迭代框架下完美电导体的全波反演方法

IF 4.5 1区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Microwave Theory and Techniques Pub Date : 2025-04-16 DOI:10.1109/TMTT.2025.3556953

Tao Wei;Xiao-Hua Wang;Bing-Zhong Wang

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引用次数: 0

摘要

本文提出了一种高效、准确、鲁棒的完美电导体散射体反演算法，该算法考虑了复杂的多重散射效应，采用全波方法解决了金属结构的逆散射问题。为了在不事先知道散射体的情况下进行反向散射，引入对角矩阵来表示PECs，将散射场和表面电流之间的映射扩展到整个计算域。此外，为了提高反演效率，采用矩阵变换使非对角元素保持为零，从而降低了计算复杂度。此外，为了解决isp中由于数据不足和噪声干扰造成的不适定性，引入了Tikhonov正则化方法，其中正则化参数由l曲线方法自适应确定。为了验证该方法的有效性，通过若干典型的二维实验验证了该方法的有效性，结果表明，即使在强噪声存在的情况下，该方法也能准确有效地重建复杂的PEC散射体。

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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A Full-Wave Inversion Method for Perfectly Electric Conductors in an Iterative Framework

An efficient, accurate, and robust inversion algorithm is proposed in this work to reconstruct perfect electric conductor (PEC) scatterers, which considers the complex multiple scattering effects and employs a full-wave approach to address the inverse scattering problems (ISPs) of metallic structures. To perform the inverse scattering without prior knowledge of the scatterers, a diagonal matrix is introduced to represent the PECs, extending the mapping between the scattered field and the surface current across the entire computational domain. Furthermore, to improve the efficiency of the inversion, matrix transformations are employed to keep the nondiagonal elements zero, thus reducing the computational complexity. Additionally, to address the ill-posedness caused by the insufficient data and the noise interference in the ISPs, the Tikhonov regularization method is introduced, where the regularization parameter is adaptively determined by the L-curve method. To demonstrate the effectiveness of the proposed method, several typical 2-D experiments were considered, and the results show that the method can accurately and efficiently reconstruct the complex PEC scatterers, even in the presence of strong noise.

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来源期刊

IEEE Transactions on Microwave Theory and Techniques 工程技术-工程：电子与电气

CiteScore

8.60

自引率

18.60%

发文量

486

审稿时长

6 months

期刊介绍： The IEEE Transactions on Microwave Theory and Techniques focuses on that part of engineering and theory associated with microwave/millimeter-wave components, devices, circuits, and systems involving the generation, modulation, demodulation, control, transmission, and detection of microwave signals. This includes scientific, technical, and industrial, activities. Microwave theory and techniques relates to electromagnetic waves usually in the frequency region between a few MHz and a THz; other spectral regions and wave types are included within the scope of the Society whenever basic microwave theory and techniques can yield useful results. Generally, this occurs in the theory of wave propagation in structures with dimensions comparable to a wavelength, and in the related techniques for analysis and design.