Machine learning in aerodynamic shape optimization

IF 11.5 1区工程技术 Q1 ENGINEERING, AEROSPACE Progress in Aerospace Sciences Pub Date : 2022-10-01 DOI:10.1016/j.paerosci.2022.100849

Jichao Li , Xiaosong Du , Joaquim R.R.A. Martins

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引用次数: 55

Abstract

Machine learning (ML) has been increasingly used to aid aerodynamic shape optimization (ASO), thanks to the availability of aerodynamic data and continued developments in deep learning. We review the applications of ML in ASO to date and provide a perspective on the state-of-the-art and future directions. We first introduce conventional ASO and current challenges. Next, we introduce ML fundamentals and detail ML algorithms that have been successful in ASO. Then, we review ML applications to ASO addressing three aspects: compact geometric design space, fast aerodynamic analysis, and efficient optimization architecture. In addition to providing a comprehensive summary of the research, we comment on the practicality and effectiveness of the developed methods. We show how cutting-edge ML approaches can benefit ASO and address challenging demands, such as interactive design optimization. Practical large-scale design optimizations remain a challenge because of the high cost of ML training. Further research on coupling ML model construction with prior experience and knowledge, such as physics-informed ML, is recommended to solve large-scale ASO problems.

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气动形状优化中的机器学习

由于空气动力学数据的可用性和深度学习的持续发展，机器学习(ML)越来越多地用于辅助空气动力学形状优化(ASO)。我们回顾了迄今为止ML在ASO中的应用，并对其现状和未来发展方向进行了展望。我们首先介绍常规ASO和当前面临的挑战。接下来，我们将介绍机器学习的基础知识，并详细介绍在ASO中取得成功的机器学习算法。然后，我们从三个方面回顾了机器学习在ASO中的应用:紧凑的几何设计空间、快速的空气动力学分析和高效的优化架构。除了对研究进行全面总结外，我们还对所开发方法的实用性和有效性进行了评论。我们展示了尖端的机器学习方法如何使ASO受益并解决具有挑战性的需求，例如交互设计优化。由于机器学习训练的高成本，实际的大规模设计优化仍然是一个挑战。建议进一步研究将ML模型构建与先前的经验和知识相结合，例如基于物理的ML，以解决大规模ASO问题。

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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来源期刊

Progress in Aerospace Sciences 工程技术-工程：宇航

CiteScore

20.20

自引率

3.10%

发文量

审稿时长

5 months

期刊介绍： "Progress in Aerospace Sciences" is a prestigious international review journal focusing on research in aerospace sciences and its applications in research organizations, industry, and universities. The journal aims to appeal to a wide range of readers and provide valuable information. The primary content of the journal consists of specially commissioned review articles. These articles serve to collate the latest advancements in the expansive field of aerospace sciences. Unlike other journals, there are no restrictions on the length of papers. Authors are encouraged to furnish specialist readers with a clear and concise summary of recent work, while also providing enough detail for general aerospace readers to stay updated on developments in fields beyond their own expertise.

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