Effects of Numerical Intergration on DLM/FD Method for Solving Interface Problems with Body-Unfitted Meshes

Authors

Cheng Wang, Las Cruces
D. Nicholas McLetchie, University of Kentucky
Sarah M. Eppley, Portland State University
Lloyd R. Stark, University of Nevada, Las VegasFollow

Document Type

Article

Publication Date

6-8-2019

Publication Title

International Conference on Computational Science

First page number:

551

Last page number:

567

Abstract

In this paper, the effects of different numerical integration schemes on the distributed Lagrange multiplier/fictitious domain (DLM/FD) method with body-unfitted meshes are studied for solving different types of interface problems: elliptic-, Stokes- and Stokes/elliptic-interface problems. Commonly-used numerical integration schemes, compound type formulas and a specific subgrid integration scheme are presented for the mixed finite element approximation and the comparison between them is illustrated in numerical experiments, showing that different numerical integration schemes have significant effects on approximation errors of the DLM/FD finite element method for different types of interface problems, especially for Stokes- and Stokes/elliptic-interface problems, and that the subgrid integration scheme always results in numerical solutions with the best accuracy.

Disciplines

Applied Mathematics

Language

English

Repository Citation

Wang, C., McLetchie, D. N., Eppley, S. M., Stark, L. R. (2019). Effects of Numerical Intergration on DLM/FD Method for Solving Interface Problems with Body-Unfitted Meshes. International Conference on Computational Science 551-567.
http://dx.doi.org/10.1007/978-3-030-22747-0_41