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AlphaGo-driven generative machine learning framework for inverse topology synthesis and optimization of planar antennas.

Created on 10 Jul 2026

Authors

Xiaobo Wang, Suomin Cui, Moein Nazari, Gang Kang, Jian Liu

Published in

Scientific reports. Jul 09, 2026. Epub Jul 09, 2026.

Abstract

This paper proposes an AlphaGo-inspired algorithm for automated antenna generation. Analogous to how AlphaGo navigates the discrete move-space of a board game, our framework treats antenna design as a sequential decision-making process. With an innovated topology generation rule, a Monte Carlo tree search-based optimization is applied to guide the moving steps to approach good designs. During the process, a machine learning surrogate model is trained and continuously refined to predict antenna performance from design topology, enabling an online optimization loop with progressively improving accuracy. Finally, postprocessing is applied to fine-tune continuous geometric parameters, which is necessary in most cases to meet the final design specifications. This approach reduces the need for manually crafted initial antenna topologies within the demonstrated class of single-layer planar designs, while maintaining sufficient flexibility to explore design spaces for complex objectives. Compared with current popular machine learning-based methods, the proposed method achieves effective designs with the number of evaluations on the 103 scale, and the resulting geometries are potentially more fabrication-friendly. Its effectiveness and efficiency are validated through multiple representative antenna design examples.

PMID:
42426090
Bibliographic data and abstract were imported from PubMed on 10 Jul 2026.

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