Journal
SIAM JOURNAL ON NUMERICAL ANALYSIS
Volume 45, Issue 2, Pages 539-557Publisher
SIAM PUBLICATIONS
DOI: 10.1137/050645646
Keywords
multiscale; advection-diffusion
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We derive an explicit formula for the fine-scale Green's function arising in variational multiscale analysis. The formula is expressed in terms of the classical Green's function and a projector which defines the decomposition of the solution into coarse and. ne scales. The theory is presented in an abstract operator format and subsequently specialized for the advection-diffusion equation. It is shown that different projectors lead to fine-scale Green's functions with very different properties. For example, in the advection-dominated case, the projector induced by the H-0(1)-seminorm produces a fine-scale Green's function which is highly attenuated and localized. These are very desirable properties in a multiscale method and ones that are not shared by the L-2-projector. By design, the coarse-scale solution attains optimality in the norm associated with the projector. This property, combined with a localized fine-scale Green's function, indicates the possibility of effective methods with local character for dominantly hyperbolic problems. The constructs lead to a new class of stabilized methods, and the relationship between H-0(1)-optimality and the streamline-upwind Petrov-Galerkin (SUPG) method is described.
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