基于非负矩阵分解的频谱感知技术研究被引量：2

Research on Spectrum Sensing in Cognitive Radios Based on Nonnegative Matrix Factorization

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摘要为了提高认知无线电系统中低信噪比条件下的频谱感知性能,提出了基于非负矩阵分解的频谱感知方法。在无需知道被感知信号的先验信息的条件下,将原始信号进行短时傅里叶变换后,利用非负矩阵分解的噪声与信号之间的特征矩阵存在的差异性,将特征矩阵作为检测统计量进行频谱感知。仿真结果表明,基于非负矩阵分解的频谱感知方法在低信噪比条件下,具有较传统的能量检测方法与循环平稳检测方法更优的感知性能。 To improve the performance of spectrum sensing of cognitive radio system in low SNR,a spectrum sensing based on nonnegative matrix factorization is proposed. After transforming the original signal by STFT,by using the differences between signal and noise of basis matrices,the basis matrices can be used as test statistics to perform the spectrum sensing,without knowing the prior information of sensed signal. The simulation results show the proposed method has better performance compared with the traditional methods of Energy Detection and Cyclostationary Feature Detection in low SNR.

作者张梦阳孙学斌李斌周正张梦阳孙学斌李斌周正

机构地区北京邮电大学信息与通信工程学院

出处《无线电工程》 2013年第11期1-3,7,共4页 Radio Engineering

基金中央高校基本科研业务费专项资金资助(2012RC0103) 国家自然科学基金资助(60902046 60972079 61271180) 国家科技重大专项资助(2011ZX03005-002 2012ZX03001022)

关键词认知无线电频谱感知非负矩阵分解特征矩阵 cognitive radio spectrum sensing NMF basis matrices

分类号 TN911.7 [电子电信—通信与信息系统]

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参考文献11

1MITOLA J,MAGUIRE G Q. Cognitive Radio : MakingSoftware Radios More Personal [ J]. IEEE Personal Com-munications ,1999 ,6(4) :13 - 18.
2AKYILDIZ I F,LEE W Y,VUKAN M C,et al. Next Gen-eration/Dynamic Spectrum Access/Cognitive Radio Wire-lessnetworks : A Survey [J]. Computer Networks Journal,2006,50(13) :2 127 -2 159.
3LI B , ZhOU Z,ZOU W X , et al. Interference Mitigationbetween Ultra-Wideband Sensor Network and Other LegalSystems [C] // EURASIP Journal on Wireless Communi-cations and Networking,2010: 1 -15.
4SRIDHARA K, CHANDRA A , TRIPATHI P S M. Spec-trum Challenges and Solutions by Cognitive Radio: anOverview [ J]. Wireless Personal Communications, 2008 ,45(3) :281 -291.
5WEISS T A, JONDRAL F K. Spectrum Pooling: An Inno-vative Strategy for the Enhancement of Spectrum Efficien-cy [J]. IEEE Commun. Mag. ,2004 ,42(5 ):8 - 14.
6CHEN X F,NAGARAJ S. Entropy Based Spectrum Sens-ing in Cognitive Radio [C] // 7th Annual Wireless Tele-communications Symposium, Ponoms, CA, United States,2008:57 -61.
7CABRIC D,MISHRA SM, BRODERSEN RW. Implementa-tion Issues in Spectrum Sensing for Cognitive Radios [ C] //Proc. Asilomar Conf. on Signals,Systems,and Computers,PacificGrove, CA, United States,2004:772 - 776.
8JARMO L,VISA K,AUN H,et al. Spectrum Sensing in Cog-nitive Radios Based on Multiple Cyclic Frequencies [ C] //Proceeding of the 2nd International Conference on CognitiveRadio Oriented Wireless Networks and Communications,CrownCom, Orlando, FL, United States ,2007 :37 -43.
9LEE D D,SEUNG H S. Learning the Parts of Objects byNon-negative Matrix Factorization [ J]. Nature, 1999 ,401(6755) :788 -791.
10LEE D D, SEUNG H S. Algorithms for Nonnegative MatrixFactorization [C] // Proceedings of Neural In formationProcessing Systems ,2001 :556 - 562.

同被引文献19

1梁德群,代守群,刘播雨,周竹青.移相重叠调制方法及其在有线宽带接入中的应用[J].科学技术与工程,2005,5(7):406-410. 被引量：1
2曹祁生,梁德群.突破正交约束的调制技术研究[J].中国科学（E辑）,2007,37(8):1066-1072. 被引量：3
3MITOLA J.Cognitive Radio:Making Software Radios More Personal[J]. IEEE Personal Communication, 1999, 6 (4) :13-18.
4HAYKIN S. Cognitive Radio: Brain-empowered Wireless Communications[ J ]. IEEE Journal on Selected Areas in Communications, 2005,23 (2) : 201 - 220.
5KRENIK W, BATRA A. Cognitive Radio Techniques for Wide Area Networks [ M ] .Design Automation Conference, California, USA, 2005 : 409-412.
6Natasha Devroye, Patrick Mitran, Vahid Tarokh. Limits on Communications in a Cognitive Radio Channel [ J]. IEEE Communications Magazine, 2006(6) :44-49.
7QUAN Zhi, CUI Shuguang, ALl H.Sayed, Optimal Linear Cooperation for Spectrum Sensing in Cognitive Radio Net- works[J] .IEEE Journal of Selected Topics in Signal Pro- cessing,2008,2( 1 ) :28-40.
8KAY S M.Fundamentals of Statistical Signal Processing: Detection Theory [ M ]. Englewood Cliffs, N J: Prentice- Hall, 1988.
9CABRIC D,TKACHENKO A, BRODERSEN R W.Experi- mental Study of Spectrum Sensing Based on Energy De- tection and Network Cooperation [ C ] // ACM 1st Int. Workshop on Technology and Policy for Accessing Spec- trum (TAPAS) ,2006.
10PEH Edward, LIANG ingchang, Optimization for Cooper- ative Sensing in Cognitive Radio Networks [ C ] // WC- N C2007,2007 : 27- 32.

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9冯登国.线性码和Walsh谱[J].信息安全与通信保密,1994,0(2):60-62. 被引量：2
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无线电工程

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基于非负矩阵分解的频谱感知技术研究被引量：2

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基于非负矩阵分解的频谱感知技术研究 被引量：2

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基于非负矩阵分解的频谱感知技术研究被引量：2