Convergence of Weak Galerkin Finite Element Method for Second Order Linear Wave Equation in Heterogeneous Media
DOI:
https://doi.org/10.4208/nmtma.OA-2021-0080Keywords:
Wave equation, heterogeneous medium, finite element method, weak Galerkin method, semidiscrete and fully discrete schemes, optimal error estimates.Abstract
Weak Galerkin finite element method is introduced for solving wave equation with interface on weak Galerkin finite element space $(\mathcal{P}_k(K), \mathcal{P}_{k−1}(∂K), [\mathcal{P}_{k−1}(K)]^2).$ Optimal order a priori error estimates for both space-discrete scheme and implicit fully discrete scheme are derived in $L^∞(L^2)$ norm. This method uses totally discontinuous functions in approximation space and allows the usage of finite element partitions consisting of general polygonal meshes. Finite element algorithm presented here can contribute to a variety of hyperbolic problems where physical domain consists of heterogeneous media.
Downloads
Published
2023-04-10
Issue
Section
Articles