Deep Interface Alternation Method (DIAM) based on domain decomposition for solving elliptic interface problems

IF 4.2 2区工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY Engineering Analysis with Boundary Elements Pub Date : 2024-08-16 DOI:10.1016/j.enganabound.2024.105905

Lingxiao Zhang , Xinxiang Li

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Abstract

The interface problem is highly challenging due to its non-smoothness, discontinuity, and interface complexity. In this paper, a new and simple Deep Interface Alternation Method (DIAM) is developed to solve elliptic interface problems to avoid dealing with interfaces. It combines the ideas of domain decomposition methods and deep learning methods. Specifically, we first transform the interface problem with discontinuous derivatives into multiple continuous subproblems based on the Dirichlet–Dirichlet algorithm of domain decomposition. Then, we establish different fully connected neural networks for each subproblem to approximate parallelly the continuous solutions in the subdomain. The interface information is especially exchanged among the different loss functions of each subdomain neural network while minimizing the loss functions of each subdomain separately to obtain solutions to the entire interface problem. Numerical experiments were conducted on two-dimensional and three-dimensional elliptical interface problems with different coefficient contrasts and interface complexity. The results indicate that the Deep Interface Alternation Method has effectiveness and accuracy.

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基于域分解的深层界面交替法 (DIAM) 用于解决椭圆界面问题

界面问题因其非光滑性、不连续性和界面复杂性而极具挑战性。本文开发了一种新的、简单的深度界面交替法（DIAM）来解决椭圆界面问题，以避免处理界面。它结合了领域分解方法和深度学习方法的思想。具体来说，我们首先基于域分解的 Dirichlet-Dirichlet 算法，将具有不连续导数的接口问题转化为多个连续子问题。然后，我们为每个子问题建立不同的全连接神经网络，并行逼近子域中的连续解。在分别最小化各子域损失函数的同时，特别在各子域神经网络的不同损失函数之间交换接口信息，从而获得整个接口问题的解。对不同系数对比度和界面复杂度的二维和三维椭圆界面问题进行了数值实验。结果表明，深度界面交替法具有有效性和准确性。

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来源期刊

Engineering Analysis with Boundary Elements 工程技术-工程：综合

CiteScore

5.50

自引率

18.20%

发文量

368

审稿时长

56 days

期刊介绍： This journal is specifically dedicated to the dissemination of the latest developments of new engineering analysis techniques using boundary elements and other mesh reduction methods. Boundary element (BEM) and mesh reduction methods (MRM) are very active areas of research with the techniques being applied to solve increasingly complex problems. The journal stresses the importance of these applications as well as their computational aspects, reliability and robustness. The main criteria for publication will be the originality of the work being reported, its potential usefulness and applications of the methods to new fields. In addition to regular issues, the journal publishes a series of special issues dealing with specific areas of current research. The journal has, for many years, provided a channel of communication between academics and industrial researchers working in mesh reduction methods Fields Covered: • Boundary Element Methods (BEM) • Mesh Reduction Methods (MRM) • Meshless Methods • Integral Equations • Applications of BEM/MRM in Engineering • Numerical Methods related to BEM/MRM • Computational Techniques • Combination of Different Methods • Advanced Formulations.