sites etc. Manually adjust the result is necessary.Network design result:Cell rangeInter site distance
Site Selection MethodProposal IProposal II
Proposal I
Proposal ISite Selection Method
Best Signal Level (dBm) >=-80number of POI%coverage>95%36369%95%>coverage>85%132%85%>coverage>75%122%coverage
ProposalII
Proposal IISite Selection Method
Best Signal Level (dBm) >=-80number of POI%coverage>95%49993%95%>coverage>85%61%85%>coverage>75%51%coverage
total 1000Anchor Sites 188ProposalII
Proposal IISite Selection Method
ContentsFDD-LTE network deployment strategyFDD-LTE site selectionFDD-LTE network simulationFDD-LTE spectral efficiency
FDD-LTE network planning flow
Planning ParametersDigital map databaseNetworkparameterPropagationmodelServiceparameters
Digital map
Digital map
Clutter Name Surface (km2)Percentage(%)POI 51.2570.13%High Density Urban - City Center 1.8610.005%Commercial/Industrial 111.8950.28%Airports 42.0620.11%Medium Density Urban 705.7081.79%Low Density Urban 2,142.735.42%Dense Forest 13,071.8234.83%Water 3,953.0110.00%Open - Vegetated 121.3420.31%Open - Non Vegetated 18,636.9347.14%total39533.137100%
Propagation model
Propagation model
Dense UrbanUrbanSuburbanRuralHighwayCoastal High Rise00000Dense Forest1.142.031.543.040Open - Vegetated-0.690.95-0.662.20Open - Non Vegetated0.520.12-0.421.540Low Density Urban0.761.540.891.550Medium Density Urban-0.03-0.48-1.220.680High Density Urban - City Center1.95-3.570-3.210Commercial/Industrial-2.23-2.72-0.252.630Airports0-2.150-7.780Water00.440-5.70
K1K2K3K4K5K6K7Dense Urban64.9948.72-26.50.61-8.6403.23Urban13.6644.415.770.06-6.5501.63Suburban-7.0142.6922.830.45-6.5502.31Rural3.8541.2419.260.33-7.050-0.33Highway28.644.45.90-100-1.21
Propagation model3D Ray Tracing ModelBuildingData Base
Network informationSitesTransmittersCellsNeighboursSite Equipment
Traffic MapnnService information
3G traffic mix exampleTraffic mix
ServiceTypeTypical serviceRAB Type(UL:DL)Bearer RateUL (kbps)Bearer RateDL (kbps)Intensity(mErl)UL Vol.(kbit)DL Vol.(kbit)CSVoiceDCH:DCH12.212.220.0--CSVideo telephonyDCH:DCH64641.5--PSE-mailDCH:DCH6464-60250PSAudio/video streamingDCH:DCH64128-6150PSMobile office Internet/e-commerceDCH:HSDPA64500-50300PSMobile office Internet/e-commerceHSUPA:HSDPA300500-200600
iPhone and other new terminals push the Data serveic% Subs Mobile TV or Video2008$199SMALLER CHEAPER FASTER2007$599New application147 million devices in 2014 50% = embedded modems 42% = USB modemsOrange FranceTypical user :~20 MB /monthiPhone : 400 MB/monthData card : 600 MB/monthTraffic mix
Average Date traffic@BH : 0.51MBFor a month64MBData Taffic/monthiPhone :400 MBData card : 600 MBData Taffic@BHiPhone :4 MBData card : 4.8 MBChina Unicom UMTS/HSPA traffic mix
iPhone and Data card Traffic mix
ULDLSpeech 12.2(erl)0.02CS64(erl)0.001PS64/64(kbps)0.0113 0.0452 PS64/128(kbps)0.0045 0.0226 PS64/384(kbps)0.0019 0.0113 HSPA(kbps)0.1751 1.0509
FDD-LTE network planning flow
Signal Level Coverage Prediction
RS receive level predictionFocus Zone
Coverage by Signal Level 0Surface (km2)% Focus Zone31,422.2679.5Best Signal Level (dBm) >=-804,186.3410.6Best Signal Level (dBm) >=-825,522.0114Best Signal Level (dBm) >=-868,962.2422.7Best Signal Level (dBm) >=-9317,507.2144.3Best Signal Level (dBm) >=-9621,793.9555.1Best Signal Level (dBm) >=-10531,422.2679.5
Proposal IIProposal IFocus ZoneRS receive level prediction
POIRS receive level prediction
Best Signal Level (dBm) >=-80number of POI%coverage>95%49993%95%>coverage>85%61%85%>coverage>75%51%coverage
Population orTrafficRS receive level prediction
Coverage by Signal Level 0%Population99.82Best Signal Level (dBm) >=-8037.49Best Signal Level (dBm) >=-8246.57Best Signal Level (dBm) >=-8665.73Best Signal Level (dBm) >=-9390.62Best Signal Level (dBm) >=-9696.33Best Signal Level (dBm) >=-10599.82
High WayRS receive level prediction
Coverage by Signal Level 0%
Best Signal Level (dBm) >=-8031.76Best Signal Level (dBm) >=-8237.9Best Signal Level (dBm) >=-8651.02Best Signal Level (dBm) >=-9374.38Best Signal Level (dBm) >=-9682.2Best Signal Level (dBm) >=-10593.66
2000sitesRS receive level prediction
Coverage by Signal Level Surface (km2)% Focus ZoneBest Signal Level (dBm) >=-808,258.5220.9Best Signal Level (dBm) >=-8210,305.1126.1Best Signal Level (dBm) >=-8615,134.0238.3Best Signal Level (dBm) >=-9325,553.8364.6Best Signal Level (dBm) >=-9629,983.9175.8Best Signal Level (dBm) >=-10537,613.2395.1
11.13MbpsRU9.16MbpsCDF50%CDFAverage throughput prediction
RUSUMUDU50%CDF kbps91598594.46558.96106.5Average(kbps)11138.510479.87633.26930.5
User profileAverage throughput prediction
ServiceTerminalCalls/hourUL Volume (KBytes)DL Volume (KBytes)FTP DownloadMIMO Terminal11,0004,000
Density (Subscribers/km2)50010001500200025003000Total number of connected users94.8%94.5%93.7%92.4%92.3%91.0%
Signal Level Coverage Prediction
FDD-LTE network planning flow
Other coverage prediction
Monte Carlo simulation
FDD-LTE network planning flow
Signal quality prediction
Throughput prediction
Other coverage prediction
FDD-LTE network planning flow
ContentsFDD-LTE network deployment strategyFDD-LTE site selectionFDD-LTE network simulationFDD-LTE spectral efficiency
Evolution of Speed
LTE Frequency and Bandwidth
E-UTRAN BandUL: eNode B receive, UE transmitDL: eNode B transmit, UE receiveDuplex ModeFUL_low FUL_highFDL_low FDL_high11920 MHz1980 MHz2110 MHz 2170 MHzFDD21850 MHz 1910 MHz1930 MHz 1990 MHzFDD31710 MHz 1785 MHz1805 MHz 1880 MHzFDD41710 MHz1755 MHz 2110 MHz 2155 MHzFDD5824 MHz849 MHz869 MHz 894MHzFDD6830 MHz840 MHz875 MHz 885 MHzFDD72500 MHz2570 MHz2620 MHz 2690 MHzFDD8880 MHz915 MHz925 MHz 960 MHzFDD91749.9 MHz1784.9 MHz1844.9 MHz 1879.9 MHzFDD101710 MHz1770 MHz2110 MHz 2170 MHzFDD111427.9 MHz 1452.9 MHz1475.9 MHz 1500.9 MHzFDD12[TBD][TBD][TBD][TBD]FDD13777 MHz787 MHz746 MHz756 MHzFDD14788 MHz798 MHz758 MHz768 MHzFDD...331900 MHz1920 MHz1900 MHz1920 MHzTDD342010 MHz2025 MHz 2010 MHz 2025 MHzTDD351850 MHz 1910 MHz1850 MHz 1910 MHzTDD361930 MHz 1990 MHz1930 MHz 1990 MHzTDD371910 MHz 1930 MHz1910 MHz 1930 MHzTDD382570 MHz 2620 MHz2570 MHz 2620 MHzTDD391880 MHz-1920 MHz1880 MHz-1920 MHzTDD402300 MHz-2400 MHz2300 MHz-2400 MHzTDD
Flexible Bandwidth1.4M3M5M10M15M20MPaired-SpectrumUnpaired-Spectrum
LTE Spectrum Defined by 3GPP
Different bandwidth and antenna, different speed
Spectrum efficiencyA comparison between different bandwidth
Conclusion: Its a little different between different
Spectrum efficiencyA comparison between different MIMO mode
Conclusion: The spectrum efficiency will increase if antenna increases.
Spectrum efficiencyA comparison between different frequency
Conclusion: The spectrum efficiency will be different in different frequency. With the increase of frequency, the spectrum efficiency decreases, especially when in a large scale difference.
FDD-LTE BBU Solution Product B8200 Compact, light-weight, easy installationPlug & play, easy maintenanceLow, green equipmentAutomatically network planning and optimizingB8200
Carrier Support3*20MHzBaseband CapacityDL:450Mbps & UL:150MbpsActive Users Support1200 Users/SectorAvailability index 99.9997% Interface3xCPRI; 3xGE/FE 1xGPS; 8xE1/T1 Dimension (mm)88.4(H)482.6(W)197 (D)Weight7.48kg Max.Power Consumption303W Max.Power Supply-48VDCCoolingFan CoolingWorking Temperature-15 +50
FDD-LTE RRU Solution Product R8882Compact, light-weight, easy installationPlug & play, easy maintenanceLow TX power, green equipmentAutomatically network planning and optimizingR8882
Carrier & Sector20MHz Frequency BandwidthAvailability99.9998%RF Output2*40W Receive Sensitivity (dBm)-131.15 dBm@QPSK; -100.81 dBm@16QAM; -89.6 dBm@64QAM Interface2 CPRI Ports and 4 Antenna PortsDimension (mm)380(H) x 320(W) x 140(D) Weight18kg Power Consumption330W Max; 197W AVG.Power Supply-48VDCCoolingNatural Cooling (No FAN)Working Temperature-40 +55
Large CapacityRich InterfaceHigher Efficiency, Lower Power ConsumptionAutomatically network planning and optimizingBS8800FDD-LTE eNB Solution Product B8800
Carrier & Sector3*20MHzRF Output4*40W Receive Sensitivity (dBm)-131.15 dBm@QPSK; -100.81 dBm@16QAM; -89.6 dBm@64QAM Active Users Support1600 Users/SectorBaseband CapacityDL:450Mbps & UL:150MbpsAvailability99.9997%Backhaul Interface3xGE/FE; 8xE1/T1 Dimension (mm)950(H) 600(W) 450(D) Weight
Compact, light-weight, easy installationPlug & play, easy maintenanceLow TX power, green equipmentAutomatically network planning and optimizingBS8900FDD-LTE eNB Solution Product B8900
Carrier & Sector3*20MHzRF Output4*40W Receive Sensitivity (dBm)-131.15 dBm@QPSK; -100.81 dBm@16QAM; -89.6 dBm@64QAM Active Users Support1600 Users/SectorBaseband CapacityDL:450Mbps & UL:150MbpsAvailability99.9997%Backhaul Interface3xGE/FE; 8xE1/T1 Dimension (mm)1700(H)950(D)600(W) WeightFull configuration without battery: 355KgPower Consumption1105W Avg. with S111(3*20MHz)Power Supply-48VDC; 110~220VAC;+24VDCConditionerHeat ExchangerWorking Temperature-40 +55
GlossaryCBD: Central Business DistrictQOS: Quality of ServiceRAB: Radio Access BearerCW: Continuous WavePOI: Point of InterestRNP: Radio Network PlanningDU: Dense urbanSU: Suburbs urbanRU: Rural urbanMU: Medium urbanSE: Spectrum EfficiencyESE: Effective Spectrum EfficiencyISD: Inter-station DistanceCPRI: Common Public Radio InterfaceQPSK: Quaternary Phase Shift KeyingQAM: Quadrature Amplitude ModulationCDF: Cumulated Distribution Function
LTE*************