3gpp协议Word下载.docx
- 文档编号:20769183
- 上传时间:2023-01-25
- 格式:DOCX
- 页数:100
- 大小:1.40MB
3gpp协议Word下载.docx
《3gpp协议Word下载.docx》由会员分享,可在线阅读,更多相关《3gpp协议Word下载.docx(100页珍藏版)》请在冰豆网上搜索。
+33493654716
Internet
http:
//www.3gpp.org
CopyrightNotification
Nopartmaybereproducedexceptasauthorizedbywrittenpermission.
Thecopyrightandtheforegoingrestrictionextendtoreproductioninallmedia.
©
2010,3GPPOrganizationalPartners(ARIB,ATIS,CCSA,ETSI,TTA,TTC).
Allrightsreserved.
UMTS™isaTradeMarkofETSIregisteredforthebenefitofitsmembers
3GPP™isaTradeMarkofETSIregisteredforthebenefitofitsMembersandofthe3GPPOrganizationalPartners
LTE™isaTradeMarkofETSIcurrentlybeingregisteredforthebenefitofitsMembersandofthe3GPPOrganizationalPartners
GSM®
andtheGSMlogoareregisteredandownedbytheGSMAssociation
Contents
Foreword
ThisTechnicalReporthasbeenproducedbythe3rdGenerationPartnershipProject(3GPP).
ThecontentsofthepresentdocumentaresubjecttocontinuingworkwithintheTSGandmaychangefollowingformalTSGapproval.ShouldtheTSGmodifythecontentsofthepresentdocument,itwillbere-releasedbytheTSGwithanidentifyingchangeofreleasedateandanincreaseinversionnumberasfollows:
Versionx.y.z
where:
xthefirstdigit:
1presentedtoTSGforinformation;
2presentedtoTSGforapproval;
3orgreaterindicatesTSGapproveddocumentunderchangecontrol.
ytheseconddigitisincrementedforallchangesofsubstance,i.e.technicalenhancements,corrections,updates,etc.
zthethirddigitisincrementedwheneditorialonlychangeshavebeenincorporatedinthedocument.
1Scope
DuringtheE-UTRAstandardsdevelopment,thephysicallayerparameterswillbedecidedusingsystemscenarios,togetherwithimplementationissues,reflectingtheenvironmentsthatE-UTRAwillbedesignedtooperatein.
2References
Thefollowingdocumentscontainprovisionswhich,throughreferenceinthistext,constituteprovisionsofthepresentdocument.
∙Referencesareeitherspecific(identifiedbydateofpublication,editionnumber,versionnumber,etc.)ornonspecific.
∙Foraspecificreference,subsequentrevisionsdonotapply.
∙Foranon-specificreference,thelatestversionapplies.Inthecaseofareferencetoa3GPPdocument(includingaGSMdocument),anon-specificreferenceimplicitlyreferstothelatestversionofthatdocumentinthesameReleaseasthepresentdocument.
[1]3GPPTR25.896,“FeasibilityStudyforEnhancedUplinkforUTRAFDD”
[2]3GPPTR25.816,“UMTS900MHzWorkItemTechnicalReport”
[3]3GPPTR25.942,“RadioFrequency(RF)systemscenarios”
[4]3GPPTR25.814,“PhysicalLayerAspectsforEvolvedUTRA”
[5]3GPPTR30.03,“SelectionproceduresforthechoiceofradiotransmissiontechnologiesoftheUMTS”
[6]R4-051146,“Someoperators’requirementsforprioritizationofperformancerequirementsworkinRANWG4”,RAN4#37
[7]3GPPTR25.951,“FDDBaseStation(BS)classification”
[8]3GPPTR25.895,”AnalysisofhigherchipratesforUTRATDDevolution.”
[9]R4-070235,“Analysisofco-existencesimulationresults”,RAN4#42
[10]R4-070084,“CoexistenceSimulationResultsfor5MHzE-UTRA->
UTRAFDDUplinkwithRevisedSimulationAssumptions”,RAN4#42
[11]R4-070034,“Additionalsimulationresultson5MHzLTEtoWCDMAFDDULco-existencestudies”,RAN4#42
[12]R4-070262,“Simulationresultson5MHzLTEtoWCDMAFDDULco-existencestudieswithrevisedsimulationassumptions”,RAN4#42
[13]R4-070263,“ProposalonLTEACLRrequirementsforUE”,RAN4#42
[14]R4-061288,“DownlinkLTE900(RuralMacro)withDownlinkGSM900(RuralMacro)Co-existenceSimulationResults”,RAN4#41
[15]R4-070391,“LTE900-GSM900DownlinkCoexistence”,RAN4#42bis
[16]R4-061304,“LTE900-GSM900UplinkSimulationResults”,RAN4#41
[17]R4-070390,“LTE900-GSM900UplinkSimulationResults”,RAN4#42bis
[18]R4-070392“LTE-LTECoexistencewithasymmetricalbandwidth”,RAN4#42bis
[19]3GPPTS36.104,”BaseStation(BS)radiotransmissionandreception”
[20]3GPPTS25.104,”BaseStation(BS)radiotransmissionandreception(FDD)”
[21]3GPPTS36.141,”BaseStation(BS)conformancetesting”
[22]RecommendationITU-RSM.329-10,“Unwantedemissionsinthespuriousdomain”
[23]“InternationalTelecommunicationsUnionRadioRegulations”,Edition2004,Volume1–Articles,ITU,December2004.
[24]“AdjacentBandCompatibilitybetweenUMTSandOtherServicesinthe2GHzBand”,ERCReport65,Menton,May1999,revisedinHelsinki,November1999.
[25]“Title47oftheCodeofFederalRegulations(CFR)”,FederalCommunicationsCommission.
[26]R4-070337,"
ImpactofsecondadjacentchannelACLR/ACSonACIR"
(NokiaSiemensNetworks).
[27]R4-070430,"
UEACSandBSACLRs"
(Fujitsu).
[28]R4-070264,"
ProposalonLTEACLRrequirementsforNodeB"
(NTTDoCoMo).
[29]RecommendationITU-RM.1580-1,“GenericunwantedemissioncharacteristicsofbasestationsusingtheterrestrialradiointerfacesofIMT-2000”.
[30]ReportITU-RM.2039,“CharacteristicsofterrestrialIMT-2000systemsforfrequencysharing/interferenceanalyses”.
[31]ETSIEN301908-3V2.2.1(2003-10),“ElectromagneticcompatibilityandRadiospectrumMatters(ERM);
BaseStations(BS),RepeatersandUserEquipment(UE)forIMT-2000Third-Generationcellularnetworks;
Part3:
HarmonizedENforIMT-2000,CDMADirectSpread(UTRAFDD)(BS)coveringessentialrequirementsofarticle3.2oftheR&
TTEDirective”.
3Definitions,symbolsandabbreviations
3.1Definitions
3.2Symbols
3.3Abbreviations
Forthepurposesofthepresentdocument,thefollowingabbreviationsapply:
ACIRAdjacentChannelInterferenceRatio
ACLRAdjacentChannelLeakagepowerRatio
ACSAdjacentChannelSelectivity
AMCAdaptiveModulationandCoding
AWGNAdditiveWhiteGaussianNoise
BSBaseStation
CDFCumulativeDistributionFunction
DLDownlink
FDDFrequencyDivisionDuplex
MCMonte-Carlo
MCLMinimumCouplingLoss
MCSModulationandCodingScheme
PCPowerControl
PSDPowerSpectralDensity
RXReceiver
TDDTimeDivisionDuplex
TXTransmitter
UEUserEquipment
ULUplink
4Generalassumptions
ThepresentdocumentdiscussessystemscenariosforE-UTRAoperationprimarilywithrespecttotheradiotransmissionandreceptionincludingtheRRMaspects.TodeveloptheE-UTRAstandard,alltherelevantscenariosneedtobeconsideredforthevariousaspectsofoperationandthemostcriticalcasesidentified.Theprocessmaythenbeiteratedtoarriveatfinalparametersthatmeetbothserviceandimplementationrequirements.
TheE-UTRAsystemisintendedtobeoperatedinthesamefrequencybandsspecifiedforUTRA.Inordertolimitthenumberoffrequencybandstobesimulatedinthevarioussimulationscenariosamappingoffrequencybandstotwosimulationfrequencies(900MHzand2000MHz)isapplied.WhenusingthemacrocellpropagationmodelofTR25.942[3],thefrequencycontributestothepathlossby21*log10(f).Themaximumpathlossdifferencebetweenthelowest/highestfrequenciesperE-UTRAfrequencybandandcorrespondingsimulationfrequencyisshownintables4.1and4.2.
Table4.1:
SimulationfrequenciesforFDDmodeE-UTRAfrequencybands
E-UTRABand
ULfrequencies(MHz)
DLfrequencies(MHz)
Simulationfrequency
(MHz)
Pathlossdifference(dB)
lowest
highest
lowestULfrequency
highestDLfrequency
1
1920
1980
2110
2170
2000
0.37
0.74
2
1850
1910
1930
1990
0.71
0.05
3
1710
1785
1805
1880
1.43
0.56
4
1755
2155
0.68
5
824
849
869
894
900
0.80
0.06
6
830
840
875
885
0.15
7
2500
2570
2620
2690
2.04
2.70
8
880
915
925
960
0.20
0.59
9
1749.9
1784.9
1844.9
1879.9
1.22
10
1770
11
1427.9
1452.9
1475.9
1500.9
3.07
2.62
Table4.2:
SimulationfrequenciesforTDDmodeE-UTRAfrequencybands
E-UTRAband
UL/DLfrequencies(MHz)
lowestfrequency
highestfrequency
33
1900
0.47
34
2010
2025
0.11
35
0.42
36
0.32
37
38
2.29
2.46
Itcanbeobservedthatthedifferenceofpathlossbetweensimulationfrequencyandoperatingfrequency(exceptbands7,11and38)isintheworstcaselessthan0.8dBforthedownlinkandlessthe1,5dBfortheuplink.Hencethemappingofoperatingfrequencytosimulationfrequencywillprovidevalidresults.
Thevalidityofsimulationsperformedat2GHzforthe2.6GHzbands7and38wasalreadyanalyzedinTR25.810.Consideringtheexpectedhigherantennagaininthe2.6GHzbandthedifferenceinpathlossisintheorderof1dBwhatiscomparabletotheotherfrequencybands.
4.1Interferencescen
- 配套讲稿:
如PPT文件的首页显示word图标,表示该PPT已包含配套word讲稿。双击word图标可打开word文档。
- 特殊限制:
部分文档作品中含有的国旗、国徽等图片,仅作为作品整体效果示例展示,禁止商用。设计者仅对作品中独创性部分享有著作权。
- 关 键 词:
- gpp 协议