Adaptive techniques in the finite element method

A split-step ®nite element analysis method (SSFEAM) using various adaptive grid controls is proposed. The aim of this method is to split the non-linear partial dierential equation required to be solved into two simpler equations that can be solved either analytically or numerically in the time domai

## Abstract One version of the stochastic finite element method involves representing the solution with respect to a basis in the space of random variables and evaluating the co‐ordinates of the solution with respect to this basis by relying on Hilbert space projections. The approach results in an

## Abstract A general framework is developed to control simulation parameters that appear in finite element models in order to improve accuracy and efficiency. This approach is based on fuzzy logic that allows the expert knowledge to be taken into account on the controller design and avoids the req

This paper presents an adaptive ®nite element method to solve forced convective heat transfer. Solutions are obtained in primitive variables using a high-order ®nite element approximation on unstructured grids. Two general-purpose error estimators are developed to analyse ®nite element solutions and

An a posteriori error analysis for Boussinesq equations is derived in this article. Then we compare this new estimate with a previous one developed for a regularized version of Boussinesq equations in a previous work.