A Target Parameter Estimation Method via Atom-Reconstruction in Radar Mainlobe Jamming

IF 1.9 3区计算机科学 Q3 AUTOMATION & CONTROL SYSTEMS

Journal of Systems Engineering and Electronics Pub Date : 2024-03-22 DOI:10.23919/jsee.2024.000001

Bilei Zhou, Weijian Liu, Rongfeng Li, Hui Chen, Liang Zhang, Qinglei Du, Binbin Li, Hao Chen

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Abstract

Mainlobe jamming (MLJ) brings a big challenge for radar target detection, tracking, and identification. The suppression of MLJ is a hard task and an open problem in the electronic counter-counter measures (ECCM) field. Target parameters and target direction estimation is difficult in radar MLJ. A target parameter estimation method via atom-reconstruction in radar MLJ is proposed in this paper. The proposed method can suppress the MLJ and simultaneously provide high estimation accuracy of target range and angle. Precisely, the eigen-projection matrix processing (EMP) algorithm is adopted to suppress the MLJ, and the target range is estimated effectively through the beamforming and pulse compression. Then the target angle can be effectively estimated by the atom-reconstruction method. Without any prior knowledge, the MLJ can be canceled, and the angle estimation accuracy is well preserved. Furthermore, the proposed method does not have strict requirement for radar array construction, and it can be applied for linear array and planar array. Moreover, the proposed method can effectively estimate the target azimuth and elevation simultaneously when the target azimuth (or elevation) equals to the jamming azimuth (or elevation), because the MLJ is suppressed in spatial plane dimension.

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雷达主波干扰中的原子重构目标参数估计方法

主波束干扰（MLJ）给雷达目标探测、跟踪和识别带来了巨大挑战。抑制 MLJ 是一项艰巨的任务，也是电子对抗（ECCM）领域的一个未决问题。目标参数和目标方向估计是雷达 MLJ 的难点。本文提出了一种在雷达 MLJ 中通过原子重构进行目标参数估计的方法。该方法可抑制 MLJ，同时提供较高的目标距离和角度估计精度。具体来说，采用特征投影矩阵处理（EMP）算法来抑制 MLJ，并通过波束成形和脉冲压缩来有效估计目标距离。然后通过原子重构方法有效估计目标角度。在没有任何先验知识的情况下，可以消除 MLJ，并很好地保持角度估计精度。此外，该方法对雷达阵列的构造没有严格要求，可用于线性阵列和平面阵列。此外，当目标方位角（或仰角）等于干扰方位角（或仰角）时，由于 MLJ 在空间平面维度上被抑制，因此所提出的方法可以同时有效地估计目标方位角和仰角。

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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