目录一、绪论.......................................................................................................................31.1、研究背景及意义....................................................31.2、国内外研究现状....................................................41.3、本文主要研究内容..................................................5二、基础知识................................................................................................................52.1、NOMA系统概述.....................................................52.2、NOMA中的关键技术.................................................6三、系统模型..............................................................8四、保密和率最大化........................................................9五、仿真分析.............................................................16参考文献.................................................................18致谢.....................................................................21摘要随着人们对移动数据的使用越来越频繁,数据流量增长的速度非常的快,人们其速率的要求越来越高,新兴业务的快速发展需要更多的频谱资源和更高的频谱使用率,这给稀缺的频率资源带来了巨大的挑战,所以具有更高速率和更高频谱效率的NOMA技术成为研究的热点,也是本文研究的重点。目前的许多研究成果中,下行链路NOMA系统的功率分配和用户配对是研究的热点,而专门关于物理安全方面的研究到目前为止还相对较少但是这方面的研究是未来研究的大方向,研究的重点对象。故本文研究的内容是单输入单输出(SISO)非正交多址系统中的物理层安全性,该系统由发射机,多个合法用户和窃听者组成。本文的目的是根据用户的服务质量(QoS)要求最大化非正交多址系统的保密和率(SSR)。我们首先确定发射功率的可行区域,以满足所有用户的QoS要求。然后,我们推导出最大化保密和率的最优功率分配策略的闭合表达式。得出数值结果对比传统正交多址(OMA)和非正交多址(NOMA)的差别,以此显示非正交多址(NOMA)显着的保密和率改善。关键字-非正交多址接入系统,物理层安全性,功率分配,优化AbstractWiththemoreandmorefrequentuseofmobiledata,thespeedofdatatrafficgrowthisveryfast,andpeople'sdemandforspeedisgettinghigherandhigher.Therapiddevelopmentofemergingservicesrequiresmorespectrumresourcesandhigherspectrumutilization,whichbringsgreatchallengestoscarcefrequencyresources.Therefore,theNOMAtechnologywithhigherspeedandspectrumefficiencyhasbecomearesearchhotspot.Pointsarealsothefocusofthispaper.Atpresent,powerallocationanduserpairingofdownlinkNOMAsystemsarethefocusofmanyresearchresults,buttheresearchonphysicalsecurityisrelativelyfewsofar.Butthisresearchisthemaindirectionoffutureresearchandthekeyobjectofresearch.Therefore,thecontentofthispaperisthephysicallayersecurityofSISOnon-orthogonalmultipleaccesssystem,whichconsistsoftransmitter,multiplelegitimateusersandeavesdroppers.Thepurposeofthispaperistomaximizetheconfidentialityandrate(SSR)ofnon-orthogonalmultipleaccesssystemsaccordingtothequalityofservice(QoS)requirementsofusers.Firstly,wedeterminethefeasibleregionoftransmissionpowertomeettheQoSrequirementsofallusers.Then,wederivetheclosedexpressionoftheoptimalpowerallocationstrategytomaximizeconfidentialityandrate.Thenumericalresultsarecomparedwiththedifferencesbetweentraditionalorthogonalmultipleaccess(OMA)andnon-orthogonalmultipleaccess(NOMA),whichshowsthatthesecurityandrateofnon-orthogonalmultipleaccess(NOMA)areimprovedsignificantly..IndexTerms—Non-orthogonalmultipleaccess,physicallayersecurity,pow...
