A hybrid framework for coupling arbitrary summation-by-parts schemes on general meshes

DOI10.1016/j.jcp.2018.02.018zbMath1391.76560OpenAlexW2788355916MaRDI QIDQ1640861

Tomas Lundquist, Jan Nordström, Arnaud G. Malan

Publication date: 14 June 2018

Published in: Journal of Computational Physics (Search for Journal in Brave)

Full work available at URL: https://doi.org/10.1016/j.jcp.2018.02.018

zbMATH Keywords

stability finite volume finite difference hybrid meshes summation-by-parts numerical interfaces

Mathematics Subject Classification ID

Lua error in Module:PublicationMSCList at line 37: attempt to index local 'msc_result' (a nil value).

Related Items (18)

Elastic wave propagation in anisotropic solids using energy-stable finite differences with weakly enforced boundary and interface conditions ⋮ An efficient hybrid method for uncertainty quantification ⋮ Energy stable and accurate coupling of finite element methods and finite difference methods ⋮ A High Order Finite Difference Method for the Elastic Wave Equation in Bounded Domains with Nonconforming Interfaces ⋮ A multi-domain summation-by-parts formulation for complex geometries ⋮ A Finite Difference–Discontinuous Galerkin Method for the Wave Equation in Second Order Form ⋮ A Method-of-Lines Framework for Energy Stable Arbitrary Lagrangian–Eulerian Methods ⋮ Multi-dimensional summation-by-parts operators for general function spaces: theory and construction ⋮ Non-conforming interface conditions for the second-order wave equation ⋮ Nonlinear boundary conditions for initial boundary value problems with applications in computational fluid dynamics ⋮ Encapsulated generalized summation-by-parts formulations for curvilinear and non-conforming meshes ⋮ Order-Preserving Interpolation for Summation-by-Parts Operators at Nonconforming Grid Interfaces ⋮ Encapsulated high order difference operators on curvilinear non-conforming grids ⋮ Efficient and error minimized coupling procedures for unstructured and moving meshes ⋮ Stable dynamical adaptive mesh refinement ⋮ Combining finite element and finite difference methods for isotropic elastic wave simulations in an energy-conserving manner ⋮ Elastic Wave Propagation in Curvilinear Coordinates with Mesh Refinement Interfaces by a Fourth Order Finite Difference Method ⋮ Energy conservative SBP discretizations of the acoustic wave equation in covariant form on staggered curvilinear grids

Cites Work

This page was built for publication: A hybrid framework for coupling arbitrary summation-by-parts schemes on general meshes