COOPERATIVE WIDEBAND SPECTRUM SENSING BASED ON SEQUENTIAL COMPRESSED SENSING 被引量：2

COOPERATIVE WIDEBAND SPECTRUM SENSING BASED ON SEQUENTIAL COMPRESSED SENSING

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摘要 Compressed sensing offers a new wideband spectrum sensing scheme in Cognitive Radio (CR). A major challenge of this scheme is how to determinate the required measurements while the signal sparsity is not known a priori. This paper presents a cooperative sensing scheme based on se-quential compressed sensing where sequential measurements are collected from the analog-to-information converters. A novel cooperative compressed sensing recovery algorithm named Simul-taneous Sparsity Adaptive Matching Pursuit (SSAMP) is utilized for sequential compressed sensing in order to estimate the reconstruction errors and determinate the minimal number of required meas-urements. Once the fusion center obtains enough measurements, the reconstruction spectrum sparse vectors are then used to make a decision on spectrum occupancy. Simulations corroborate the effec-tiveness of the estimation and sensing performance of our cooperative scheme. Meanwhile, the per-formance of SSAMP and Simultaneous Orthogonal Matching Pursuit (SOMP) is evaluated by Mean-Square estimation Errors (MSE) and sensing time. Compressed sensing offers a new wideband spectrum sensing scheme in Cognitive Radio （CR）. A major challenge of this scheme is how to determinate the required measurements while the signal sparsity is not known a priori. This paper presents a cooperative sensing scheme based on se-quential compressed sensing where sequential measurements are collected from the analog-to-information converters. A novel cooperative compressed sensing recovery algorithm named Simul-taneous Sparsity Adaptive Matching Pursuit （SSAMP） is utilized for sequential compressed sensing in order to estimate the reconstruction errors and determinate the minimal number of required meas-urements. Once the fusion center obtains enough measurements, the reconstruction spectrum sparse vectors are then used to make a decision on spectrum occupancy. Simulations corroborate the effec-tiveness of the estimation and sensing performance of our cooperative scheme. Meanwhile, the per-formance of SSAMP and Simultaneous Orthogonal Matching Pursuit （SOMP） is evaluated by Mean-Square estimation Errors （MSE） and sensing time.b

作者 Gu Bin Yang Zhen Hu Haifeng

机构地区 Institute of Signal Processing and Transmission Key Lab of Broadband Wireless Communication and Sensor Network Technology

出处《Journal of Electronics(China)》 2011年第3期313-319,共7页 电子科学学刊（英文版）

基金 Supported by the National High Technology Research and Development Program(No.2009AA01Z241) the National Natural Science Foundation(No.60971129,No.61071092)

关键词 Cognitive Radio (CR) Wideband spectrum sensing Sequential compressed sensing Matching pursuit Cognitive Radio （CR） Wideband spectrum sensing Sequential compressed sensing Matching pursuit

分类号 TN92 [电子电信—通信与信息系统]

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参考文献15

1E.Candes,J.Romberg,T.Tao.Robust uncer-tainty principles:Exact signal reconstruction from highly incomplete frequency information. IEEE Transactions on Information Theory . 2006 被引量：1
2D.L.Donoho.Compressed sensing. IEEE Transac-tions on Information Theory . 2006 被引量：1
3Z.Tian,G.B.Giannakis.Compressed sensing for wideband cognitive radios. Proceedings of the In-ternational Conference on Acoustics,Speech,and Signal Processing . 2007 被引量：1
4Y.L.Polo,Y.Wang,A.Pandharipande,et al.Compressive wideband spectrum sensing. Interna-tional Conference on Acoustics,Speech,and Signal Processing . 2009 被引量：1
5J.Laska,S.Kirolos,Y.Massoud Y,et al.Random sampling for analog-to-information conversion of wideband signals. IEEE Dallas Circuits and Systems Workshop . Oct.29–302006 被引量：1
6J.A.Tropp,A.C.Gilbert.Signal recovery from random measurements via orthogonal matching pur-suit. IEEE Transactions on Information Theory . 2007 被引量：1
7D.L.Donoho,Y.Tsaig,J.Starck.Sparse solution of underdetermined linear equations by stagewise orthogonal matching pursuit. http://www-stat.stan-ford.edu/-donoho/Reports/2006/ . 2006 被引量：1
8D.Needell,R.Vershynin.Signal recovery from incomplete and inaccurate measurements via regu-larized orthogonal matching pursuit. IEEE Journal of Selected Topics in Signal Processing . 2010 被引量：1
9W.Dai,O.Milenkovic.Subspace pursuit for compressive sensing signal reconstruction. IEEE Transactions on Information Theory . 2009 被引量：1
10T.T.Do,,L.Gan,N.Nguyen,et al.Sparsity adaptive matching pursuit algorithm for practical compressed sensing. 42nd Asilomar Conference on Signals,Sys-tems and Computers . Oct.26–292008 被引量：1

同被引文献17

1Heinzelman W B,Chandrakasan A P,Balakrishnan H. An ap- plication-specific protocol architecture for wireless microsen- sot networks[ J]. IEEE Transactions on Wireless Communica- tions,2002,1 (4) :660-670. 被引量：1
2Zahmati A S, Hussain S, Fernando X,et al. Cognitive wireless sensor networks:emerging topics and recent challenges [ C ]// Proc of 2009 IEEE Toronto international conference on science and technology for humanity. Toronto :IEEE ,2009:593-596. 被引量：1
3Akan O, Karli O, Ergul O. Cognitive radio sensor networks [ J ]. IEEE Network,2009,23 (4) :34-40. 被引量：1
4Gao S, Qian L, Vaman D R, et al. Energy e~eient adaptive modulation in wireless cognitive radio sensor networks[ C ]// Proc of IEEE international conference on communications. [ s. 1. ] :IEEE ,2007:3980-3986. 被引量：1
5Sun C,Zhang W, Ben K. Cluster-based cooperative spectrum sensing in cognitive radio systems[ C ]//Proc of IEEE interna- tional conference on communications. Glasgow : IEEE, 2007 : 2511-2515. 被引量：1
6Liang Y C, Zeng Y, Peh E C Y, et al. Sensing- throughput tradeoff for cognitive radio networks[ J]. IEEE Transactions on Wireless Communications,2008,7 (4) : 1326-1337. 被引量：1
7Peh E C Y, Liang Y C, Guan Y L, et al. Optimization of coop- erative sensing in cognitive radio networks:a sensing-through- put tradeoff view [ J ]. IEEE Transactions on Vehicular Tech- nology ,2009,58 (9) :5294-5299. 被引量：1
8Nie G, Wang Y, Li G, et al. Sensing-throughput tradeoff in cluster-based cooperative cognitive radio networks: a novel frame structure [ C ]//Proc of vehicular technology confer- ence. Is. 1. ] :IEEE,2012:1-5. 被引量：1
9Tehrani M N, Uysal M. Sensing-throughput tradeoff in cooper- ative spectrum sensing [ C ]//Proc of Globecom workshops. [ s. 1. ] :IEEE ,2012:174-179. 被引量：1
10Jafarian J, Hamdi K A. Sensing-throughput tradeoff in a non-cooperative double-threshold sensing scheme [ C ]//Proc of 4th international congress on ultra modem tel and control systems and workshops. [ s. 1. ] :IEEE ,2012:201- 206. 被引量：1

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8汪进鸿,韩宇星.用于作物表型信息边缘计算采集的认知无线传感器网络分簇路由算法[J].智慧农业（中英文）,2020,2(2):28-47. 被引量：7

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Journal of Electronics(China)

2011年第3期

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COOPERATIVE WIDEBAND SPECTRUM SENSING BASED ON SEQUENTIAL COMPRESSED SENSING 被引量：2

参考文献15

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