In this article, a Space-Time Finite Element Method (STFEM) is proposed for the resolution of mechanical problems involving three dimensions in space and one in time. Special attention will be paid to the non-separation of the space and time variables because this kind of interpolation is well suited to mesh adaptation. For that purpose, we have developed a technique of 4D mesh generation adapted to space-time remeshing. A difficulty arose in the representation of 4D finite elements and meshes. This original technique does not require coarse-to-fine and fine-to-coarse mesh-to-mesh transfer operators and does not increase the size of the linear systems to be solved, compared to traditional finite element methods. Space-time meshes are compos...
Virtual product and process development using numerical simulations has evolved and found their way ...
A linear-elasticity approach is presented for the generation of meshes appropriate for a higher-orde...
Space-time finite element methods are presented to accurately solve elastodynamics problems that inc...
In this article, a Space-Time Finite Element Method (STFEM) is proposed for the resolution of mechan...
International audienceIn this article, a Space-Time Finite Element Method (STFEM) is proposed for th...
International audienceWe present a space-time finite element method (STFEM) for linearised elastodyn...
Introduction and Motivation This work has been developed in the general frame of the numerical reso...
Solving differential equations is essential to a wide range of scientific applications including mod...
Large-scale simulations of time-dependent partial differential equations are, at present, largely re...
Elastodynamics is an academic field that is involved in solving problems related to the field of wav...
We describe the spacetime discontinuous Galerkin method, a new type of finite-element method which p...
A mesh adaptation strategy suitable for unsteady partial differential equations has been developed t...
This article deals with moving finite element methods by use of the time-discontinuous Galerkin form...
A space-time finite element method for the poroelasticity problem is outlined. In particular, this p...
Space-time finite element methods are presented to accurately solve elastodynamics problems that inc...
Virtual product and process development using numerical simulations has evolved and found their way ...
A linear-elasticity approach is presented for the generation of meshes appropriate for a higher-orde...
Space-time finite element methods are presented to accurately solve elastodynamics problems that inc...
In this article, a Space-Time Finite Element Method (STFEM) is proposed for the resolution of mechan...
International audienceIn this article, a Space-Time Finite Element Method (STFEM) is proposed for th...
International audienceWe present a space-time finite element method (STFEM) for linearised elastodyn...
Introduction and Motivation This work has been developed in the general frame of the numerical reso...
Solving differential equations is essential to a wide range of scientific applications including mod...
Large-scale simulations of time-dependent partial differential equations are, at present, largely re...
Elastodynamics is an academic field that is involved in solving problems related to the field of wav...
We describe the spacetime discontinuous Galerkin method, a new type of finite-element method which p...
A mesh adaptation strategy suitable for unsteady partial differential equations has been developed t...
This article deals with moving finite element methods by use of the time-discontinuous Galerkin form...
A space-time finite element method for the poroelasticity problem is outlined. In particular, this p...
Space-time finite element methods are presented to accurately solve elastodynamics problems that inc...
Virtual product and process development using numerical simulations has evolved and found their way ...
A linear-elasticity approach is presented for the generation of meshes appropriate for a higher-orde...
Space-time finite element methods are presented to accurately solve elastodynamics problems that inc...