A knowledge-aided GMTI detection architecture [radar signal processing]

W. Melvin, G. Showman, J. Guerci
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引用次数: 11

Abstract

Space-time adaptive processing (STAP) plays an important role in ground moving target indication (GMTI). Heterogeneous clutter environments prevent STAP from achieving its theoretical performance bounds. The incorporation of a priori knowledge into the signal processing architecture holds the potential to greatly enhance detection performance by mitigating heterogeneous clutter effects. In this paper we propose one possible knowledge-aided STAP approach comprised of the following elements: a knowledge-aided prediction/estimation filter, a discrete matched filter, and a partially adaptive STAP applied to the clutter residual, assisted by knowledge-aided training. We focus our discussion on justifying the aforementioned elements and independently characterizing their performance potential. Using both measured and simulated data, we find the potential for substantial performance improvement.
一种知识辅助GMTI检测架构[雷达信号处理]
时空自适应处理(STAP)在地面运动目标指示(GMTI)中起着重要作用。异构杂波环境使STAP无法达到理论性能界限。将先验知识结合到信号处理体系结构中,有可能通过减轻异构杂波效应来大大提高检测性能。在本文中,我们提出了一种可能的知识辅助STAP方法,该方法由以下元素组成:知识辅助预测/估计滤波器,离散匹配滤波器,以及在知识辅助训练的辅助下应用于杂波残差的部分自适应STAP。我们将重点讨论证明上述元素的合理性,并独立描述它们的性能潜力。通过使用测量数据和模拟数据,我们发现了大幅提高性能的潜力。
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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