机器学习在辅助超材料设计中的应用评述

Journal of Physics: Materials Pub Date : 2024-03-13 DOI:10.1088/2515-7639/ad33a4

Chonghui Zhang, Y. Zhao

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引用次数: 0

摘要

过去几年中，机器学习（ML）的进步为辅助超材料的设计带来了新的机遇。然而，成功实施 ML 算法仍具有挑战性，尤其是对于域性能预测和反设计等复杂问题。在本文中，我们首先回顾了经典的辅助设计，并总结了它们在不同应用中的变体。巨大的变体设计空间给传统设计或拓扑优化带来了挑战。因此，我们还研究了 ML 技术如何帮助解决辅助超材料的设计难题，以及研究人员应在何时使用这些技术。我们解释了这些技术背后的理论，并列举了分析文献中的实际应用实例。讨论了不同 ML 算法的优势和局限性，并强调了该领域的发展趋势。最后，讨论了 ML 辅助设计的两个实际问题：设计规模和数据收集。

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 Critical Review on the Application of Machine Learning in Supporting Auxetic Metamaterial Design

The progress of machine learning (ML) in the past years has opened up new opportunities to the design of auxetic metamaterials. However, successful implementation of ML algorithms remains challenging, particularly for complex problems such as domain performance prediction and inverse design. In this paper, we first reviewed classic auxetic designs and summarized their variants in different applications. The enormous variant design space leads to challenges using traditional design or topology optimization. Therefore, we also investigated how ML techniques can help address design challenges of auxetic metamaterials and when researchers should deploy them. The theories behind the techniques are explained, along with practical application examples from the analysed literature. The advantages and limitations of different ML algorithms are discussed and trends in the field are highlighted. Finally, two practical problems of ML-aided design, design scales and data collection are discussed.

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Journal of Physics: Materials

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