频控阵MIMO雷达中基于稀疏迭代的多维信息联合估计方法

巩朋成 刘刚 黄禾 王文钦

巩朋成, 刘刚, 黄禾, 王文钦. 频控阵MIMO雷达中基于稀疏迭代的多维信息联合估计方法[J]. 雷达学报, 2018, 7(2): 194-201. doi: 10.12000/JR16121
引用本文: 巩朋成, 刘刚, 黄禾, 王文钦. 频控阵MIMO雷达中基于稀疏迭代的多维信息联合估计方法[J]. 雷达学报, 2018, 7(2): 194-201. doi: 10.12000/JR16121
Gong Pengcheng, Liu Gang, Huang He, Wang Wenqin. Multidimensional Parameter Estimation Method Based on Sparse Iteration in FDA-MIMO Radar[J]. Journal of Radars, 2018, 7(2): 194-201. doi: 10.12000/JR16121
Citation: Gong Pengcheng, Liu Gang, Huang He, Wang Wenqin. Multidimensional Parameter Estimation Method Based on Sparse Iteration in FDA-MIMO Radar[J]. Journal of Radars, 2018, 7(2): 194-201. doi: 10.12000/JR16121

频控阵MIMO雷达中基于稀疏迭代的多维信息联合估计方法

DOI: 10.12000/JR16121
基金项目: 

国家自然科学基金(61601178),中国博士后科学基金(2016M600729),博士科研启动金(BSQD14032)

详细信息
    作者简介:

    巩朋成(1982-),男,甘肃甘谷人,现为电子科技大学博士后,主要研究方向为MIMO雷达、频控阵列信号处理以及波形设计等。E-mail:gpcheng03@163.com;王文钦(1979-),男,四川眉山人,教授,博士生导师,研究方向为现代信号处理及其应用研究。E-mail:wqwang@uestc.edu.cn

    通讯作者:

    巩朋成gpcheng03@163.com

Multidimensional Parameter Estimation Method Based on Sparse Iteration in FDA-MIMO Radar

Funds: 

The National Natural Science Foundation of China (61601178), China Postdoctoral Science Foundation (2016M600729), The Doctoral Starting up Foundation (BSQD14032)

  • 摘要: 传统MIMO雷达为了获得准确的距离信息不仅需要引入转移矩阵,而且需要积累更多的快拍数。针对该问题,该文提出了基于稀疏迭代的频控阵MIMO雷达多维信息(距离、角度和幅度)估计方法,该方法利用频控阵MIMO的发射导向矢量不仅与目标的方位角有关,同时也与目标的距离有关这一特性,通过优化加权lq范数(0 q 1)的目标函数,采用稀疏迭代优化获取目标的距离、角度和幅度信息。该方法仅需单次快拍,并在每次迭代中求解到了目标的多维信息,故不需借助优化工具获得目标信息。仿真显示,相比DAS,IAA和IAA-R,该方法在有效减少快拍数和处理数据的同时,获得了高分辨率的目标距离、角度和幅度估计性能。

     

  • [1] Tarokh V, Seshadri N, and Calderbank A R. Space-time codes for high data rate wireless communication:Performance criterion and code construction[J]. IEEE Transactions on Information Theory, 1998, 44(2):744-765.
    [2] Paulraj A, Gore D, Nabar R, et al.. An overview of MIMO communications-A key to gigabit wireless[J]. Proceedings of the IEEE, 2004, 92(2):198-218.
    [3] Bliss D W and Forsythe K W. Multiple-Input Multiple-Output (MIMO) radar and imaging:Degrees of freedom and resolution[C]. Proceeding 37th Asilomar Conference on Signal, System and Computers, Pacific Grove, CA, 2003, 1:54-59.
    [4] Rabideau D and Parker P. Ubiquitous MIMO multifunction digital array radar[C]. Proceeding 37th Asilomar Conference on Signals, Systems and Computers, Pacific Grove, CA, 2003, 1:1057-1064.
    [5] Fishler E, Haimovich A, Blum R, et al.. MIMO radar:An idea whose time has come[C]. Proceedings of the 2004 IEEE Radar Conference, Philadelphia, Pennsylvania, 2004:71-78.
    [6] Antonik P, Wicks M C, Griffiths H D, et al.. Frequency diverse array radars[C]. 2006 IEEE Conference on Radar, Verona, New York, USA, 2006:215-217.
    [7] 巩朋成, 邵振海, 涂光鹏, 等. 基于发射方向图合成的低PAPR宽带MIMO雷达波形设计[J]. 中国科学:信息科学, 2013, 43(3):429-444.DOI: 10.1360/112012-503. Gong Peng-cheng, Shao Zhen-hai, Tu Guang-peng, et al.. Low PAPR waveform design based on transmit beampattern synthesis for wideband MIMO radars[J]. SCIENCE CHINA Information, 2013, 43(3):429-444. DOI:10.1360/112012-503.
    [8] Gong P, Shao Z, Tu G, et al. Transmit beampattern design based on convex optimization for MIMO radar systems[J]. Signal Processing, 2014, 94(1):195-201.
    [9] Sammartino P F, Baker C J, and Griffiths H D. Frequency diverse MIMO techniques for radar[J]. IEEE Transactions on Aerospace and Electronic Systems, 2013, 49(1):201-222.
    [10] Wang W Q and So H C. Transmit subaperturing for range and angle estimation in frequency diverse array radar[J]. IEEE Transactions on Signal Processing, 2014, 62(8):2000-2011.
    [11] 许京伟, 廖桂生. 前视阵FDA-STAP雷达距离模糊杂波抑制方法[J]. 雷达学报, 2015, 4(4):386-392.DOI:10.12000/JR15101. Xu Jing-wei and Liao Gui-sheng. Range-ambiguous clutter suppression for forward-looking frequency diverse array space-time adaptive processing radar[J]. Journal of Radars, 2015, 4(4):386-392. DOI:10.12000/JR15101.
    [12] Wang W Q and Shao H Z. Range-angle localization of targets by a double-pulse frequency diverse array radar[J]. IEEE Journal of Selected Topics in Signal Processing, 2014, 8(1):106-114. DOI: 10.1109/JSTSP.2013.2285528.
    [13] 王文钦, 邵怀宗, 陈慧. 频控阵雷达:概念、原理与应用[J]. 电子与信息学报, 2016, 38(4):1000-1011.DOI:10.11999/JEIT151235. Wang Wen-qin, Shao Huai-zong, and Chen Hui. Frequency diverse array radar:Concept, principle and application[J]. Journal of Electronics Information Technology, 2016, 38(4):1000-1011. DOI:10.11999/JEIT151235.
    [14] Roberts W, Stoica P, et al.. Iterative adaptive approaches to MIMO radar imaging[J].IEEE Journal of Selected Topics in Signal Processing, 2010, 4(1):5-20.
    [15] Gong P and Shao Z. Target estimation by iterative reweighted lq minimization for MIMO radar[J].Signal Processing, 2014, 101:35-41.
    [16] Cands E J, Wakin M B, and Boyd S P. Enhancing sparsity by reweighted l1 minimization[J]. Journal of Fourier Analysis and Applications, 2008, 14(5/6):877-905.
    [17] Chartrand R. Exact reconstruction of sparse signals via nonconvex minimization[J]. IEEE Signal Processing Letter, 2007, 14(10):707-710.
    [18] He H, Stoica P, and Li J. Designing unimodular sequence sets with good correlations-including an application to MIMO radar[J]. IEEE Transactions on Signal Processing, 2009, 57(11):4391-4405.
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出版历程
  • 收稿日期:  2016-11-01
  • 修回日期:  2016-11-28
  • 网络出版日期:  2018-04-28

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