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一种基于无先导卡尔曼滤波的混沌相移键控通信系统的非相干检测方法

陈宏滨 冯久超 胡志辉

陈宏滨, 冯久超, 胡志辉. 一种基于无先导卡尔曼滤波的混沌相移键控通信系统的非相干检测方法[J]. 电子与信息学报, 2008, 30(7): 1576-1579. doi: 10.3724/SP.J.1146.2006.02032
引用本文: 陈宏滨, 冯久超, 胡志辉. 一种基于无先导卡尔曼滤波的混沌相移键控通信系统的非相干检测方法[J]. 电子与信息学报, 2008, 30(7): 1576-1579. doi: 10.3724/SP.J.1146.2006.02032
Chen Hong-bin, Feng Jiu-chao, Hu Zhi-hui. A Noncoherent Detection Method for Chaos-Shift-Keying Communication System Based on Unscented Kalman Filter[J]. Journal of Electronics & Information Technology, 2008, 30(7): 1576-1579. doi: 10.3724/SP.J.1146.2006.02032
Citation: Chen Hong-bin, Feng Jiu-chao, Hu Zhi-hui. A Noncoherent Detection Method for Chaos-Shift-Keying Communication System Based on Unscented Kalman Filter[J]. Journal of Electronics & Information Technology, 2008, 30(7): 1576-1579. doi: 10.3724/SP.J.1146.2006.02032

一种基于无先导卡尔曼滤波的混沌相移键控通信系统的非相干检测方法

doi: 10.3724/SP.J.1146.2006.02032
基金项目: 

国家自然科学基金(60572025)、教育部基金(NCET-04-0813, 105137)、广东省自然科学基金(04205783,07006496)和华南理工大学博士学位论文创新基金资助课题

A Noncoherent Detection Method for Chaos-Shift-Keying Communication System Based on Unscented Kalman Filter

  • 摘要: 基于UKF算法,该文提出一种CSK通信系统的非相干检测方法。第一个发送符号作为训练符号,接收端根据第一个发送周期内的接收信号,应用UKF算法估计载波信号;然后将估计的载波信号和后续接收信号相乘,解调后续发送符号。与相干检测方法相比,这种方法不需要混沌同步。仿真结果表明,与已有的非相干检测方法相比,这种方法具有较好的误码性能,甚至比FM-DCSK通信系统的误码性能更好。
  • Pecora L M and Caroll T L. Synchronization in chaoticsystems[J].Physics Review Letters.1990, 64(8):821-824[2]Dedieu H, Kennedy M P, and Hasler M. Chaos shift keying:Modulation and demodulation of a chaotic carrier usingself-synchronizing Chuas circuits[J].IEEE Trans. on Circuitsand Systems-part II.1993, 40(10):634-642[3]Kolumban G, Vizvari G K, and Schwarz W, et al..Differential chaos shift keying: A robust coding for chaoscommunication. in Proceedings of International Workshop onNonlinear Dynamics of Electronic Systems, Seville, Spain,June 27-28, 1996: 87-92.[4]Kolumban G, Kis G, and Jako Z, et al.. FM-DCSK: A robustmodulation scheme for chaotic communications. IEICETransactions on Fundamentals of Electronics,Communications and Computer Sciences, 1998, E81-A(9):1798-1802.[5]Kisel A, Dedieu H, and Schimming T. Maximum likelihoodapproaches for noncoherent communications with chaoticcarriers[J].IEEE Transactions on Circuits and Systems-part I.2001, 48(5):533-542[6]Feng J C and Tse C K. On-line adaptive chaotic demodulatorbased on radial-basis-function neural networks. PhysicalReview E, 2001, 63(2): 1-10.[7]Tse C K, Lau F C M, and Cheong K Y, et al.. Return-mapbasedapproaches for noncoherent detection in chaotic digitalcommunications[J].IEEE Trans. on Circuits and Systems-part I.2002, 49(10):1495-1499[8]Zhu Z W and Leung H. Combined demodulation withadaptive blind equalization for chaotic modulationcommunication systems[J].IEEE Trans. on Circuits andSystems-part I.2002, 49(12):1811-1820[9]Kolumban G, Kis G, and Lau F C M, et al.. Optimalnoncoherent FM-DCSK detector: Application of chaoticGML decision rule. in IEEE International Symposium onCircuits and Systems, Vancouver, Canada, May 23-26, 2004,IV: 597-600.[10]Julier S J and Uhlmann J K. Unscented filtering andnonlinear estimation[J].Proc. of the IEEE.2004, 92(3):401-422[11]王世元, 冯久超. 一种对噪声混沌信号的滤波方法. 电路与系统学报, 2004, 9(4): 58-62.Wang S Y and Feng J C. A noise reduction method for noisychaotic signal. Journal of Circuits and Systems, 2004, 9(4):58-62.[12]Lau F C M and Tse C K. Chaos-Based DigitalCommunication Systems, Heidelberg: Springer Verlag, 2003:41-96.[13]Xiong K, Zhang H Y, and Chan C W. Performanceevaluation of UKF-based nonlinear filtering[J].Automatica.2006, 42(2):261-270
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出版历程
  • 收稿日期:  2006-12-25
  • 修回日期:  2007-06-28
  • 刊出日期:  2008-07-19

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