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Preprint 2019-48

Gabriel R. Barrenechea, Fabrice Jaillet, Diego Paredes, Frederic Valentin:

The multiscale hybrid mixed method in general polygonal meshes

Abstract:

This work extends the general form of the Multiscale Hybrid-Mixed (MHM) method for the second-order Laplace (Darcy) equation to general non-conforming polygonal meshes. The main properties of the MHM method, i.e., stability, optimal convergence, and local conservation, are proven independently of the geometry of the elements used for the first level mesh. More precisely, it is proven that piecewise polynomials of degree k and k + 1, k ≥ 0, for the Lagrange multipliers (flux), along with continuous piecewise polynomial interpolations of degree k + 1 posed on second-level sub-meshes are stable if the latter is fine enough with respect to the mesh for the Lagrange multiplier. We provide an explicit sufficient condition for this restriction. Also, we prove that the error converges with order k + 1 and k + 2 in the broken H1 and L2 norms, respectively, under usual regularity assumptions, and that such estimates also hold for non-convex; or even non-simply connected elements. Numerical results confirm the theoretical findings and illustrate the gain that the use of multiscale functions provides.

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This preprint gave rise to the following definitive publication(s):

Gabriel R. BARRENECHEA, Fabrice JAILLET, Diego PAREDES, Frederic VALENTIN: The multiscale hybrid mixed method in general polygonal meshes. Numerische Mathematik, vol. 145, 1, pp. 197-237, (2020).

 

 

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