A preconditioner for the(h)-(p)version of the finite element method in two dimensions

We propose and analyze efficient preconditioners for solving systems of equations arising from the p-version for the finite element/boundary element coupling. The first preconditioner amounts to a block Jacobi method, whereas the second one is partly given by diagonal scaling. We use the generalized

## Abstract The paper is the second in the series addressing the __h‐p__ version of the finite element method for parabolic equations. The present paper addresses the case when in both variables, the spatial and time, the __h‐p__ version is used. Error estimation is given and numerical computations

The paper is the first in the series addressing the h-p version of the finite element method for parabolic equations. The h-p version is applied to both time and space variables. The present paper addresses the case when in time the p-version with one single time element is used. Error estimation is

We consider the h-p finite element method for elliptic problems in one dimension. The strategy for choosing an h-or p-enrichment for an element which is subject to a refinement in an adaptive method is not well understood; in particular, this is the most important open problem associated with h-p-re