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1、中文2180字201x届本科毕业设计(外文潮译)学院:专业:姓名:学号:指导教师:完成时间:二。一四年三月LTE的多址接入技术1.TE的多址接入OFDM传输正交频分复用(OFDM)是一种多载波传输技术,已被采纳为3gpplong长期演化(LTE)的下行链路传输方案,也可用于其他几个无线技术,例如:wimax和DVB广播技术。它的特点是在一个频域内分布着许多带有间隔的子载波f=lTu其中,Tll是每个子载波的调制符号时间。如图2-1所示,“OFDM子载波间隔”。OFDM的传输是基于块的。每个OFDM符号间隔之间,调制符号是并行发送的。调制符号可以通过调制字母表得到,如QPSK,16QAM或64Q
2、AM,对于3GPP组织LTE,子载波间隔是相等的为15kHz。另一方面,子载波的数目取决于传输带宽,在一个IOMHZ的频谱分配下,600个子载波可以有序传输。当然,带宽减小了,子载波数目也相应减少,带宽增加了,子载波数目也相应增加。图2-1C)FDM子载波间隔在OFDM传输时,物理资源经常被描述成一个时域一频域的网格坐标图。在这个坐标图里一列对应一个OFDM子载波,一行对应一个OFDM子载波。如图2-2所示,“OFDM时频网格”。尽管子载波的频谱有重叠,但在理想情况下,是对OFDM子载波解调后不引起任何干扰的,这是因为对每一个子载波间隔的特殊选择,让它等于相应的解调符号率。 time图2-2
3、OFDM时频网格以一定的频率於=NX/进行采样的OFDM信号,是该SiZe-N的逆离散傅立叶变换(IDFT)的调制符号块ao,a,.aN0因此,OFDM调制可以通过IDFT处理再到数字-模拟的转换来实现。(见图2-3,“OFDM调制”)。在实际中,OFDM调制是以快速傅立叶反变换(IFFT)方式实现简单和快速的处理,通过选择IDFTsizeN等于2小(m为整数)。在接收端,对接收信号以为二NX/的频率采样,高效的FFT处理是用来实现OFDM的解调和检索调制符号块ao,a,.aN(参见图2-4,“OFDM解调”)。Frequency to time domain conversion图2-3 O
4、FDM调制ThetofrequencydomainconversionSamplingdtratenTs图24OFDM解调正如上面提到的,一个无干扰的OFDM信号可以解调出无任何子载波间干扰的信号。然而,在一个时间色散信道的情况下(如多径无线信道),子载波之间的正交性丢失,造成符号间干扰(ISI)。这是因为,解调器相关区间的一条路径将与不同路径的符号边界有重叠。(见图25,“时间的分散性和相应的接收信号。图2-5次分散和相应的接收信号要解决这个问题,使OFDM信号在无线信道传播时对时间色散完全不敏感,所谓的插入循环前缀通常被使用。如图2-6所示,“插入循环前缀:循环前缀插入就意味着OFDM符号
5、的最后部分(第N个CP)被复制并且被插入到OFDM块的开始部分。因此,OFDM符号的长度从TU到7u+7bp,其中TCP=NCPTU是循环前缀的长度。作为一个结果,OFDM符号率是减少的。因此,在时间色散信道里,只要时间色散的跨度小于循环前缀的长度,子载波的正交性就能被保持。CyclicprefixpermitstofacilitatedemodulationThecyclicprefixtransformtheclassicalchannelconvolutionintoacyclicconvolutionwhichpermitseasydemodulationafterFFT图2-6插入循
6、环前缀循环前缀插入的缺点是,在整个信号带宽没有减少,OFDM符号率减少的情况下,就意味着在吞吐量方面有相应的损失。OFDM调制组合(IFFT处理),一个(分散的)无线信道,以及解调(FFr处理)可以被看作是一个频域信道。如图2-7,“频域模型的OFDM传输接收”,其中每个OFDM符号的时间期间,N个不同的调制码元被发送,每一个在相应的子载波上,在对比单一宽带载波系统时,如WCDMAWhere,每个调制符号被传输在整个带宽上。RadioChannelresponseh(t)图27频率的OFDM传输接收域模型在频道左上,调制符号ak被缩放和相位转移,通过复杂的信道系数k(频域)。在接收端,解调后允
7、许发送的信息准确解码。在接收端需要一个频域的信道抽头估计0,1,,N-1。这可以通过在OFDM时频网格内以一定规律的间隔插入已知参考符号来实现,有时也称作导频符号或导频器。运用参考符号的相关知识,接收机可以估计信道抽头(频域)用于解码的必要。OFDM信号带宽一个OFDM信号的带宽等于NX/,这就是说:子载波数乘以子载波间隔数。另一方面,通过设置这个传输符号从一侧组相邻子载波到零,这个基带被减少到NcXH;其中NC是非空子载波数目。然而,OFDM信号的频谱脱落到基本带宽以外的速度是很慢的,尤其比一个WCDMA信号慢的多。因此,在实际中,一个OFDM需要10%的保护间隔。这也就是说,举个例子,在一
8、个5MHZ的频谱分配中,OFDM基本带宽NcX/大约是4.5MHZ。做一个假设,例如,为LTE选择一个15KHZ的子载波间隔,那么,在5MHZ内应对应于300个子载波。DFTOFDM传输离散的傅里叶变换扩展的正交频分复用(DFTS-OFDM)已被用作LTE上行链路的传输方案。DFTS-OFDM传输的基本原理在图2-8,“DFT的OFDM信号生成”中说明。类似于OFDM调制,DFrS-OFDM依赖于基于块的信号生成。在DFTS-OFDM中,一个M调制符号块来自于一些调制字母表,比如,QPSK或者16QAM,第一次被应用到sizemDTF0这个DFr输出被应用到一个SiZe-N的逆DFT的连续输入
9、当中。其中,NM且未使用的输入(N-M)设置为零。和OFDM一样,每个传输块插入一个循环前缀。图28 DFT的C)FDM信号的产生与图2-8,“DFT的OFDM信号生成”相比,基于IFFTOFDM调制的实现,很显然,DFTS-OFDM可以看作是OFDM调制之前的DFT运算。如果DFT的M的大小等于IDFT的N的大小,那么级联DFT和IDFT的块图2-8“DFT的OFDM信号生成”将完全抵消。如果M小于N且IDFT的剩余输入被设置为零,贝打DFT的输出将是一个低功率变化的信号,类似于一个单载波信号。此外,不同块大小为m的瞬时带宽发送的信号可以是多种多样的,允许灵活的带宽分配。与DFTS-OFDM
10、的主要好处想比,多载波传输方案,如OFDM,减少变化的瞬时发射功率,对提高功率放大器效率是可能的。功率的变化一般根据测得的峰值平均功率比(PRPA)来判断。定义为在峰值功率一个OFDM符号的平均信号功率的归一化。对于DFTS-OFDM,PRPA明显降低,相比OFDM,再考虑到移动终端的电源能力,这种传输技术在上行链路的传输中是非常有用的。DFTS-OFDM信号解调的基本原理如图2-9所示,“DFT的OFDM解调”。这些操作和图2-9DFT的OFDM解调”基本上是相反的。即SiZe-n离散傅里叶变换处理中,和接受信号不对应的频率采样会被移除。Timetofrequencydomainconver
11、sion(I:A/D Synchro R黑;Ye二 Tr 二3nftsnff discardSiZe M dmtIDFT discard图29DFTSOFDM调制LTEmultipleaccesstechniques1.TEmultipleaccessOFDMtransmissionOrthogonalFrequencyDivisionMultiplexing(OFDM)isamulticarriertransmissiontechniquethathasbeenadoptedasthedownlinktransmissionschemeforthe3GPPLong-TermEvolution
12、(LTE)andisalsousedforseveralotherradiotechnologies,e.g.WiMAXandtheDVBbroadcasttechnologies.Itischaracterizedbyatightfrequency-domainpackingofthesubcarrierswithasubcarrierspacing/=l7u,whereTuistheper-subcarriermodulation-symboltime.(SeeFigure2-1,0FDMsubcarrierSPaCing).OFDMtransmissionisblock-based.Du
13、ringeachOFDMsymbolinterval,modulationsymbolsaretransmittedinparallel.Themodulationsymbolscanbefromanymodulationalphabet,suchasQPSK,16QAM,or64QAM.For3GPPLTE,thebasicsubcarrierspacingequals15kHz.Ontheotherhand,thenumberofsubcarriersdependsonthetransmissionbandwidth,withintheorderof600subcarriersincase
14、ofoperationina10MHzspectrumallocationandcorrespondinglyfewer/moresubcarriersincaseofsmaller/largeroveralltransmissionbandwidths.Figure2-1OFDMsubcarrierspacingThephysicalresourceincaseofOFDMtransmissionisoftenillustratedasatime-frequencygridwhereacolumncorrespondstooneOFDMsymbol(time)andarowcorrespon
15、dstooneOFDMsubcarrier,asillustratedin(seeFigure2-2,“OFDMtime-frequencygrid).Intheidealcase,despitethefactthatthespectrumofneighborsubcarriersdooverlap,theOFDMsubcarriersdonotcauseanyinterferencetoeachotherafterdemodulationduetothespecificchoiceofasubcarrierspacingfequaltothemodulationsymbolrate.X3u8
16、nb4=Figure 2-2 OFDM time-frequency gridAnOFDMsignalsampledataratefi=/Vsthesze-NInverseDiscreteFourierTransform(IDFT)oftheblockofmodulationsymbolsao,a,.aN-.Thus,OFDMmodulationcanbeimplementedbymeansofIDFTprocessingfollowedbydigital-to-analogconversion(seeFigure2-3,“OFDMmodulation).Inpractice,theOFDMm
17、odulationcanbeimplementedbymeansofInverseFastFourierTransform(IFFT)easyandfastprocessing,byselectingtheIDFTsizeNequalto2mforsomeintegerm.Atthereceiver,bysamplingthereceivedsignalattherateJs=Nf,efficientFFTprocessingisusedtoachieveOFDMdemodulationandretrievetheblockofmodulationsymbolsao,a,.aN-seeFigu
18、re2-4,“OFDMdemodulation).Figure2-3OFDMmodulationFrequency to time domain conversionSerial Io parallel conversionFigure2-4OFDMdemodulationTimetofrequencydomainconversionSamplingdtrale=TAsmentionedabove,anuncorruptedOFDMsignalcanbedemodulatedwithoutanyinterferencebetweensubcarriers.However,incaseofati
19、me-dispersivechannel(suchasmultipathradiochannels),theorthogonalitybetweenthesubcarriersislost,causingInterSymbolInterference(ISI).Thereasonforthisisthatthedemodulatorcorrelationintervalforonepathwilloverlapwiththesymbolboundaryofadifferentpath(seeFigure2-5,“Timedispersionandcorrespondingreceivedsig
20、naF,)Figure2-5TimedispersionandcorrespondingreceivedsignalTodealwiththisproblemandmakeanOFDMsignaltrulyinsensitivetotimedispersionontheradiochannel,so-calledCyclicPrefixinsertionistypicallyusedincaseofOFDMtransmission.Asillustratedin(seeFigure2-6,“CyclicPrefixinsertion,),cyclic-prefixinsertionimplie
21、sthatthelastpartoftheOFDMsymbol(thelastNcpsymbols)iscopiedandinsertedatthebeginningoftheOFDMblock,increasingthusthelengthoftheOFDMsymbolfrom7uto7u+7cp,where7cp=NCP,Tuisthelengthofthecyclicprefix.TheOrDMsymbolrateasisreducedasaconsequence.Thus,subcarrierorthogonalityispreservedincaseofatime-dispersiv
22、echannel,aslongasthespanofthetimedispersionis典蛆钮由油地y邸由JengthFigure2CyclicPrefixinsertion+,+;h(0土*h(n-lb(i)=h(i)*ai+n(i)convolutionwhichpermitseasydemodulationafterFFTUsefulOFCMsymbolThedrawbackofcyclic-prefixinsertionisthatitimpliesacorrespondinglossintermsofthroughputastheOFDMsymbolrateisreducedwit
23、houtacorrespondingreductionintheoverallsignalbandwidth.ThecombinationofOFDMmodulation(IFFTprocessing),a(time-dispersive)radiolid,dlkdOIChaD二Dade10dFali9n(FFTlPlpressing)ethendpmain央阳节I,一“stratedoese3-可啸器忖酒/呷嘲廊modelpringiea(fh;C|roMsmbHg向林riNierOVertIenn11edelofOFDMtransmissionreceptiogFromDFT(SizeM)
24、Q0YOSizeNO-Onfrequencychannelk,modulationsymbolakisscaledandphaserotatedbythecomplex(frequency-domain)channelcoefficientHk.Atthereceiverside,toallowforproperdecodingofthetransmittedinformationafterdemodulation,thereceiverneedsanestimateofthefrequency-domainchanneltapsHo,H,.mHn-.Thiscanbedonebyinsert
25、ingknownreferencesymbols,sometimesalsoreferredtoaspilotsymbolsorpilots,atregularintervalswithintheOFDMtime/frequencygrid.Usingknowledgeaboutthereferencesymbols,thereceivercanestimatethe(frequency-domain)channeltapsnecessaryforthedecoding.OFDMsignalbandwidthThebasicbandwidthofanOFDMsignalequalsNf,i.e
26、.thenumberofsubcarriersmultipliedbythesubcarrierspacing.Ontheotherhand,bysettingthesymbolstobetransmittedonagroupofsidecontiguoussubcarrierstozero,thebasicbandwidthisreducedtoNcfwhereNcisthenumberofnon-nullsubcarriers.However,thespectrumofanOFDMsignalfallsoffslowlyoutsidethebasicOFDMbandwidthandespe
27、ciallymuchslowerthanforaWCDMAsignal.Thus,inpractice,typicallyintheorderof10%guard-bandisneededforanOFDMsignal,implyingthat,asanexample,inaspectrumallocationof5MHz,thebasicOFDMbandwidthNcMHz.Assuming,forexample,asubcarrierspacingof15kHzasselectedforLTE,thiscorrespondsto300subcarriersin5MHz.DFTSOFDMtr
28、ansmissionDiscreteFourierTransformSpreadOFDM(DFTS-OFDM)isatransmissionschemethathasbeenselectedastheuplinktransmissionschemeforLTE.ThebasicprincipleofDFTS-OFDMtransmissionisillustratedin(seeFigure2-8,“DFTSOFDMsignalgeneration).SimilartoOFDMmodulation,DFTS-OFDMreliesonblock-basedsignalgeneration.Inca
29、seofDFTS-OFDM,ablockofMmodulationsymbolsfromsomemodulationalphabet,e.g.QPSKor16QAM,isfirstappliedtoasize-MDFT.TheoutputoftheDFTisthenappliedtoconsecutiveinputsofasize-VinverseDFTwhereNMandwherethe(N-Af)unusedinputsoftheIDFTaresettozero.AlsosimilartoOFDM,acyclicprefixisinsertedforeachtransmittedblock
30、.Comparing(seeFigure2-8,DFTSOFDMsignalgeneration),withtheIFFT-basedimplementationofOFDMmodulation,itisobviousthatDFTS-OFDMcanalternativelybeseenasOFDMmodulationprecededbyaDFToperation.IftheDFTsizeMequalstheIDFTsizeN,thecascadedDFTandIDFTblocksof(seeFigure2-8,44DFTSOFDMsignalgeneration),willcompletel
31、ycancelouteachother.However,ifMissmallerthanNandtheremaininginputstotheIDFTaresettozero,theoutputoftheIDFTwillbeasignalwithlowpowervariations,similartoasingle-carriersignal.Besides,byvaryingtheblocksizeMtheinstantaneousbandwidthofthetransmittedsignalcanbevaried,allowingforflexible-bandwidthassignmen
32、t.ThemainbenefitofDFTS-OFDM,comparedtoamulti-carriertransmissionschemesuchasOFDM,isreducedvariationsintheinstantaneoustransmitpower,implyingthepossibilityforincreasedpower-amplifierefficiency.ThepowervariationsaregenerallymeasuredbythePeak-to-Average-PowerRatio(PAPR),definedasthepeakpowerwithinoneOF
33、DMsymbolnormalizedbytheaveragesignalpower.ThePAPRissignificantlylowerforDFTS-OFDM,comparedtoOFDM,makingthusthistransmissiontechniqueveryusefulintheuplinkconsideringthetransmitpowercapabilitiesofthemobileterminal.ThebasicprincipleofDFTS-OFDMsignaldemodulationisillustratedin(seeFigure2-9,44DFTSOFDMdemodulation“).TheoperationsarebasicallythereverseofthosefortheDFTS-OFDMsignalgenerationof(seeFigure2-9,44DFTSOFDMdemodulation),i.e.size-NDFT(FFT)processing,removalofthefrequencysamplesnotcorrespondingtothesignaltobereceived,an抬一端加温SeDFTprocessing.(foikiinconversion
