Adaptive detection of range-spread targets in compound Gaussian clutter with the square root of inverse Gaussian texture

The compound Gaussian clutter with the square root of inverse Gaussian texture component has been successfully used for modeling the heavy-tailed non-Gaussian clutter measured by high-resolution radars. In high-resolution radars, the targets may extend along multiple consecutive range cells, which a...

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Veröffentlicht in:	Digital signal processing 2016-09, Vol.56, p.132-139
Hauptverfasser:	Xu, Shu-Wen, Xue, Jian, Shui, Peng-Lang
Format:	Artikel
Sprache:	eng
Schlagworte:	Clutter Compound Gaussian clutter Computer simulation Detectors Gaussian Generalized likelihood ratio test Inverse Inverse Gaussian texture Likelihood ratio Range-spread target Surface layer Texture
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container_title	Digital signal processing
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creator	Xu, Shu-Wen Xue, Jian Shui, Peng-Lang
description	The compound Gaussian clutter with the square root of inverse Gaussian texture component has been successfully used for modeling the heavy-tailed non-Gaussian clutter measured by high-resolution radars. In high-resolution radars, the targets may extend along multiple consecutive range cells, which are called range-spread targets. In this paper, we consider the range-spread target detection problem in the compound Gaussian clutter with the square root of inverse Gaussian texture. Three adaptive detectors are proposed based on Bayesian one-step generalized likelihood ratio test, maximum a posteriori generalized likelihood ratio test and Bayesian two-step generalized likelihood ratio test, respectively. Finally, the detection performances of the proposed detectors are evaluated by the Monte Carlo simulation. The simulation results show that the proposed detectors have better detection performance of range-spread target than the conventional generalized likelihood ratio test detector.
doi_str_mv	10.1016/j.dsp.2016.06.009
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subjects	Clutter Compound Gaussian clutter Computer simulation Detectors Gaussian Generalized likelihood ratio test Inverse Inverse Gaussian texture Likelihood ratio Range-spread target Surface layer Texture
title	Adaptive detection of range-spread targets in compound Gaussian clutter with the square root of inverse Gaussian texture
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