Coupled model and grid adaptivity in hierarchical reduction of elliptic problems
Code:
21/2013
Title:
Coupled model and grid adaptivity in hierarchical reduction of elliptic problems
Date:
Thursday 2nd May 2013
Author(s):
Perotto, S.; Veneziani, A.
Abstract:
In this paper we propose a surrogate model for advection-diffusion-reaction problems characterized by a dominant direction in their dynamics. We resort to a hierarchical-model reduction where we couple a modal representation of the transverse dynamics with a finite element approximation along the mainstream. This different treatment of the dynamics entails a surrogate model enhancing a purely 1D description related to the leading direction. The coefficients of the finite element expansion along this direction introduce a generally non-constant description of the transversal dynamics. Aim of this paper is to provide an automatic adaptive approach to locally determine the dimension of the modal expansion as well as the finite element step in order to satisfy a prescribed tolerance on a goal functional of interest.
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J. Sci. Comput.
J. Sci. Comput.