A monolithic space-time temporal multirate finite element framework for interface and volume coupled problems
Abstract
In this work, we propose and computationally investigate a monolithic space-time multirate scheme for coupled problems. The novelty lies in the monolithic formulation of the multirate approach as this requires a careful design of the functional framework, corresponding discretization, and implementation. Our method of choice is a tensor-product Galerkin space-time discretization. The developments are carried out for both prototype interface- and volume coupled problems such as coupled wave-heat-problems and a displacement equation coupled to Darcy flow in a poro-elastic medium. The latter is applied to the well-known Mandel's benchmark and a three-dimensional footing problem. Detailed computational investigations and convergence analyses give evidence that our monolithic multirate framework performs well.
Cite
@article{arxiv.2307.12455,
title = {A monolithic space-time temporal multirate finite element framework for interface and volume coupled problems},
author = {Julian Roth and Martyna Soszyńska and Thomas Richter and Thomas Wick},
journal= {arXiv preprint arXiv:2307.12455},
year = {2024}
}
Comments
39 pages, 18 figures, 4 tables