English

$C^0$-hybrid high-order methods for biharmonic problems

Numerical Analysis 2023-02-14 v3 Numerical Analysis

Abstract

We devise and analyze C0C^0-conforming hybrid high-order (HHO) methods to approximate biharmonic problems with either clamped or simply supported boundary conditions. C0C^0-conforming HHO methods hinge on cell unknowns which are C0C^0-conforming polynomials of order (k+2)(k+2) approximating the solution in the mesh cells and on face unknowns which are polynomials of order k0k\ge0 approximating the normal derivative of the solution on the mesh skeleton. Such methods deliver O(hk+1)O(h^{k+1}) H2H^2-error estimates for smooth solutions. An important novelty in the error analysis is to lower the minimal regularity requirement on the exact solution. The technique to achieve this has broader applicability than just C0C^0-conforming HHO methods, and to illustrate this point, we outline the error analysis for the well-known C0C^0-conforming interior penalty discontinuous Galerkin (IPDG) methods as well. The present technique does not require bubble functions or a C1C^1-smoother to evaluate the right-hand side in case of rough loads. Finally, numerical results including comparisons to various existing methods showcase the efficiency of the proposed C0C^0-conforming HHO methods.

Keywords

Cite

@article{arxiv.2206.07074,
  title  = {$C^0$-hybrid high-order methods for biharmonic problems},
  author = {Zhaonan Dong and Alexandre Ern},
  journal= {arXiv preprint arXiv:2206.07074},
  year   = {2023}
}
R2 v1 2026-06-24T11:51:14.498Z