Low sidelobe robust imaging in random frequency-hopping wideband radar based on compressed sensing 被引量：7

Low sidelobe robust imaging in random frequency-hopping wideband radar based on compressed sensing

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摘要 High resolution range imaging with correlation processing suffers from high sidelobe pedestal in random frequency-hopping wideband radar. After the factors which affect the sidelobe pedestal being analyzed, a compressed sensing based algorithm for high resolution range imaging and a new minimized ll-norm criterion for motion compensation are proposed. The random hopping of the transmitted carrier frequency is converted to restricted isometry property of the observing matrix. Then practical problems of imaging model solution and signal parameter design are resolved. Due to the particularity of the proposed algorithm, two new indicators of range profile, i.e., average signal to sidelobe ratio and local similarity, are defined. The chamber measured data are adopted to testify the validity of the proposed algorithm, and simulations are performed to analyze the precision of velocity measurement as well as the performance of motion compensation. The simulation results show that the proposed algorithm has such advantages as high precision velocity measurement, low sidelobe and short period imaging, which ensure robust imaging for moving targets when signal-to-noise ratio is above 10 dB. High resolution range imaging with correlation processing suffers from high sidelobe pedestal in random frequency-hopping wideband radar.After the factors which affect the sidelobe pedestal being analyzed,a compressed sensing based algorithm for high resolution range imaging and a new minimized l 1-norm criterion for motion compensation are proposed.The random hopping of the transmitted carrier frequency is converted to restricted isometry property of the observing matrix.Then practical problems of imaging model solution and signal parameter design are resolved.Due to the particularity of the proposed algorithm,two new indicators of range profile,i.e.,average signal to sidelobe ratio and local similarity,are defined.The chamber measured data are adopted to testify the validity of the proposed algorithm,and simulations are performed to analyze the precision of velocity measurement as well as the performance of motion compensation.The simulation results show that the proposed algorithm has such advantages as high precision velocity measurement,low sidelobe and short period imaging,which ensure robust imaging for moving targets when signal-to-noise ratio is above 10 dB.

作者刘振魏玺章黎湘

机构地区 School of Electronic Science and Engineering

出处《Journal of Central South University》 SCIE EI CAS 2013年第3期702-714,共13页 中南大学学报（英文版）

基金 Project(61171133) supported by the National Natural Science Foundation of China Project(CX2011B019) supported by Hunan Provincial Innovation Foundation for Postgraduate,China Project(B110404) supported by Innovation Foundation for Outstanding Postgraduates of National University of Defense Technology,China

关键词 random frequency-hopping radar high resolution range profile sidelobe suppression motion compensation compressed sensing 雷达成像随机跳频宽带雷达低旁瓣压缩感知目标信号高分辨率

分类号 TN957.52 [电子电信—信号与信息处理] TN957.51 [电子电信—信息与通信工程]

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