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研究水声环境下匹配场定位中快拍数少和相干声源导致定位不准确问题。在水下目标定位的稀疏数学模型基础上,通过对测量矩阵中的列向量的模进行标准化,降低了由于距离原因对声源定位性能的影响;使用奇异值分解法对快拍数进行精简,降低了算法的时间复杂度;结合压缩感知理论的SOMP算法,实现高效的水下目标定位。仿真实例验证了该算法的有效性。
Abstract:The problem caused by being short of snapshots and by coherent sources in the matched field localization is considered.The sparse mathematical model of underwater localization is constructed,and the adverse effects caused by long distance in source localization is reduced through normalization of the vectors in the measurement matrix;Time complexity is also reduced by the singular value decomposition to the snapshots matrix;combined with the SOMP algorithm in compressed sensing theory,high performance underwater localization is achieved.Simulation results demonstrate the efficiency of the proposed algorithm.
[1]Baggeroer A B,Kuperman W A,Mikhalevsky P N.An overview of matched field methods in ocean acoustics[J].Oceanic Engineering,1993,18(4):401-424.
[2]Tolstoy A.Matched Field Proeessing for Underwater Acoustic[M].Singapore:World Scientific Publishing Co Pte Ltd,1993.
[3]Capon J.High-resolution frequency-wavenumber spectrum analysis[J].Proceedings of the IEEE,1969,57(8):1408-1418.
[4]Cox H,Zeskind R,Owen M.Robust adaptive beamforming[J].Acoustics,Speech and Signal Processing,IEEE Transactions on,1987,35(10):1365-1376.
[5]时洁.基于矢量阵的水下噪声源近场高分辨定位识别方法研究[D].哈尔滨:哈尔滨工程大学,2009.
[6]Donoho D L.Compressed sensing[J].Information Theory,IEEE Transactions on,2006,52(4):1289-1306.
[7]Candes E J,Tao T.Decoding by linear programming[J].Information Theory,IEEE Transactions on,2005,51(12):4203-4215.
[8]Needell D,Vershynin R.Signal recovery from incomplete and inaccurate measurements via regularized orthogonal matching pursuit[J].Selected Topics in Signal Processing,IEEE Journal of,2010,4(2):310-316.
[9]Gorodnitsky I F,George J S,Rao B D.Neuromagnetic source imaging with FOCUSS:a recursive weighted minimum norm algorithm[J].Electroencephalography and clinical Neurophysiology,1995,95(4):231-251.
[10]Chartrand R,Yin W.Iteratively reweighted algorithms for compressive sensing[C]//Lagvegas:Acoustics,Speech and Signal Processing,2008.ICASSP 2008.IEEE International Conference on.IEEE,2008:3869-3872.
[11]Cotter S F,Rao B D,Engan K,et al.Sparse solutions to linear inverse problems with multiple measurement vectors[J].Signal Processing,IEEE Transactions on,2005,53(7):2477-2488.
[12]Chen J,Huo X.Theoretical results on sparse representations of multiple-measurement vectors[J].Signal Processing,IEEE Transactions on,2006,54(12):4634-4643.
[13]Van Den Berg E,Friedlander M P.Theoretical and empirical results for recovery from multiple measurements[J].Information Theory,IEEE Transactions on,2010,56(5):2516-2527.
[14]Mishali M,Eldar Y C.Reduce and boost:Recovering arbitrary sets of jointly sparse vectors[J].Signal Processing,IEEE Transactions on,2008,56(10):4692-4702.
[15]Tropp J A,Gilbert A C,Strauss M J.Algorithms for simultaneous sparse approximation.Part I:Greedy pursuit[J].Signal Processing,2006,86(3):572-588.
[16]Tropp J A.Algorithms for simultaneous sparse approximation.Part II:Convex relaxation[J].Signal Processing,2006,86(3):589-602.
[17]石绘红.基于稀疏重建的高分辨力匹配场源定位[D].杭州:浙江大学,2013.
[18]Devaney A J.Super-resolution processing of multi-static data using ime-reversal and MUSIC[J].J Acoust Soc Am,2000.
[19]Needell D,Vershynin R.Signal recovery from incomplete and inaccurate measurements via regularized orthogonal matching pursuit[J].Selected Topics in Signal Processing,IEEE Journal of,2010,4(2):310-316.
基本信息:
DOI:10.16441/j.cnki.hdxb.20130467
中图分类号:TN911.7
引用信息:
[1]郭双乐,彭临慧,唐瑞春.基于压缩感知的水下目标定位[J],2015,45(10):127-132.DOI:10.16441/j.cnki.hdxb.20130467.
基金信息:
中国科学院声场声信息国家重点实验室开放基金项目(SKLA201202)资助