Add to ORKGWe consider two graph grammar based Petri nets models for anisotropic refinements of three dimensional hexahedral grids. The first one detects possible dead-end problems during the graph grammar based anisotropic refinements of the mesh. The second one employs an enhanced graph grammar model that is actually dead-end free. We apply the resulting algorithm to the simulation of resistivity logging measurements for estimating the location of underground oil and/or gas formations. The graph grammar based Petri net models allow to fix the self-adaptive mesh refinement algorithm and finish the adaptive computations with the required accuracy needed by the numerical solution
We present a method for anisotropic mesh refinement to high-order numerical solutions. We accomplish...
This paper describes application of a hyper-graph grammar system for modeling a three-dimensional ad...
In this paper we provide a novel anisotropic mesh adaptation technique for adaptive finite element a...
We consider two graph grammar based Petri nets models for anisotropic refinements of three dimension...
AbstractThe paper presents a grammar for anisotropic two-dimensional mesh adaptation in hp-adaptive ...
Promotor: Maciej Paszyński.Niepublikowana praca doktorska.Tyt. z ekranu tyt.Praca doktorska. AGH Uni...
In this paper we present the Petri net setting the optimal order of elimination for directsolver wor...
AbstractIn this paper, we propose an anisotropic adaptive refinement algorithm based on the finite e...
In this paper we present the Petri net setting the optimal order of elimination for directsolver wor...
This talk will focus on some of the recent progresses in anisotropic mesh adaptation in finite eleme...
International audienceA major problem arising in finite element analysis of coupled problems, such a...
We consider the a posteriori error analysis and hp-adaptation strategies for hp-version interior pen...
In an anisotropic adaptive finite element algorithm one usually needs an error estimator that yields...
This paper presents a composite programmable graph grammar model of the three dimensional self-adapt...
Because of the increasingly complex geometries involved in flow problems of industrial relevance, nu...
We present a method for anisotropic mesh refinement to high-order numerical solutions. We accomplish...
This paper describes application of a hyper-graph grammar system for modeling a three-dimensional ad...
In this paper we provide a novel anisotropic mesh adaptation technique for adaptive finite element a...
We consider two graph grammar based Petri nets models for anisotropic refinements of three dimension...
AbstractThe paper presents a grammar for anisotropic two-dimensional mesh adaptation in hp-adaptive ...
Promotor: Maciej Paszyński.Niepublikowana praca doktorska.Tyt. z ekranu tyt.Praca doktorska. AGH Uni...
In this paper we present the Petri net setting the optimal order of elimination for directsolver wor...
AbstractIn this paper, we propose an anisotropic adaptive refinement algorithm based on the finite e...
In this paper we present the Petri net setting the optimal order of elimination for directsolver wor...
This talk will focus on some of the recent progresses in anisotropic mesh adaptation in finite eleme...
International audienceA major problem arising in finite element analysis of coupled problems, such a...
We consider the a posteriori error analysis and hp-adaptation strategies for hp-version interior pen...
In an anisotropic adaptive finite element algorithm one usually needs an error estimator that yields...
This paper presents a composite programmable graph grammar model of the three dimensional self-adapt...
Because of the increasingly complex geometries involved in flow problems of industrial relevance, nu...
We present a method for anisotropic mesh refinement to high-order numerical solutions. We accomplish...
This paper describes application of a hyper-graph grammar system for modeling a three-dimensional ad...
In this paper we provide a novel anisotropic mesh adaptation technique for adaptive finite element a...