Add to ORKGThis paper investigates the adaptive finite element solution of a general class of variational problems in three dimensions using a combination of node movement, edge swapping, face swapping and node insertion. The adaptive strategy proposed is a generalization of previous work in two dimensions and is based upon the construction of a hierarchy of locally optimal meshes. Results presented, both for a single equation and a system of coupled equations, suggest that this approach is able to produce better meshes of tetrahedra than those obtained by more conventional adaptive strategies and in a relatively efficient manner
This is a survey on the theory of adaptive finite element methods (AFEM), which are fundamental in m...
This paper presents a tetrahedral mesh generation method for numerically solving partial differentia...
A novel r-adaptive finite element strategy based on a fully variational framework is presented. Prov...
This paper investigates the adaptive finite element solution of a general class of variational probl...
This paper investigates the adaptive finite element solution of a general class of variational probl...
This paper investigates the adaptive finite element solution of a general class of variational probl...
In this paper we consider the adaptive finite element solution of a general class of variational pro...
AbstractA mesh generation approach that allows the local modification of meshes of simplices is revi...
This paper provides a refined a posteriori error control for the obstacle problem with an affine obs...
This work describes a concise algorithm for the generation of triangular meshes with the help of sta...
In this work, we present a brief review on recent developments on adaptive finite element method for...
This work describes a concise algorithm for the generation of triangular meshes with the help of sta...
Multilevel representations and mesh reduction techniques have been used for accelerating the process...
This contribution is concerned with the coupling of finite element based shape optimization to metho...
This contribution is concerned with the coupling of finite element based shape optimization to metho...
This is a survey on the theory of adaptive finite element methods (AFEM), which are fundamental in m...
This paper presents a tetrahedral mesh generation method for numerically solving partial differentia...
A novel r-adaptive finite element strategy based on a fully variational framework is presented. Prov...
This paper investigates the adaptive finite element solution of a general class of variational probl...
This paper investigates the adaptive finite element solution of a general class of variational probl...
This paper investigates the adaptive finite element solution of a general class of variational probl...
In this paper we consider the adaptive finite element solution of a general class of variational pro...
AbstractA mesh generation approach that allows the local modification of meshes of simplices is revi...
This paper provides a refined a posteriori error control for the obstacle problem with an affine obs...
This work describes a concise algorithm for the generation of triangular meshes with the help of sta...
In this work, we present a brief review on recent developments on adaptive finite element method for...
This work describes a concise algorithm for the generation of triangular meshes with the help of sta...
Multilevel representations and mesh reduction techniques have been used for accelerating the process...
This contribution is concerned with the coupling of finite element based shape optimization to metho...
This contribution is concerned with the coupling of finite element based shape optimization to metho...
This is a survey on the theory of adaptive finite element methods (AFEM), which are fundamental in m...
This paper presents a tetrahedral mesh generation method for numerically solving partial differentia...
A novel r-adaptive finite element strategy based on a fully variational framework is presented. Prov...