In this paper we introduce formal definitions for several graph transformation systems modeling three dimensional h-adaptive Finite Element Method (3D h-FEM) algorithms with tetrahedral finite elements. We introduce a composite graph representation of the computational mesh and graph transformation rules expressing the mesh operations. In particular, there are graph transformation rules expressing the generation of the initial mesh consisting with tetrahedral finite elements, graph transformation rules expressing the construction of an elimination tree for interfacing with multi-frontal direct solver algorithm, graph transformation rules selecting sub-graph representing finite elements for further refinements, graph transformation rules res...
The paper is concerned with algorithms for transforming hexahedral finite element meshes into tetrah...
AbstractIn this paper, we present a multi-frontal solver algorithm for the adaptive finite element m...
AbstractThe paper presents an extension of the hypergraph grammar model of the hp-adaptive finite el...
In this paper we present several graph transformation systems modeling three dimensional h-adaptive ...
This paper presents a composite programmable graph grammar model of the three dimensional self-adapt...
Abstract. The first part of our paper presents a composite programmable graph grammar model for the ...
The paper presents a system of Composite Graph Grammars (CGGs) modelling adaptive two dimensional hp...
The paper presents a system of Composite Graph Grammars (CGGs)modelling adaptive two dimensional hp ...
This paper describes application of a hyper-graph grammar system for modeling a three-dimensional ad...
This paper describes application of a hyper-graph grammar system for modeling a three-dimensional ad...
AbstractThe paper presents the hypergraph grammar for modelling the hp-adaptive finite element metho...
In this paper, we consider three-dimensional grids with tetrahedral finite elements, and the graph g...
In this paper we present a graph grammar based direct solver algorithm for hp-adaptive finite elemen...
AbstractIn this paper we present a graph grammar based direct solver algorithm for hp-adaptive finit...
The paper is concerned with algorithms for transforming hexahedral finite element meshes into tetrah...
The paper is concerned with algorithms for transforming hexahedral finite element meshes into tetrah...
AbstractIn this paper, we present a multi-frontal solver algorithm for the adaptive finite element m...
AbstractThe paper presents an extension of the hypergraph grammar model of the hp-adaptive finite el...
In this paper we present several graph transformation systems modeling three dimensional h-adaptive ...
This paper presents a composite programmable graph grammar model of the three dimensional self-adapt...
Abstract. The first part of our paper presents a composite programmable graph grammar model for the ...
The paper presents a system of Composite Graph Grammars (CGGs) modelling adaptive two dimensional hp...
The paper presents a system of Composite Graph Grammars (CGGs)modelling adaptive two dimensional hp ...
This paper describes application of a hyper-graph grammar system for modeling a three-dimensional ad...
This paper describes application of a hyper-graph grammar system for modeling a three-dimensional ad...
AbstractThe paper presents the hypergraph grammar for modelling the hp-adaptive finite element metho...
In this paper, we consider three-dimensional grids with tetrahedral finite elements, and the graph g...
In this paper we present a graph grammar based direct solver algorithm for hp-adaptive finite elemen...
AbstractIn this paper we present a graph grammar based direct solver algorithm for hp-adaptive finit...
The paper is concerned with algorithms for transforming hexahedral finite element meshes into tetrah...
The paper is concerned with algorithms for transforming hexahedral finite element meshes into tetrah...
AbstractIn this paper, we present a multi-frontal solver algorithm for the adaptive finite element m...
AbstractThe paper presents an extension of the hypergraph grammar model of the hp-adaptive finite el...