A Parametric Detection Algorithm based on Uniform Space-Time Scan and Clutter Rank

Proceedings of the 6th International Conference on Digital Signal Processing Pub Date : 2022-02-25 DOI:10.1145/3529570.3529609

Jie Lin, Chaoshu Jiang, Wei-Chiang Wu

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Abstract

Compared with airborne monostatic radar, airborne bistatic radar has better detection performance in detecting stealth targets and low altitude targets. However, the bistatic clutter echoes are heavily dependent on the range, which leads to the substantial reduction in available target-free training data. As a result, the detection performances corresponding to most of conventional methods decline seriously. In order to improve the detection performance of parametric adaptive matched filter used in airborne bistatic radar, the parametric adaptive matched filter based on uniform space-time scan and clutter rank (STS-CR-PAMF) is proposed in this paper. In order to efficiently obtain the estimated coefficient matrices, conjugate gradient method is utilized in STS-CR-PAMF. In simulation results, it is shown that the detection performance of STS-CR-PAMF outperforms its counterparts. Meanwhile, the relationships between the clutter rank and transmitter-receiver range, the velocities of transmitter and receiver are shown in simulation results and analyzed qualitatively.

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基于均匀空时扫描和杂波秩的参数检测算法

与机载单基地雷达相比，机载双基地雷达在探测隐身目标和低空目标方面具有更好的探测性能。然而，双基地杂波回波严重依赖于距离，这导致可用的无目标训练数据大幅减少。因此，大多数常规方法对应的检测性能严重下降。为了提高机载双基地雷达中参数自适应匹配滤波器的检测性能，提出了一种基于均匀空时扫描和杂波秩的参数自适应匹配滤波器(STS-CR-PAMF)。为了有效地得到估计的系数矩阵，STS-CR-PAMF采用了共轭梯度法。仿真结果表明，STS-CR-PAMF的检测性能优于同类算法。仿真结果显示了杂波阶与收发距离、收发速度之间的关系，并进行了定性分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 6th International Conference on Digital Signal Processing

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