Error analysis of second-order local time integration methods for discontinuous Galerkin discretizations of linear wave equations

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Constantin Carle, Marlis Hochbruck
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引用次数: 0

Abstract

This paper is dedicated to the full discretization of linear wave equations, where the space discretization is carried out with a discontinuous Galerkin method on spatial meshes which are locally refined or have a large wave speed on only a small part of the mesh. Such small local structures lead to a strong Courant–Friedrichs–Lewy (CFL) condition in explicit time integration schemes causing a severe loss in efficiency. For these problems, various local time-stepping schemes have been proposed in the literature in the last years and have been shown to be very efficient. Here, we construct a quite general class of local time integration methods preserving a perturbed energy and containing local time-stepping and locally implicit methods as special cases. For these two variants we prove stability and optimal convergence rates in space and time. Numerical results confirm the stability behavior and show the proved convergence rates.

线性波方程非连续伽勒金离散化的二阶局部时间积分法误差分析
本文致力于线性波方程的完全离散化,其中空间离散化是在局部细化或仅在网格的一小部分具有较大波速的空间网格上采用非连续 Galerkin 方法进行的。在显式时间积分方案中,这种小的局部结构会导致强烈的库兰特-弗里德里希斯-路维(CFL)条件,从而严重降低效率。针对这些问题,过去几年中已有文献提出了各种局部时间步进方案,并被证明非常高效。在这里,我们构建了一类相当通用的局部时间积分方法,它保留了扰动能量,并包含局部时间步进和局部隐式方法作为特例。我们证明了这两种方法在空间和时间上的稳定性和最佳收敛率。数值结果证实了稳定性行为,并显示了所证明的收敛率。
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
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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