Elastic structural analysis based on graph neural network without labeled data

可解释性 正确性 计算机科学 功率图分析 理论计算机科学 图形 人工智能 可微函数 人工神经网络 数据挖掘 算法 数学 数学分析
作者
Ling-han Song,Chen Wang,Jian‐Sheng Fan,Hong‐Ming Lu
出处
期刊:Computer-aided Civil and Infrastructure Engineering [Wiley]
卷期号:38 (10): 1307-1323 被引量:57
标识
DOI:10.1111/mice.12944
摘要

Abstract Artificial intelligence is gaining increasing popularity in structural analysis. However, at the structural system level, the appropriateness of data representation, the paucity of data, and the physical interpretability of results are rarely studied and remain profound challenges. To fill such gaps, a physics‐informed model named StructGNN‐E (i.e., structural analysis based on graph neural network [GNN]–elastic) based on the GNN architecture, which is capable of implementing the elastic analysis of structural systems without labeled data, is proposed in this study. The systems with structural topologies and member configurations are organized as graph data and later processed by a modified graph isomorphism network. Moreover, to avoid dependence on big data, a novel physics‐informed paradigm is proposed to incorporate mechanics into deep learning (DL), ensuring the theoretical correctness of the results. Numerical experiments and ablation studies demonstrate the unique effectiveness of StructGNN‐E against common DL models, with an average accuracy of 99% and excellent computational efficiency. Due to its differentiability, StructGNN‐E is promising for bidirectionally linking structural parameters and analysis results, paving the way for a new end‐to‐end structural optimization method in the future.
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