一种基于被动雷达的目标自动识别鲁棒算法

L. Ehrman, A. Lanterman
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引用次数: 23

摘要

这项研究的目标是为现有的无源雷达系统增加自动目标识别(ATR)能力。我们通过将探测目标的雷达截面(RCS)与目标类别中已知目标的预先计算的雷达截面(RCS)进行比较来做到这一点。预先计算的包含目标类的目标的RCS使用涉及诸如快速伊利诺伊求解器代码(FISC)等程序的多步骤过程进行建模。先进折射效应预测系统(AREPS)和数值电磁编码(NEC2)。一种专家似然模型将检测到的目标的功率分布与目标类中目标的预先计算的功率分布进行比较;这种比较的结果是目标识别。到目前为止,仿真结果令人鼓舞,表明该算法在预期噪声水平下正确识别飞机的概率很高。当噪声功率超过最大信号功率时,性能可能会下降。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A robust algorithm for automatic target recognition using passive radar
The goal of this research is to add automatic target recognition (ATR) capabilities to existing passive radar systems. We do so by comparing the radar cross section (RCS) of detected targets to the precomputed RCS of known targets in the target class. The precomputed RCS of the targets comprising the target class is modeled using a multi-step process involving programs such as the fast Illinois solver code (FISC). Advanced refractive effects prediction system (AREPS) and numerical electromagnetic code (NEC2). A Rician likelihood model compares the power profile of the detected target to the precomputed power profiles of the targets in the target class; this comparison results in target identification. Thus far, the results of simulations are encouraging, indicating that the algorithm correctly identifies aircraft with high probability at the anticipated noise level. Performance can be expected to decline as the noise power surpasses the maximum signal power.
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