A novel distributed CMLWLC CFAR detector

2005 IEEE International Conference on Information Acquisition Pub Date : 1900-01-01 DOI:10.1109/ICIA.2005.1635128

Jin-song Jiang, Hong Sun, Jun Yang, Shouyong Wang

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引用次数: 3

Abstract

In the past applications, the centralized CFAR, which used in the multi-sensor information fusion system, brings an overload communication burden, therefore the distributed CFAR detector becomes a developing and important field. In current distributed CFAR detectors, most of them assume that every sensor in the detector have same signal to noise ratio (SNR). In this paper, we study the case that every sensor in the detector have different SNR. Corresponding to this case, a novel distributed adaptive CFAR detector termed as CMLWLC is presented. In the scheme, a local test statistic, which is the ratio of its test sample level and a designated censored mean level (CML) of its reference samples, is calculated by distributed sensors, and then each sensor transmits its local test statistic to the fusion center. At the fusion center, the global decision is made based on weighted linear combining (WLC). Since the weights are adjusted according to different SNR, adaptively, the proposed detector can available in the case that the target echo and noise/clutter have different level for every sensor. Meanwhile, for a Swerling II fluctuating target in Gaussian noise of unknown level, its closed-form expressions of false alarm probability and detection probability are derived. Comparison numerical results show that the CMLWLC detector has good detection performance in both homogeneous and multi-target backgrounds.

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一种新型分布式CMLWLC CFAR探测器

在以往的应用中，集中式CFAR在多传感器信息融合系统中的应用带来了过载的通信负担，因此分布式CFAR检测仪成为一个发展中的重要领域。在目前的分布式CFAR检测器中，大多数都假设检测器中的每个传感器具有相同的信噪比。本文研究了探测器中每个传感器信噪比不同的情况。针对这种情况，提出了一种新型的分布式自适应CMLWLC CFAR检测器。该方案通过分布式传感器计算局部测试统计量，即其测试样本水平与其参考样本的指定截除平均水平(CML)之比，然后每个传感器将其局部测试统计量传输到融合中心。在融合中心，基于加权线性组合(WLC)进行全局决策。由于权重可以根据不同的信噪比进行自适应调整，因此该检测器可以在每个传感器的目标回波和噪声/杂波电平不同的情况下使用。同时，对未知水平高斯噪声下的陡变II型波动目标，导出了其虚警概率和检测概率的封闭表达式。数值对比结果表明，CMLWLC检测器在均匀和多目标背景下都具有良好的检测性能。

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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2005 IEEE International Conference on Information Acquisition

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