未知噪声场下低海拔目标跟踪的最大似然角频参数估计

Seventh International Symposium on Signal Processing and Its Applications, 2003. Proceedings. Pub Date : 2003-07-01 DOI:10.1109/ISSPA.2003.1224903

M. Djeddou, S. Aouada, A. Zoubir

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引用次数: 2

摘要

在雷达应用中，即使只有一个目标，接收到的回波信号也会通过多种路径到达阵列单元。因此，对每条路径射线的方向和多普勒频率的估计往往是有意义的。本文应用近似最大似然(AML)算法的二维扩展，在未知加性噪声场中使用传感器阵列来估计这些参数。我们考虑了复衰落因子从一个脉冲重复间隔(PRI)波动到另一个脉冲重复间隔的情况。给出了数值模拟来评估该方法的性能，并将其与针对高斯白噪声导出的标准随机极大似然进行了比较。

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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Maximum likelihood angle-frequency parameter estimation in unknown noise fields for low-elevation target tracking

In radar applications, the received echo signals reach the array elements via a multiplicity of paths even though there exist only one target. So, it is often relevant to estimate the direction and the Doppler frequency of each path ray. We apply in this paper a 2D extension of the approximate maximum likelihood (AML) algorithm to estimate these parameters using a sensor array in an unknown additive noise field. We consider the case where the complex fading factor fluctuates from one pulse repetition interval (PRI) to another one. Numerical simulations are provided to assess the performance of the approach, which is compared to the standard stochastic maximum likelihood derived for a white Gaussian noise.

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Seventh International Symposium on Signal Processing and Its Applications, 2003. Proceedings.

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