用于均质和非均质材料特性识别的物理信息神经网络的变分公式

IF 2.9 3区 工程技术 Q2 MECHANICS
Chuang Liu, Heng-An Wu
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引用次数: 0

摘要

提出了一种利用物理信息神经网络解决计算力学问题的新方法。利用固体力学控制方程的残差变分形式,并通过使用域分解和多项式检验函数在整个计算域上评估残差。引入了参数网络,并使用加权求和将初始和边界条件以及数据失配合并到总损失函数中。该模型在求解固体力学正演问题时的精度高于有限元法。此外,该模型可以使用有限的观测值(如应变分量)有效地捕捉均匀和非均匀的材料分布。这一贡献对于无损评估的潜在应用意义重大,因为在无损评估中很难获得有关材料性能的详细信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Variational Formulation of Physics-Informed Neural Network for the Applications of Homogeneous and Heterogeneous Material Properties Identification
A new approach for solving computational mechanics problems using physics-informed neural networks (PINNs) is proposed. Variational forms of residuals for the governing equations of solid mechanics are utilized, and the residual is evaluated over the entire computational domain by employing domain decomposition and polynomials test functions. A parameter network is introduced and initial and boundary conditions, as well as data mismatch, are incorporated into a total loss function using a weighted summation. The accuracy of the model in solving forward problems of solid mechanics is demonstrated to be higher than that of the finite element method (FEM). Furthermore, homogeneous and heterogeneous material distributions can be effectively captured by the model using limited observations, such as strain components. This contribution is significant for potential applications in non-destructive evaluation, where obtaining detailed information about the material properties is difficult.
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来源期刊
CiteScore
5.80
自引率
11.40%
发文量
116
审稿时长
3 months
期刊介绍: The journal has as its objective the publication and wide electronic dissemination of innovative and consequential research in applied mechanics. IJAM welcomes high-quality original research papers in all aspects of applied mechanics from contributors throughout the world. The journal aims to promote the international exchange of new knowledge and recent development information in all aspects of applied mechanics. In addition to covering the classical branches of applied mechanics, namely solid mechanics, fluid mechanics, thermodynamics, and material science, the journal also encourages contributions from newly emerging areas such as biomechanics, electromechanics, the mechanical behavior of advanced materials, nanomechanics, and many other inter-disciplinary research areas in which the concepts of applied mechanics are extensively applied and developed.
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