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一种快速的基于压缩感知的多普勒高分辨方法 被引量:7

Low complexity compressed sensing based Doppler high resolution algorithm
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摘要 利用雷达目标在多普勒域的稀疏性,基于压缩感知的目标多普勒估计方法,能够在有限的相干积累时间内实现多普勒的高分辨.然而,即使采用压缩感知中的一种高效算法——正交匹配追踪算法,其运算复杂度也相对较高.为了进一步降低运算复杂度,对接收脉冲进行分组,将一维的多普勒估计问题转化为一个二维的稀疏信号重构问题,进而利用一种针对二维稀疏信号优化的低复杂度正交匹配追踪算法对其进行估计.仿真表明,该方法具有较高的运算效率,并能够获得接近直接应用传统的正交匹配追踪算法的多普勒分辨率. Exploiting the sparsity of radar targets in the Doppler frequency domain,compressed sensing based Doppler estimation methods can lead to high resolution estimates of targets' Doppler frequencies in the very limited coherent integration time.However,this involves a large amount of computation even via an efficient algorithm—Orthogonal Matching Pursuit(OMP).For further reduction of computational complexity,the 1D Doppler estimation is translated into a 2D sparse signal recovery problem through a pulse grouping method.Then a low complexity OMP algorithm optimized for 2D sparse signals is utilized.Simulation results indicate that high resolution Doppler estimates approximating those of the OMP can be obtained with an improved efficiency.
作者 刘寅 吴顺君 张怀根 吴明宇 李春茂
机构地区 西安电子科技大学雷达信号处理国家重点实验室 南京电子技术研究所
出处 《西安电子科技大学学报》 EI CAS CSCD 北大核心 2011年第2期82-87,共6页 Journal of Xidian University
关键词 多普勒雷达 高分辨方法 低复杂度 压缩感知 稀疏表示 正交匹配追踪 Doppler radar high resolution methods low complexity compressed sensing sparse representation orthogonal matching pursuit
分类号 TN958.2 [电子电信—信号与信息处理]
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参考文献7

  • 1Donoho D L. Compressed Sensing [J]. IEEE Trans on Information Theory, 2006, 52(4): 1289-1306.
  • 2Cand~s E J, Romberg J, Tao T. Robust Uncertainty Principles: Exact Signal Reconstruction from Highly Incomplete Frequency hfformation [ J]. IEEE Trans on Information Theory, 2006, 52(2): 489-509.
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同被引文献162

  • 1肖汉光,蔡从中,廖克俊.利用声波和地震波识别军事车辆类型[J].系统工程理论与实践,2006,26(4):108-113. 被引量:7
  • 2Schwartz J, Steinberg B. Ultrasparse, ultrawideband arrays[J]. IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control, 1998,45 (2) 376-393.
  • 3Fishler E, Haimovieh A, Blum R, et al. MIMO radar: an idea whose time has come[C]//Proeeedings of the IEEE Radar Conferenee. Newark, N J, USA: IEEE, 2004:71-78.
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  • 5Candes E, Romberg J, Tao T. Robust uncertainty principles: exact signal reconstruction from highly incomplete frequency information[J]. IEEE Transactions on Information Theory, 2006, 52 (2) : 489- 509.
  • 6Donoho D L. Compressed sensing[J]. IEEE Transactions on Information Theory, 2006, 52 (4): 1289- 1306.
  • 7Candes E J, Romberg J. Practical signal recovery from random projections[C]//Proceedings of SPIE. San Jose, CA, USA: SPIE,2005:56-74.
  • 8Donoho D L, Tsaig Y. Extensions of compressed sensing[J]. Signal Processing, 2006, 86 (3): 533-548.
  • 9Kashin B. The widths of certain finite dimensional sets and classes of smooth functions[J]. Izv, Akad, Nauk SSSR, 1977,41(2) : 334-351.
  • 10Candes E J, Tao T. Near optimal signal recovery from random projections., universal encoding strate- gies[J]. IEEE Transactions on Information Theory, 2006,52 (12), 5406-5425.

引证文献7

二级引证文献60

西安电子科技大学学报
2011年 第2期

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