Signal processing and waveform selection strategies in multistatic radar systems

2007 International Waveform Diversity and Design Conference Pub Date : 2007-06-04 DOI:10.1109/WDDC.2007.4339432

I. Bradaric, G. Capraro, M. Wicks, P. Zulch

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引用次数: 22

Abstract

The multistatic ambiguity function has recently been used as a tool for analyzing multistatic radar systems. It was demonstrated that the multistatic ambiguity function with proper analytical foundation and corresponding graphic representation can serve as a guideline for developing multistatic radar signal processing rules. In this work we use this newly developed approach to combine optimal selection of weights for fusing signals from multiple receivers with waveform selection strategies in order to meet desired performance goals. We consider configurations with multiple receivers and one transmitter and demonstrate through examples that multistatic system performances can be significantly improved when selection of system parameters is based on shaping of the multistatic ambiguity function. This approach promises to be beneficial especially in scenarios with rapidly changing geometries, such as when the transmitter and/or receivers are moving, and when waveform diversity is applied, since the classical detection theory does not take into account the system geometry and waveform shape.

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多基地雷达系统中的信号处理与波形选择策略

近年来，多基地模糊函数被用作分析多基地雷达系统的一种工具。结果表明，具有适当的分析基础和相应的图形表示的多基地模糊函数可以作为制定多基地雷达信号处理规则的指导。在这项工作中，我们使用这种新开发的方法将权重的最优选择与来自多个接收器的信号融合与波形选择策略相结合，以满足期望的性能目标。我们考虑了多个接收机和一个发射机的配置，并通过实例证明，当系统参数的选择基于多静态模糊函数的塑造时，可以显著提高多静态系统的性能。由于经典的检测理论没有考虑到系统的几何形状和波形形状，因此这种方法在几何形状快速变化的情况下尤其有用，例如当发射器和/或接收器移动时，以及当应用波形分集时。

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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2007 International Waveform Diversity and Design Conference

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