We present a new class of self-adaptive higher-order finite element methods (hp-FEM) which are free of analytical error estimates and thus work equally well for virtually all PDE problems ranging from simple linear elliptic equations to complex time-dependent nonlinear multiphysics coupled problems. The methodology was used to solve various types of problems. In this paper we use a nonlinear combustion problem for illustration
In this dissertation, we formulate and implement p- adaptive and hp-adaptive finite element methods ...
The thesis is concerned with theoretical and practical aspects of the hp- adaptive finite element me...
AbstractA new hp-adaptive approach for finite element methods is presented. Specifically, the paper ...
summary:We present a new class of self-adaptive higher-order finite element methods ($hp$-FEM) which...
The thesis is concerned with the solution of multiphysics problems described by partial differential...
The hp-FEM is a modern version of the Finite Element Method (FEM) which combines elements of variabl...
AbstractWe present a novel approach to automatic adaptivity in higher-order finite element methods (...
The hp-FEM is a modern version of the Finite Element Method (FEM) which admits elements with differe...
The contribution is concerned with fully automatic h-, p-, and hp- adaptive strategies based on opti...
The hp-version of the finite element method (hp-FEM) is extremely efficient numerical method for sol...
Sophisticated methods of automatic adaptivity in finite element methods of higher order of accuracy ...
Numerical solution of initial-value problems for nonlinear parabolic equations by the finite element...
We introduce an hp-adaptive finite element algorithm based on a combination of reliable and efficien...
In this work, we report on an ongoing project to implement an hp-adaptive finite element method. The...
Even though a tremendous effort has been devoted to the area of transient analysis, many of these mo...
In this dissertation, we formulate and implement p- adaptive and hp-adaptive finite element methods ...
The thesis is concerned with theoretical and practical aspects of the hp- adaptive finite element me...
AbstractA new hp-adaptive approach for finite element methods is presented. Specifically, the paper ...
summary:We present a new class of self-adaptive higher-order finite element methods ($hp$-FEM) which...
The thesis is concerned with the solution of multiphysics problems described by partial differential...
The hp-FEM is a modern version of the Finite Element Method (FEM) which combines elements of variabl...
AbstractWe present a novel approach to automatic adaptivity in higher-order finite element methods (...
The hp-FEM is a modern version of the Finite Element Method (FEM) which admits elements with differe...
The contribution is concerned with fully automatic h-, p-, and hp- adaptive strategies based on opti...
The hp-version of the finite element method (hp-FEM) is extremely efficient numerical method for sol...
Sophisticated methods of automatic adaptivity in finite element methods of higher order of accuracy ...
Numerical solution of initial-value problems for nonlinear parabolic equations by the finite element...
We introduce an hp-adaptive finite element algorithm based on a combination of reliable and efficien...
In this work, we report on an ongoing project to implement an hp-adaptive finite element method. The...
Even though a tremendous effort has been devoted to the area of transient analysis, many of these mo...
In this dissertation, we formulate and implement p- adaptive and hp-adaptive finite element methods ...
The thesis is concerned with theoretical and practical aspects of the hp- adaptive finite element me...
AbstractA new hp-adaptive approach for finite element methods is presented. Specifically, the paper ...