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A two-stage spectrum sensing scheme based on energy detection and a novel multitaper method 被引量:1

A two-stage spectrum sensing scheme based on energy detection and a novel multitaper method
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摘要 Wideband spectrum sensing has drawn much attention in recent years since it provides more opportunities to the secondary users. However, wideband spectrum sensing requires a long time and a complex mechanism at the sensing terminal. A two-stage wideband spectrum sensing scheme is considered to proceed spectrum sensing with low time consumption and high performance to tackle this predicament. In this scheme, a novel multitaper spectrum sensing (MSS) method is proposed to mitigate the poor performance of energy detection (ED) in the low signal-to-noise ratio (SNR) region. The closed-form expression of the decision threshold is derived based on the Neyman-Pearson criterion and the probability of detection in the Rayleigh fading channel is analyzed. An optimization problem is formulated to maximize the probability of detection of the proposed two-stage scheme and the average sensing time of the two-stage scheme is analyzed. Numerical results validate the efficiency of MSS and show that the two-stage spectrum sensing scheme enjoys higher performance in the low SNR region and lower time cost in the high SNR region than the single-stage scheme. Wideband spectrum sensing has drawn much attention in recent years since it provides more opportunities to the secondary users. However, wideband spectrum sensing requires a long time and a complex mechanism at the sensing terminal. A two-stage wideband spectrum sensing scheme is considered to proceed spectrum sensing with low time consumption and high performance to tackle this predicament. In this scheme, a novel multitaper spectrum sensing (MSS) method is proposed to mitigate the poor performance of energy detection (ED) in the low signal-to-noise ratio (SNR) region. The closed-form expression of the decision threshold is derived based on the Neyman-Pearson criterion and the probability of detection in the Rayleigh fading channel is analyzed. An optimization problem is formulated to maximize the probability of detection of the proposed two-stage scheme and the average sensing time of the two-stage scheme is analyzed. Numerical results validate the efficiency of MSS and show that the two-stage spectrum sensing scheme enjoys higher performance in the low SNR region and lower time cost in the high SNR region than the single-stage scheme.
作者 齐佩汉 李赞 司江勃 熊天意
机构地区 State Key Laboratory of Integrated Service Networks
出处 《Chinese Physics B》 SCIE EI CAS CSCD 2015年第4期497-506,共10页 中国物理B(英文版)
基金 Project supported by the National Natural Science Foundation of China(Grant No.61301179) the China Postdoctoral Science Foundation(Grant No.2014M550479) the Doctorial Programs Foundation of the Ministry of Education,China(Grant No.20110203110011)
关键词 cognitive radio wideband spectrum sensing multitaper TWO-STAGE cognitive radio, wideband spectrum sensing, multitaper, two-stage
分类号 TN925 [电子电信—通信与信息系统]
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参考文献30

  • 1FCC 2002 Spectrum Policy Task Force Report 02-155.
  • 2FCC 2003 Facilitating opportunities for flexible, efficient and reliable spectrum use employing cognitive radio technologies: Notice of proposed rulemaking and order 03-108.
  • 3Mitola J and Maguire G Q 1999 IEEE Personal Communications 6 13.
  • 4Mitola J 2000 "Cognitive radio: An integrated agent architecture for software defined radio", Ph. D. Dissertation (Stockholm, Sweden: KTH Royal Institute. of Technology).
  • 5Zu Y X and Zhou J 2012 Chin. Phys. B 21 019501.
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同被引文献11

  • 1Amir G, Sousa E S. Opportunistic Spectrum Access in Fading Channels Through Collaborative Sensing [ J ]. Journal of Communications, 2007, 2 (2) :2007.
  • 2Mohamad M H, Wen H C, Ismail M. Matched filter de- tection technique for GSM band[ C ]//Telecommunication Technologies International Symposium on. 2012: 271- 274.
  • 3Khan F, Nakagawa K. Comparative study of spectrum sensing techniques in cognitive radio networks [ C ]// Computer and Information Technology (WCCIT) , 2013 World Congress on. 2013 : 1-8.
  • 4Lee J H, Baek J H, Hwang S H. Collaborative Spectrum Sensing using Energy Detector in Multiple Antenna Sys- tem [ C ]//Advanced Communication Technology, lOth International Conference on. 2008:427-430.
  • 5Zhong G, Guo J, Zhao Z, et al. Cyclostationafity Based Multi-Antenna Spectrum Sensing in Cognitive Radio Networks [ C ]//Vehicular Technology Conference ( VTC 2010-Spring) , 2010 IEEE 71st. 2010:1-5.
  • 6Yang J, Yan X, Gao M, et al. A novel spectrum sens- ing scheme based on phase difference [ C ]//Wireless Communications and Networking Conference (WCNC) , 2014 IEEE. 2014:264-268.
  • 7Kay S M M. Fundamentals of Statistical Signal Process- ing, Vol I: Estimation Theory [ J ]. Technometrics, 1993, 1 (4) :465-466.
  • 8Kay S. Fundamentals of Statistical Signal Processing, Volume II : Detection Theory [ J ]. Technometfies, 1990, 32(4) :465-465.
  • 9Tretter S A. Estimating the frequency of a noisy sinusoid by linear regression[J]. IEEE Transactions on Informa- tion Theory, 1985, 31(6) :832-835.
  • 10潘建国,翟旭平.基于能量检测的频谱感知方法[J].上海大学学报(自然科学版),2009,15(1):54-59. 被引量:24

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Chinese Physics B
2015年 第4期

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