High order discontinuous Galerkin methods on simplicial elements for the elastodynamics equation

In this work we apply the discontinuous Galekin (dG) spectral element method on meshes made of simplicial elements for the approximation of the elastodynamics equation. Our approach combines the high accuracy of spectral methods, the geometrical flexibility of simplicial elements and the computational efficiency of dG methods. We analyze the dissipation, dispersion and stability properties of the resulting scheme, with a focus on the choice of different sets of basis functions. Finally, we apply the method on benchmark as well as realistic test cases.

High order discontinuous Galerkin methods on simplicial elements for the elastodynamics equation

Graph Chatbot

A unified framework for Simplicial Kuramoto models

An optimal preconditioned FFT-accelerated finite element solver for homogenization

Connecting Hodge and Sakaguchi-Kuramoto through a mathematical framework for coupled oscillators on simplicial complexes

A unified framework for Simplicial Kuramoto models

An optimal preconditioned FFT-accelerated finite element solver for homogenization

Connecting Hodge and Sakaguchi-Kuramoto through a mathematical framework for coupled oscillators on simplicial complexes