多输入多输出天波超视距雷达多模杂波抑制的改进最小方差无失真响应算法研究

doi:10.3969/j.issn.1000-1093.2020.05.010

摘要/Abstract

摘要： 多输入多输出天波超视距雷达(MIMO-OTHR)通常利用最小方差无失真响应(MVDR)波束形成来抑制接收回波中的电离层多模杂波对目标探测的影响。由于MIMO-OTHR的全向性发射、杂波噪声协方差矩阵估计不准确以及有限相干积累时间内训练样本数过少，使传统MVDR输出信杂噪比(SCNR)较低。对MIMO-OTHR中的MVDR算法进行改进，以改善其多模杂波的抑制能力。利用2阶锥规划进行发射波束域预处理，将发射能量集中到主模式角度；在阵列接收端进行阵列平滑，抑制主模期望信号，提高杂波噪声协方差矩阵估计精度；利用MVDR波束形成双迭代算法，降低对计算量与训练样本数的需求。仿真结果表明：改进MVDR算法可有效抑制多模杂波；以较少训练样本及较小计算量，可以获取更高的输出SCNR.

关键词: 多输入多输出天波超视距雷达, 多模杂波抑制, 发射波束域预处理, 阵列平滑, 双迭代最小方差无失真响应

Abstract: For multiple-input multiple-output over-the-horizon radar (MIMO-OTHR), the minimum variance distortionless response (MVDR) is usually used to solve the impact of the ionospheric multi-mode clutter in the received echo on the detection of the target. The output signal-to-clutter-plus-noise ratio (SCNR) of traditional MVDR algorithm is low due to the omnidirectional emission of MIMO-OTHR, the inaccurate estimation of interference-noise covariance matrix, and a few training samples within a finite coherent accumulation time. Therefore, the MVDR algorithm is improved to enhance the multi-mode clutter suppression ability of MIMO-OTHR. A transmit beamspace preprocessing is realized by a second order cone programming (SOCP) to focus the energy on the principal mode angle, which is the transmit angle of the target path reflected by the ionosphere. The echo signal received by array is spatially smoothed to suppress the expected signal of principal mode and improve the estimation accuracy of interference-noise covariance matrix. A bi-iterative MVDR beamforming algorithm based on the beamspace preprocessing is proposed to reduce the computational load and the requirement of training samples. Simulated results show that the improved MVDR algorithm can be used to effectively suppress multi-mode clutter, and obtain higher output SCNR with fewer training samples and less computational load. Key

Key words: multiple-inputmultiple-outputover-the-horizonradar, multi-modeclutter, beamspacepreprocessing, arraysmoothing, bi-iterativeminimumvariancedistortionlessresponse

中图分类号:

TN958.93

洪升，李洁，董延焘，赵志欣，王玉皞. 多输入多输出天波超视距雷达多模杂波抑制的改进最小方差无失真响应算法研究[J]. 兵工学报, 2020, 41(5): 911-923.

HONG Sheng, LI Jie, DONG Yantao, ZHAO Zhixin, WANG Yuhao. Improved Minimum Variance Distortionless Response Algorithm for Multi-mode Clutter Suppression in Multiple-inputMultiple-output Over-the-horizon Radar[J]. Acta Armamentarii, 2020, 41(5): 911-923.

参考文献

［1］周万幸.天波超视距雷达发展综述[J].电子学报, 2011, 39(6): 1373-1378.
ZHOU W X. An overview on development of skywave over-the-horizon radar[J].Acta Electronica Sinica, 2011, 39(6): 1373-1378.(in Chinese)
[2］李宁, 赵正予. 一阶海杂波电离层多普勒频移和展宽[J]. 无线电工程, 2018, 48(9): 793-798.
LI N，ZHAO Z Y．Ionospheric doppler shift and spread of first order sea clutter[J]．Radio Engineering，2018, 48(9): 793-798. (in Chinese)
[3］谢锐, 万显荣, 洪丽娜, 等. 电离层行进式扰动对外辐射源天地波雷达系统的影响[J]. 电波科学学报, 2014, 29(6):1098-1104.
XIE R, WAN Х R, HONG L N, et al. Effects of the travelling ionospheric disturbance on sky-surface wave passive radar system[J]. Chinese Journal of Radio Science, 2014, 29(6):1098-1104. (in Chinese)
[4］ LI J,STOICA P.MIMO radar signal processing[M].Hoboken，NJ, US: John Wiley & Sons, 2008.
[5］ FRAZER G J, ABRAMOVICH Y I, JOHNSON B A. HF skywave MIMO radar:the HILOW experimental program[C]∥Proceedings of the 42nd Asilomar Conference on Signals, Systems & Compu-ters. Pacifica Grove, CA，US: IEEE, 2008: 639-643.
[6］ FRAZER G J, ABRAMOVICH Y I, JOHNSON B A.Multiple-input multiple-output over-the-horizon radar: experimental results[J]. IET Radar, Sonar and Navigation, 2009, 3(4): 290-303.
[7］ KROLIK J, MECCA V, KAZANCI O, et al.Multipath spread-Doppler clutter mitigation for over-the-horizon radar[C]∥Proceedings of the 2008 IEEE Radar Conference.Rome，Italia: IEEE, 2008: 1-5.
[8］ FRAZER G J, MEEHAN D H, ABRAMOVICH Y I, et al.Mode-selective OTHR: a new cost-effective sensor for maritime domain awareness[C]∥Proceedings of the 2010 IEEE Radar Conference.Washington, DC, US: IEEE, 2010: 935-940.
[9］郭欣，倪晋麟，苏卫民, 等. 天波超视距雷达的发展[J]. 航空学报，2002, 23(6): 495-500.
GUO X，NI J L, SU W M , et al. Development of sky wave over-the-horizon radar[J]. Acta Aeronautica et Astronautica Sinica, 2002, 23(6): 495-500. (in Chinese)

[10］余陈钢, 卢琨. 一种超视距雷达工作频率可用度评估方法[J]. 信息化研究, 2018, 44(4):34-37.
YU C G, LU K. An evaluating method for availability of the frequency of the OTHR[J]. Informatization Research, 2018, 44(4): 34-37. (in Chinese)
[11］ ANDERSON S J, ABRAMOVICH Y I. A unified approach to detection, classification, and correction of ionospheric distortion in HF sky wave radar systems[J]. Radio Science, 1998, 33(4): 1055-1067.
[12］熊新农, 柯亨玉, 万显荣. 基于特征分解的高频地波雷达电离层杂波抑制[J]. 电波科学学报，2017, 22(6):927-937.
XIONG X N, KE H Y, WAN X R. Ionospheric clutter suppression in high frequency surface wave radar based on eigen decomposition[J]. Chinese Journal of Radio Science, 2007, 22(6):927-937. (in Chinese)
[13］熊新农, 万显荣, 柯亨玉, 等. 基于小波分析的高频地波雷达电离层杂波抑制[J]. 华中科技大学学报, 2008, 36(6):77-80.
XIONG X N, WAN X R, KE H Y, et al. Wavelet analysis-based suppression of ionospheric clutter in high frequency surface wave radar[J]. Journal of Huazhong University of Science and Technology, 2008, 36(6):77-80. (in Chinese)
[14］ SAILLANT S, AUFFRAY G, DOREY P.Exploitation of elevation angle control for a 2D HF skywave radar[C]∥Proceedings of the International Conference on Radar. Adelaide, SA, Australia: IEEE, 2003: 662-666.
[15］陈希信, 尹成斌, 王峰. 一种天波超视距雷达自适应波束形成方法[J]. 现代雷达, 2015, 37(1):29-31.
CHEN X X, YIN C B, WANG F. An adaptive digital beamforming approach in skywave over-the-horizon radar [J]. Modern Radar, 2015, 37(1):29-31. (in Chinese)
[16］于文启,陈建文,关泽文,等.基于权矩阵低秩逼近的MIMO-OTHR多模SDC抑制算法[J/OL]. 系统工程与电子技术, 2019, 41(6): 1-11.[2019-05-08.]. http:∥cnki.net/kcms/detail/11.2422.TN.20190227.1837.004.html.
YU W Q, CHEN J W, GUAN Z W, et al. Multi-mode SDC suppression algorithm of MIMO-OTHR based on lower-rank approximation to weight matrix[J/OL]. Systems Engineering and Electronics, 2019, 41(6):1-11. [2019-05-08].http:∥kns.cnki.net/kcms/detail/11.2422.TN.20190227.1837.004.html. (in Chinese)
[17］薄超, 顾红, 苏卫民. 基于MIMO体制的天波雷达多普勒扩展杂波抑制算法[J]. 中国科技论文, 2013, 8(7): 621-625.
BAO C, GU H, SU W M. Spread-doppler clutter suppression method based on multiple-input multiple-output system for over-the-horizon radar[J]. China Science Paper, 2013, 8(7): 621-625. (in Chinese)
[18］ RIDDOLLS R J, RAVAN M, ADVE R S.Canadian HF over-the-horizon radar experiments using MIMO techniques to control auroral clutter[C]∥Proceedings of 2010 IEEE Radar Conference.Washington, DC，US: IEEE, 2010: 718-723.
[19］ GREVE S D, RIES P, LAPIERRE F D, et al. Framework and taxonomy for radar space-time adaptive processing (STAP) methods [J]. IEEE Transactions on Aerospace and Electronic Systems, 2007, 43(3):1084-1099.
[20］ HASSANIEN A, VOROBYOV S A. Transmit energy focusing for DOA estimation in MIMO radar with colocated antennas [J]. IEEE Transactions on Signal Processing, 2010, 59(6): 2669-2682.
[21］ FENG D Z, LI X M, LV H, et al. Two-sided minimum-variance distortionless response beamformer for MIMO radar [J]. Signal Processing, 2009, 89(3):328-332.
[22］冯静, 倪彬彬, 赵正予, 等. 利用高频天波返回散射反演电离层水平不均匀结构[J]. 地球物理学报, 2016, 59(9):3135-3147.
FENG J, NI B B, ZHAO Z Y, et al. Reconstruction of horizontally-inhomogeneous ionospheric structure using HF sky-wave backscatter ionograms [J]. Chinese Journal of Geophysics, 2016, 59(9): 3135-3147. (in Chinese)
[23］毛辉煌，谢文冲，徐鹏，等. 基于概率定义扩展样本的机载雷达空间和时间相关海杂波数据仿真方法[J].兵工学报,2019,40(3):530-538.
MAO H H, XIE W C, XU P, et al. A method based on probability definition with extended samples to generate spatial-temporal correlated sea clutter for airborne radar [J]. Acta Armamentarii, 2019, 40(3):530-538. (in Chinese)
[24］彭涛. 天波超视距雷达信号参数估计方法研究[D].成都：电子科技大学, 2005.
PENG T. Research on signal parameter estimation method of sky wave over-the-horizon radar[D].Chengdu：University of Electronic Science and Technology of China, 2005. (in Chinese)
[25］张鸿伟，汤建龙，冯宗盛，等. 基于2阶锥规划的雷达干扰宽带数字波束形成优化设计[J].兵工学报, 2018, 39(11):2185-2191.
ZHANG H W，TANG J L，FENG Z S，et al. Optimization design of wideband digital beamforming for radar jamming based on SOCP [J]. Acta Armamentarii, 2018, 39(11): 2185 -2191. (in Chinese)
[26］ STURM J F. Using SeDuMi 1.02, a MATLAB toolbox for optimization over symmetric cones[J].Optimization Methods & Software, 1999, 11(1/2/3/4): 625-653.
[27］张倩, 陶海红, 张博一. 基于正交投影矩阵的强弱信号闭环测向方法[J]. 航空兵器, 2016(3):35-40.
ZHANG Q, TAO H H, ZHANG B Y. Closed loop direction finding algorithm of strong and weak signals based on orthogonal projection matrix[J].Aero Weaponry, 2016(3):35-40. (in Chinese)
[28］杨志伟，贺顺，廖桂生，等. 子空间重构的一类自适应波束形成算法[J]. 电子与信息学报, 2012, 34(5):1115-1119.
YANG Z W, HE S, LIAO G S, et al. Adaptive beam-forming algorithm with subspace reconstructing [J]. Journal of Electronics & Information Technology, 2012, 34(5):1115-1119. (in Chinese)
[29］ STOICA P, SELEN Y. Cyclic minimizers, majorization techniques, and the expectation-maximization algorithm: a refresher[J]. IEEE Signal Processing Magazine, 2004, 21(1):112-114.

第41卷第5期2020 年5月
兵工学报ACTA ARMAMENTARII
Vol.41No.5May2020