Convergence of a multiscale finite element method for elliptic problems with rapidly oscillating coefficients
Open Access
- 3 March 1999
- journal article
- Published by American Mathematical Society (AMS) in Mathematics of Computation
- Vol. 68 (227), 913-943
- https://doi.org/10.1090/s0025-5718-99-01077-7
Abstract
We propose a multiscale finite element method for solving second order elliptic equations with rapidly oscillating coefficients. The main purpose is to design a numerical method which is capable of correctly capturing the large scale components of the solution on a coarse grid without accurately resolving all the small scale features in the solution. This is accomplished by incorporating the local microstructures of the differential operator into the finite element base functions. As a consequence, the base functions are adapted to the local properties of the differential operator. In this paper, we provide a detailed convergence analysis of our method under the assumption that the oscillating coefficient is of two scales and is periodic in the fast scale. While such a simplifying assumption is not required by our method, it allows us to use homogenization theory to obtain a useful asymptotic solution structure. The issue of boundary conditions for the base functions will be discussed. Our numerical experiments demonstrate convincingly that our multiscale method indeed converges to the correct solution, independently of the small scale in the homogenization limit. Application of our method to problems with continuous scales is also considered.This publication has 15 references indexed in Scilit:
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