An extension of the approximate component mode synthesis method to the heterogeneous Helmholtz equation

IF 2.3 2区数学 Q1 MATHEMATICS, APPLIED

IMA Journal of Numerical Analysis Pub Date : 2024-10-26 DOI:10.1093/imanum/drae076

Elena Giammatteo, Alexander Heinlein, Matthias Schlottbom

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引用次数: 0

Abstract

In this work, we propose and analyze an extension of the approximate component mode synthesis (ACMS) method to the two-dimensional heterogeneous Helmholtz equation. The ACMS method has originally been introduced by Hetmaniuk and Lehoucq as a multiscale method to solve elliptic partial differential equations. The ACMS method uses a domain decomposition to separate the numerical approximation by splitting the variational problem into two independent parts: local Helmholtz problems and a global interface problem. While the former are naturally local and decoupled such that they can be easily solved in parallel, the latter requires the construction of suitable local basis functions relying on local eigenmodes and suitable extensions. We carry out a full error analysis of this approach focusing on the case where the domain decomposition is kept fixed, but the number of eigenfunctions is increased. The theoretical results in this work are supported by numerical experiments verifying algebraic convergence for the method. In certain, practically relevant cases, even super-algebraic convergence for the local Helmholtz problems can be achieved without oversampling.

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将近似分量模式合成法扩展至异质亥姆霍兹方程

在这项工作中，我们提出并分析了将近似分量模式合成（ACMS）方法扩展到二维异质亥姆霍兹方程的方法。ACMS 方法最初由 Hetmaniuk 和 Lehoucq 提出，是一种求解椭圆偏微分方程的多尺度方法。ACMS 方法采用域分解法，通过将变分问题拆分为两个独立部分来分离数值逼近：局部亥姆霍兹问题和全局界面问题。前者是天然的局部解耦问题，因此可以轻松地并行求解，而后者则需要依靠局部特征模型和适当的扩展来构建合适的局部基函数。我们对这种方法进行了全面的误差分析，重点是域分解保持不变，但特征函数数量增加的情况。数值实验验证了这一方法的代数收敛性，从而支持了这一工作的理论结果。在某些与实际相关的情况下，甚至可以实现局部亥姆霍兹问题的超代数收敛，而无需超采样。

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

IMA Journal of Numerical Analysis 数学-应用数学

CiteScore

5.30

自引率

4.80%

发文量

审稿时长

6-12 weeks

期刊介绍： The IMA Journal of Numerical Analysis (IMAJNA) publishes original contributions to all fields of numerical analysis; articles will be accepted which treat the theory, development or use of practical algorithms and interactions between these aspects. Occasional survey articles are also published.