AbstractWe examine a number of adaptive space mesh routines which were designed to provide accurate numerical approximations to the solutions of parabolic partial differential equations in one space dimension. Both static and dynamic regridding techniques are considered, and in numerical experiments, we compare their relative performances by measuring a range of statistics including accuracy and cpu when applied to approximate the solutions of a set of representative test problems
Abstract: Some aspects of the solution of parabolic equations on Cartesian locally adaptiv...
AbstractAdaptive mesh methods are valuable tools in improving the accuracy and efficiency of the num...
A posteriori error estimates for the heat equation in two space dimensions are presented. A classica...
In this thesis our primary interest is in developing adaptive solution methods for parabolic and ell...
Abstract. In this paper we derive a posteriori error estimates for space-time finite element discret...
We consider adaptive space-time finite element approximations of parabolic optimal control problems ...
summary:The adjustment of one-dimensional space grid for a parabolic partial differential equation s...
92 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1980.In many applications, the solu...
We present an adaptive methodology for the solution of (linear and) non-linear time dependent proble...
A new adaptive multilevel approach, for linear parabolic partial dif-ferential equations is presente...
In this thesis, we introduce and assess a new adaptive method for solving non-linear parabolic parti...
Methods for comparing the accuracy of numerical methods for the solution of parabolic partial differ...
Solutions to Partial Differential Equations (PDEs) are often computed by dis-cretizing the domain in...
The first half of the paper provides an overview of a new engineering software tool that is designed...
Many engineering applications require numerical solution of partial differential equations (PDEs). T...
Abstract: Some aspects of the solution of parabolic equations on Cartesian locally adaptiv...
AbstractAdaptive mesh methods are valuable tools in improving the accuracy and efficiency of the num...
A posteriori error estimates for the heat equation in two space dimensions are presented. A classica...
In this thesis our primary interest is in developing adaptive solution methods for parabolic and ell...
Abstract. In this paper we derive a posteriori error estimates for space-time finite element discret...
We consider adaptive space-time finite element approximations of parabolic optimal control problems ...
summary:The adjustment of one-dimensional space grid for a parabolic partial differential equation s...
92 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1980.In many applications, the solu...
We present an adaptive methodology for the solution of (linear and) non-linear time dependent proble...
A new adaptive multilevel approach, for linear parabolic partial dif-ferential equations is presente...
In this thesis, we introduce and assess a new adaptive method for solving non-linear parabolic parti...
Methods for comparing the accuracy of numerical methods for the solution of parabolic partial differ...
Solutions to Partial Differential Equations (PDEs) are often computed by dis-cretizing the domain in...
The first half of the paper provides an overview of a new engineering software tool that is designed...
Many engineering applications require numerical solution of partial differential equations (PDEs). T...
Abstract: Some aspects of the solution of parabolic equations on Cartesian locally adaptiv...
AbstractAdaptive mesh methods are valuable tools in improving the accuracy and efficiency of the num...
A posteriori error estimates for the heat equation in two space dimensions are presented. A classica...