Range sidelobes suppression for wideband randomly discontinuous spectra OTH-HF radar signal

Dongpo Zhang, Xingzhao Liu
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引用次数: 4

Abstract

Over-the-horizon (OTH) HF radars work in a heavily congested HF band. It is quite difficult to find broad clear frequency bands for system requirements. The randomly discontinuous spectra (RDS) signal is employed to combat spectrum congestion since it can evade the external interferences in the frequency domain. However, the spectra discontinuity of the signal gives rise to high range sidelobes when matching the reflected echo, which is much more difficult for target detection. So it is indispensable to investigate the technique for sidelobes suppression of the range profile when an RDS signal is utilized. In this paper, we introduce a new signal processing technique, that is radically different from the conventional technique, to lower range sidelobes based on suppressing the self-clutter of the radar range ambiguity function (AF) by mismatch filtering. Simulation results show that the peak sidelobe level can be reduced to -30 dB while the frequency bands span up to 400 kHz.
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宽带随机不连续谱OTH-HF雷达信号的距离旁瓣抑制
超视距(OTH)高频雷达工作在一个严重拥挤的高频波段。要找到满足系统要求的宽而清晰的频带是相当困难的。随机不连续频谱(RDS)信号可以有效地避开频域中的外部干扰,因此可以有效地对抗频谱拥塞。然而,由于信号的频谱不连续,在与反射回波匹配时产生了高距离旁瓣,给目标检测带来了很大的困难。因此,研究利用RDS信号时距离像的旁瓣抑制技术是十分必要的。本文介绍了一种新的信号处理技术,该技术通过失配滤波来抑制雷达距离模糊函数(AF)的自杂波,从而降低距离旁瓣。仿真结果表明,在400 kHz的频带范围内,峰值旁瓣电平可降至-30 dB。
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