基于机器学习的有源选频曲面逆拓扑设计方法

IF 5.8 1区计算机科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Antennas and Propagation Pub Date : 2025-04-14 DOI:10.1109/TAP.2025.3558610

Zhao-Qing Xu;Li-Ye Xiao;Yi-Fan Xie;Sheng Sun;Wei Shao;Qing Huo Liu

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引用次数: 0

摘要

为了设计具有大量自由度的有源频率选择曲面（AFSS），本文提出了一种基于机器学习的有源频率选择曲面逆拓扑设计方法（ITDM -AFSS）。与传统的频率选择表面（FSS）设计不同，p-i-n二极管在开/关状态下的AFSS电磁响应同时参与ITDM-AFSS的训练，并在设计过程中同时考虑。与参数化建模相反，拓扑设计域可以看作是离散二进制像素的组合。这允许更大数量的自由度，使探索更优化的结构成为可能。通过数值算例验证了ITDM-AFSS的有效性，并采用另外两种流行的模型和基于进化算法的设计方法与所提出的ITDM-AFSS进行了比较。此外，还进行了制造拓扑的测量，以验证ITDM-AFSS衍生的AFSS设计的性能。

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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Machine Learning-Based-Inverse Topological Design Method for Active Frequency-Selective Surface (ITDM-AFSS)

To design active frequency-selective surface (AFSS) with a large number of degrees of freedom (DoFs), in this communication, a machine learning-based inverse topological design method (ITDM) is proposed for AFSS design, termed ITDM-AFSS. Different from the conventional frequency-selective surface (FSS) design, the AFSS electromagnetic (EM) responses under on/off states of p-i-n diode simultaneously participate in the training in the proposed ITDM-AFSS and are simultaneously considered in the design process. In contrast to parametric modeling, the topological design domain can be viewed as a combination of discrete binary pixels. This allows for a significantly larger number of DoFs, enabling the exploration of more optimal structures. The effectiveness of ITDM-AFSS is demonstrated through a numerical example, and two other popular models and an evolutionary algorithm-based design method are employed to compare with the proposed ITDM-AFSS. Additionally, the measurements of the fabricated topologies are carried out to validate the performance of the AFSS design derived from ITDM-AFSS.

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来源期刊

IEEE Transactions on Antennas and Propagation 工程技术-电信学

CiteScore

10.40

自引率

28.10%

发文量

968

审稿时长

4.7 months

期刊介绍： IEEE Transactions on Antennas and Propagation includes theoretical and experimental advances in antennas, including design and development, and in the propagation of electromagnetic waves, including scattering, diffraction, and interaction with continuous media; and applications pertaining to antennas and propagation, such as remote sensing, applied optics, and millimeter and submillimeter wave techniques