用于动态系统的精确守恒物理信息神经网络和深度算子网络。

Exactly conservative physics-informed neural networks and deep operator networks for dynamical systems.

作者信息

Cardoso-Bihlo Elsa, Bihlo Alex

机构信息

Department of Mathematics and Statistics Memorial University of Newfoundland St. John's, NL, A1C 5S7, Canada.

出版信息

Neural Netw. 2025 Jan;181:106826. doi: 10.1016/j.neunet.2024.106826. Epub 2024 Oct 22.

DOI:10.1016/j.neunet.2024.106826

PMID:39509811

Abstract

We introduce a method for training exactly conservative physics-informed neural networks and physics-informed deep operator networks for dynamical systems, that is, for ordinary differential equations. The method employs a projection-based technique that maps a candidate solution learned by the neural network solver for any given dynamical system possessing at least one first integral onto an invariant manifold. We illustrate that exactly conservative physics-informed neural network solvers and physics-informed deep operator networks for dynamical systems vastly outperform their non-conservative counterparts for several real-world problems from the mathematical sciences.

摘要

我们介绍了一种用于为动力系统（即常微分方程）训练精确守恒的物理信息神经网络和物理信息深度算子网络的方法。该方法采用基于投影的技术，将神经网络求解器为任何具有至少一个首次积分的给定动力系统学习到的候选解映射到一个不变流形上。我们表明，对于数学科学中的几个实际问题，用于动力系统的精确守恒物理信息神经网络求解器和物理信息深度算子网络比它们的非守恒对应物表现得要好得多。

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用于动态系统的精确守恒物理信息神经网络和深度算子网络。

Exactly conservative physics-informed neural networks and deep operator networks for dynamical systems.

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