稀疏图DS-CDMA系统设计被引量：2

Design of DS-CDMA system on sparse graph

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摘要 DS-CDMA是在扩频技术上发展起来的多址接入方式,但在用户接入数量过载时难以保证高质量的通信性能。基于此,提出了一种基于稀疏图的DS-CDMA系统。该系统以低密度二分图的形式来描述扩频码片和用户之间的关系,使得参与通信的每个用户只在少量码片上进行非零位扩频调制,最大限度地减少了用户间的相互干扰。借助图模型的相关理论,把适合于稀疏图的置信度传播算法应用于该系统,进行多用户检测,通过码片与用户之间的消息迭代来消除噪声和多址干扰带来的影响。结合计算机仿真,从不同的角度测试了系统的误码率等性能。理论分析与性能验证表明,稀疏图DS-CDMA在接入用户数量远远超过系统容量的情况下,依然具有优良的性能。 DS-CDMA developed on spread spectrum is a multiple access technology, but it is difficult for such a system to attain a satisfactory performance under overloading conditions. A sparse DS-CDMA system is presented. It is possible to represent the relationship between the chips and the users using a low density Tanner graph. By doing so, each user is only connected to limited non-zero chips, which can minimize the multiuser interference. According to graph theory, a belief propagation algorithm, which is suitable to the case of low density graph, was adopted by the sparse DS-CDMA to perform multiuser detection. Thus the negative effect of channel noisy and interference can be eliminated. Computer simulation was done. The theory analysis and simulation results showed that the sparse DS-CDMA can achieve excellent performance even under serious overloading conditions.

作者文磊雷菁魏急波李赛斯

机构地区国防科技大学电子科学与工程学院湘潭大学信息工程学院

出处《国防科技大学学报》 EI CAS CSCD 北大核心 2014年第4期89-96,共8页 Journal of National University of Defense Technology

基金国家自然科学基金资助项目(61372098) 湖南省自然科学基金资助项目(S2012J5042)

关键词 DS-CDMA 稀疏图扩频多址干扰多用户检测 DS-CDMA low density graph spread spectrum multiple access interference multiuser detection

分类号 TN911.22 [电子电信—通信与信息系统]

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参考文献15

1Nguyen H, Shwedyk E. A new construction ofsignaturewaveforms for synchronous CDMA systems[J]. IEEETransactionsonBroadcast,2005,51(4):520-529.
2KapurCharDirChungA,Wei-ChangChen,Wei-LunLin.RealizablebandlimitedDSCDMA system occupyingnyquistbandwidth[J]. IEEE Communications Letters, 2012,16(7):964-967.
3DinisR,SilvaP.IterativedetectionofmulticodeDSCDMAsignalswith strongnonlineardistortion effects[J]. IEEETransactionsonVehicularTechnology,2009,58(8):4169-4181.
4GrinerUN,ArnonS.MultiuserdiffuseindoorwirelessinfraredcommunicationusingequalizedsynchronousCDMA[J].IEEETransactionsonCommunications,2006,54(9):1654-1662.
5LamareR C D.JointiterativepowerallocationandlinearinterferencesuppressionalgorithmsforcooperativeDSCDMAnetworks[J].IETCommunications,2012,6(13):1930-1942.
6CaiYL,LamareRC,FaR.SwitchedinterleavingtechniqueswithlimitedfeedbackforinterferencemitigationinDSCDMAsystems[J].IEEETransactionsonCommunications,2011,59(7):1946-1956.
7MontanariA,TseD.Analysisofbeliefpropagationfornonlinearproblems:TheexampleofCDMA (or:Howtoprovetanaka’sformula)[C]//IEEEInformationTheoryWorkshop,March2006:160-164.
8HoshyarR, Wathan F P, Tafa2011iR.Novellowdensitysignatureforsynchronouscdmasystemsoverawgnchannel[J].IEEETransactionsonSignalProcessing,2008,56(4):1616-1626.
9RieraPalouF,FemeniasG,RamisJ.Onthedesignofuplinkanddownlinkgrouporthogonalmulticarrierwirelesssystems[J].IEEETransactionsonCommunications,2008,56(10):1656-1655.
10AcolasterK,BarNessY.PerformanceanalysisofspacetimespreadingDSCDMA systemsoverfastfadinggeneraltimecorrelated channels[J]. IEEE CommunicationsLetters,2010,14(11):993-995.

同被引文献12

1Srikanth S, Pandian A M, Fernando X. Orthogonal frequency division multiple access in WiMAX and LTE a comparison[J]. IEEE Communications Mag- azine, 2012, 50(9): 153-161.
2Mukherjee M, Kumar P. Variable rate transmission schemes for CI/MC-CDMA system[J]. IEEE Com- munication Letters, 2012, 16(7): 1137-1139.
3Giannetti F, Lottici V, Stupia I. Theoretical per formance of bandlimited MC-CDMAsystems over nonlinear channels[J]. IEEE Transactions on Corn-munications, 2009, 57(6): 1638-1642.
4Vella J, Zammit S. A survey of multicasting over wireless access networks[J]. IEEE Communications Surveys and Tutorials, 2013, 15(2).. 718-753.
5Kim Minyoung. Probabilistic sequence translation- alignment model for time-series classification [J]. IEEE Transactions on Knowledge and Data Engineer- ing, 2013, 26(2).. 426-437.
6Mallik R K, Singh S. Signal design for multiple an- tenna systems with spatial multiplexing and noncoher- ent reception[J]. IEEE Transactions on Communica- tions, 2015, 63(4).. 1245-1258.
7Haghighat P, Ghrayeb A. Trickle-based interference cancellation schemes for CDMA systems[J]. IEEE Transactions on Wireless Communications, 2009, 8(1) .. 13-17.
8Al-fuhaidi B A, Hassan H E A, Salah M M, et al. Parallel interference cancellation with different linear equalization and rake receiver for the downlink MC-CDMA systems[J], lET Communications, 2012, 6 IRE 8(1) 2351-2360.
9ger R G. Low-density parity-check codes[J]. Transactions on Information Theory, 1962, 21-28.
10Wymeersch H, Steendam H, Moeneclaey M. Log- domain decoding of LDPC codes over GF(q) [C]// IEEE International Conference on Communications. Paris IEEE, 2004: 772-776.

引证文献2

1文磊,雷菁,魏急波,王建新.MC-CDMA系统中的多进制联合稀疏图设计[J].华中科技大学学报（自然科学版）,2016,44(5):58-63. 被引量：1
2文磊,雷菁,魏急波,王建新.基于联合稀疏图的CDMA系统建模与分析[J].华南理工大学学报（自然科学版）,2016,44(9):73-80.

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1侯莉莎.基于物联网的多船舶联合通信系统设计[J].舰船科学技术,2018,0(3X):115-117.

1文磊,雷菁,魏急波,王建新.基于联合稀疏图的CDMA系统建模与分析[J].华南理工大学学报（自然科学版）,2016,44(9):73-80.
2文磊,雷菁,魏急波,王建新.MC-CDMA系统中的多进制联合稀疏图设计[J].华中科技大学学报（自然科学版）,2016,44(5):58-63. 被引量：1
3吴樱,李莉,王沛.在二元AWGN信道下规则LDPC码的性能仿真[J].上海师范大学学报（自然科学版）,2007,36(4):58-62.
4邵军虎,白宝明,林伟,周林.Jointly-check iterative decoding algorithm for quantum sparse graph codes[J].Chinese Physics B,2010,19(8):116-122. 被引量：1
5张大伟,解小建,徐凤军.一种改善LDPC译码性能的新方法[J].电子测量技术,2011,34(3):5-7. 被引量：2
6李伟华,焦秉立.一种基于分段CRC的LDPC译码的改进算法[J].电子与信息学报,2008,30(5):1167-1170. 被引量：1
7缪德山,李道本.一种改进的LDPC码译码算法[J].电子测量与仪器学报,2007,21(6):19-21. 被引量：4
8王滢波（整编）.速龙码编码技术的特性及其应用[J].电信资料,2007(1):21-26.
9冷蛟锋,郝士琦,吕旭光,周建国,赵楠翔.基于MMSE的大气激光通信中LDPC码BP译码算法研究[J].光子学报,2012,41(3):277-282.
10赵生妹,李苗苗,郑宝玉.一种基于量子纠错编码的量子密钥分配协议[J].电子与信息学报,2009,31(4):954-957. 被引量：9

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稀疏图DS-CDMA系统设计被引量：2

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稀疏图DS-CDMA系统设计 被引量：2

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稀疏图DS-CDMA系统设计被引量：2