We present new and efficient quadrature rules for computing the stiffness matrices of mass-lumped tetrahedral elements for wave propagation modeling. These quadrature rules allow for a more efficient implementation of the mass-lumped finite element method and can handle materials that are heterogeneous within the element without loss of the convergence rate. The quadrature rules are designed for the specific function spaces of recently developed mass-lumped tetrahedra, which consist of standard polynomial function spaces enriched with higher-degree bubble functions. For the degree-2 mass-lumped tetrahedron, the most efficient quadrature rule seems to be an existing 14-point quadrature rule, but for tetrahedra of degrees 3 and 4, we construc...
In this paper we consider the p-FEM for elliptic boundary value problems on tetrahedral meshes where...
Purpose-In this work, an SFEM is proposed for solving acoustic problems by redistributing the entrie...
Finite elements with mass lumping allow for explicit time stepping when modelling wave propagation a...
We present new and efficient quadrature rules for computing the stiffness matrices of mass-lumped te...
We present a new accuracy condition for the construction of continuous mass-lumped elements. This co...
We present a new accuracy condition for the construction of continuous mass-lumped elements. This co...
Mass-lumped finite elements on tetrahedra offer more flexibility than their counterpart on hexahedra...
We consider isotropic elastic wave propagation with continuous mass-lumped finite elements on tetrah...
When solving the wave equation with finite elements, mass lumping allows for explicit time stepping,...
Spectral elements with mass lumping allow for explicit time stepping and are therefore attractive fo...
The higher-order finite-element scheme with mass lumping for triangles and tetrahedra is an efficien...
The effectiveness of explicit direct time-integration methods is conditioned by using diagonal mass ...
Mass-lumped continuous finite elements allow for explicit time stepping with the second-order wave e...
This thesis studies the construction of improved mass matrices for dynamic structural analysis using...
We analyse the dispersion properties of two types of explicit finite element methods for modelling a...
In this paper we consider the p-FEM for elliptic boundary value problems on tetrahedral meshes where...
Purpose-In this work, an SFEM is proposed for solving acoustic problems by redistributing the entrie...
Finite elements with mass lumping allow for explicit time stepping when modelling wave propagation a...
We present new and efficient quadrature rules for computing the stiffness matrices of mass-lumped te...
We present a new accuracy condition for the construction of continuous mass-lumped elements. This co...
We present a new accuracy condition for the construction of continuous mass-lumped elements. This co...
Mass-lumped finite elements on tetrahedra offer more flexibility than their counterpart on hexahedra...
We consider isotropic elastic wave propagation with continuous mass-lumped finite elements on tetrah...
When solving the wave equation with finite elements, mass lumping allows for explicit time stepping,...
Spectral elements with mass lumping allow for explicit time stepping and are therefore attractive fo...
The higher-order finite-element scheme with mass lumping for triangles and tetrahedra is an efficien...
The effectiveness of explicit direct time-integration methods is conditioned by using diagonal mass ...
Mass-lumped continuous finite elements allow for explicit time stepping with the second-order wave e...
This thesis studies the construction of improved mass matrices for dynamic structural analysis using...
We analyse the dispersion properties of two types of explicit finite element methods for modelling a...
In this paper we consider the p-FEM for elliptic boundary value problems on tetrahedral meshes where...
Purpose-In this work, an SFEM is proposed for solving acoustic problems by redistributing the entrie...
Finite elements with mass lumping allow for explicit time stepping when modelling wave propagation a...