通过差分贝叶斯压缩传感实现微波无损检测/无损探伤

Marco Salucci;Lorenzo Poli;Giorgio Gottardi;Giacomo Oliveri;Luca Tosi;Andrea Massa
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引用次数: 0

摘要

本文论述了通过稀疏性促进概率微波成像(MI)方法对介电结构进行无损检测和评估(NDT/NDE)的问题。在差分对比源反演(CSI)框架内,利用未受扰动情况和成像目标类别的先验信息来制定当前的反向散射问题(ISP)是非常有利的。然后,通过应用定制的贝叶斯压缩传感(BCS)反演策略,有效地完成成像过程。本文提供了部分数值和实验结果,以评估拟议成像方法的有效性,并与具有竞争力的最先进替代方法进行比较。
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Microwave NDT/NDE Through Differential Bayesian Compressive Sensing
This article deals with the nondestructive testing and evaluation (NDT/NDE) of dielectric structures through a sparseness-promoting probabilistic microwave imaging (MI) method. Prior information on both the unperturbed scenario and the class of imaged targets is profitably exploited to formulate the inverse scattering problem (ISP) at hand within a differential contrast source inversion (CSI) framework. The imaging process is then efficiently completed by applying a customized Bayesian compressive sensing (BCS) inversion strategy. Selected numerical and experimental results are provided to assess the effectiveness of the proposed imaging method also in comparison with competitive state-of-the-art alternatives.
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