Isogeometric multi-patch C-mortar coupling for the biharmonic equation

Andrea Benvenuti; Gabriele Loli; Giancarlo Sangalli; Thomas Takacs

Isogeometric multi-patch C-mortar coupling for the biharmonic equation

Andrea Benvenuti, Gabriele Loli, Giancarlo Sangalli, Thomas Takacs

Published: 01 Jan 2023, Last Modified: 04 May 2025CoRR 2023EveryoneRevisionsBibTeXCC BY-SA 4.0

Abstract: We propose an isogeometric mortar method for solving fourth-order elliptic problems. Specifically, our approach focuses on discretizing the biharmonic equation on $C^0$-conforming multi-patch domains, employing the mortar technique to weakly enforce $C^1$-continuity across interfaces. To guarantee discrete inf-sup stability, we introduce a carefully designed Lagrange multiplier space. In this formulation, the multipliers are splines with a degree reduced by two relative to the primal space and feature enhanced smoothness (or merged elements for splines with maximum smoothness) near the vertices. Within this framework, we establish optimal a priori error estimates and validate the theoretical results through numerical tests.

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