Performance superiority of CA_TM model over N-P algorithm in detecting χ2 fluctuating targets with four-degrees of freedom

Q4 Engineering International Journal of Systems, Control and Communications Pub Date : 2020-02-20 DOI:10.1504/ijscc.2020.10027052

M. B. Mashade

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引用次数: 3

Abstract

Constant false alarm rate (CFAR) processors play a vital role in organising the heterogeneous detection of fluctuating targets. Specifically, the popular cell-averaging (CA) processor is incapable of maintaining its design false alarm rate when facing clutter with statistical variations. Order-statistics (OS) and trimmed-mean (TM) algorithms have been suggested to robustly estimate the heterogeneous threshold. They have, however, degraded homogeneous performance. For simultaneously exploiting the merits of CA, and OS or TM processors, a hybrid combination of them have been recently proposed. This paper deals with the analysis of these models. Closed-form expression is derived for their detection performance. The primary and outlying targets follow χ2-distribution with four-degrees of freedom in their fluctuation. Our simulation results reveal that the new version CA_TM exhibits a homogeneous performance that outweighs that of Neyman-Pearson (N-P) detector which is employed as a baseline comparison for other techniques in the CFAR world.

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CA_TM模型在检测四自由度χ2波动目标方面优于N-P算法的性能优势

恒虚警率(CFAR)处理器在组织波动目标的异构检测中起着至关重要的作用。具体来说，当前流行的单元平均(CA)处理器在面对具有统计变化的杂波时无法保持其设计虚警率。Order-statistics (OS)和trim -mean (TM)算法被用来稳健地估计异构阈值。然而，它们的同质性能下降了。为了同时利用CA和OS或TM处理器的优点，最近提出了它们的混合组合。本文对这些模型进行了分析。推导了其检测性能的封闭表达式。主要目标和外围目标的波动服从4个自由度的χ2分布。我们的模拟结果表明，新版本的CA_TM表现出均匀的性能，优于内曼-皮尔逊(N-P)探测器，这是CFAR领域其他技术的基线比较。

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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来源期刊

International Journal of Systems, Control and Communications Engineering-Control and Systems Engineering

CiteScore

1.50

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0.00%

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