A review of graph neural network applications in mechanics-related domains

IF 10.7 2区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Yingxue Zhao, Haoran Li, Haosu Zhou, Hamid Reza Attar, Tobias Pfaff, Nan Li
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引用次数: 0

Abstract

Mechanics-related tasks often present unique challenges in achieving accurate geometric and physical representations, particularly for non-uniform structures. Graph neural networks (GNNs) have emerged as a promising tool to tackle these challenges by adeptly learning from graph data with irregular underlying structures. Consequently, recent years have witnessed a surge in complex mechanics-related applications inspired by the advancements of GNNs. Despite this process, there is a notable absence of a systematic review addressing the recent advancement of GNNs in solving mechanics-related tasks. To bridge this gap, this review article aims to provide an in-depth overview of the GNN applications in mechanics-related domains while identifying key challenges and outlining potential future research directions. In this review article, we begin by introducing the fundamental algorithms of GNNs that are widely employed in mechanics-related applications. We provide a concise explanation of their underlying principles to establish a solid understanding that will serve as a basis for exploring the applications of GNNs in mechanics-related domains. The scope of this paper is intended to cover the categorisation of literature into solid mechanics, fluid mechanics, and interdisciplinary mechanics-related domains, providing a comprehensive summary of graph representation methodologies, GNN architectures, and further discussions in their respective subdomains. Additionally, open data and source codes relevant to these applications are summarised for the convenience of future researchers. This article promotes an interdisciplinary integration of GNNs and mechanics and provides a guide for researchers interested in applying GNNs to solve complex mechanics-related tasks.

图神经网络在力学相关领域的应用综述
与机械相关的任务在实现精确的几何和物理表示方面往往面临独特的挑战,特别是对于非均匀结构。图形神经网络(GNN)通过善于从具有不规则底层结构的图形数据中学习,已成为应对这些挑战的一种有前途的工具。因此,近年来,受 GNN 技术进步的启发,与复杂力学相关的应用激增。尽管如此,目前仍缺乏一篇系统性综述来探讨 GNN 在解决力学相关任务方面的最新进展。为了弥补这一空白,本综述文章旨在深入概述 GNN 在机械相关领域的应用,同时明确关键挑战并概述潜在的未来研究方向。在这篇综述文章中,我们首先介绍了在力学相关应用中广泛使用的 GNN 基本算法。我们简明扼要地解释了这些算法的基本原理,以便为探索 GNN 在力学相关领域的应用奠定坚实的基础。本文的研究范围涵盖了固体力学、流体力学和跨学科力学相关领域的文献分类,全面总结了图表示方法、GNN 架构以及在各自子领域的进一步讨论。此外,还总结了与这些应用相关的开放数据和源代码,以方便未来的研究人员。本文促进了 GNN 与力学的跨学科融合,为有兴趣应用 GNN 解决复杂力学相关任务的研究人员提供了指南。
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
Artificial Intelligence Review
Artificial Intelligence Review 工程技术-计算机:人工智能
CiteScore
22.00
自引率
3.30%
发文量
194
审稿时长
5.3 months
期刊介绍: Artificial Intelligence Review, a fully open access journal, publishes cutting-edge research in artificial intelligence and cognitive science. It features critical evaluations of applications, techniques, and algorithms, providing a platform for both researchers and application developers. The journal includes refereed survey and tutorial articles, along with reviews and commentary on significant developments in the field.
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