English

A Meshless Galerkin Method For Non-Local Diffusion Using Localized Kernel Bases

Numerical Analysis 2016-01-13 v1

Abstract

We introduce a meshless method for solving both continuous and discrete variational formulations of a volume constrained, nonlocal diffusion problem. We use the discrete solution to approximate the continuous solution. Our method is nonconforming and uses a localized Lagrange basis that is constructed out of radial basis functions. By verifying that certain inf-sup conditions hold, we demonstrate that both the continuous and discrete problems are well-posed, and also present numerical and theoretical results for the convergence behavior of the method. The stiffness matrix is assembled by a special quadrature routine unique to the localized basis. Combining the quadrature method with the localized basis produces a well-conditioned, symmetric matrix. This then is used to find the discretized solution.

Keywords

Cite

@article{arxiv.1601.02717,
  title  = {A Meshless Galerkin Method For Non-Local Diffusion Using Localized Kernel Bases},
  author = {Richard B. Lehoucq and Francis J. Narcowich and Stephen T. Rowe and Joseph D. Ward},
  journal= {arXiv preprint arXiv:1601.02717},
  year   = {2016}
}

Comments

23 pages, 2, figures, submitted to Math Comp

R2 v1 2026-06-22T12:27:27.979Z