Frontiers in Applied Mathematics and Statistics (Jul 2023)

Study of the stability of a meshless generalized finite difference scheme applied to the wave equation

  • Gerardo Tinoco-Guerrero,
  • Francisco Javier Domínguez-Mota,
  • José Alberto Guzmán-Torres,
  • Ricardo Román-Gutiérrez,
  • José Gerardo Tinoco-Ruiz

DOI
https://doi.org/10.3389/fams.2023.1214022
Journal volume & issue
Vol. 9

Abstract

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When designing and implementing numerical schemes, it is imperative to consider the stability of the applied methods. Prior research has presented different results for the stability of generalized finite-difference methods applied to advection and diffusion equations. In recent years, research has explored a generalized finite-difference approach to the advection-diffusion equation solved on non-rectangular and highly irregular regions using convex, logically rectangular grids. This paper presents a study on the stability of generalized finite difference schemes applied to the numerical solution of the wave equation, solved on clouds of points for highly irregular domains. The stability analysis presented in this work provides significant insights into the proper discretizations needed to obtain stable and satisfactory results. The proposed explicit scheme is conditionally stable, while the implicit scheme is unconditionally stable. Notably, the stability analyses presented in this paper apply to any scheme which is at least second order in space, not just the proposed approach. The proposed scheme offers effective means of numerically solving the wave equation, particularly for highly irregular domains. By demonstrating the stability of the scheme, this study provides a foundation for further research in this area.

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