Mass-lumped finite elements on tetrahedra offer more flexibility than their counterpart on hexahedra for the simulation of seismic wave propagation, but there is no general recipe for their construction, unlike as with hexahedra. Earlier, we found new elements up to degree 4 that have significantly less nodes than previously known elements by sharpening the accuracy criterion. A similar approach applied to numerical quadrature of the stiffness matrix provides a speed improvement in the acoustic case and an additional factor 1.5 in the isotropic elastic case. We present numerical results for a homogeneous and heterogeneous isotropic elastic test problem on a sequence of successively finer meshes and for elements of degrees 1 to 4. A comparis...
Finite-element modelling of seismic wave propagation on tetrahedra requires meshes that accurately f...
Finite elements with mass lumping allow for explicit time stepping when modelling wave propagation a...
The finite-difference method is widely used for time-domain modelling of the wave equation because o...
Mass-lumped finite elements on tetrahedra offer more flexibility than their counterpart on hexahedra...
Spectral elements with mass lumping allow for explicit time stepping and are therefore attractive fo...
We present a new accuracy condition for the construction of continuous mass-lumped elements. This co...
We consider isotropic elastic wave propagation with continuous mass-lumped finite elements on tetrah...
We present a new accuracy condition for the construction of continuous mass-lumped elements. This co...
We present new and efficient quadrature rules for computing the stiffness matrices of mass-lumped te...
In this dissertation, new and more efficient finite element methods for modelling seismic wave propa...
We analyse the dispersion properties of two types of explicit finite element methods for modelling a...
When solving the wave equation with finite elements, mass lumping allows for explicit time stepping,...
Mass-lumped continuous finite elements provide accurate solutions of the second-order acoustic or el...
Finite-element modelling of seismic wave propagation on tetrahedra requires meshes that accurately f...
Mass-lumped continuous finite elements allow for explicit time stepping with the second-order wave e...
Finite-element modelling of seismic wave propagation on tetrahedra requires meshes that accurately f...
Finite elements with mass lumping allow for explicit time stepping when modelling wave propagation a...
The finite-difference method is widely used for time-domain modelling of the wave equation because o...
Mass-lumped finite elements on tetrahedra offer more flexibility than their counterpart on hexahedra...
Spectral elements with mass lumping allow for explicit time stepping and are therefore attractive fo...
We present a new accuracy condition for the construction of continuous mass-lumped elements. This co...
We consider isotropic elastic wave propagation with continuous mass-lumped finite elements on tetrah...
We present a new accuracy condition for the construction of continuous mass-lumped elements. This co...
We present new and efficient quadrature rules for computing the stiffness matrices of mass-lumped te...
In this dissertation, new and more efficient finite element methods for modelling seismic wave propa...
We analyse the dispersion properties of two types of explicit finite element methods for modelling a...
When solving the wave equation with finite elements, mass lumping allows for explicit time stepping,...
Mass-lumped continuous finite elements provide accurate solutions of the second-order acoustic or el...
Finite-element modelling of seismic wave propagation on tetrahedra requires meshes that accurately f...
Mass-lumped continuous finite elements allow for explicit time stepping with the second-order wave e...
Finite-element modelling of seismic wave propagation on tetrahedra requires meshes that accurately f...
Finite elements with mass lumping allow for explicit time stepping when modelling wave propagation a...
The finite-difference method is widely used for time-domain modelling of the wave equation because o...