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Trajectory-Based RBF Collocation Method for Surface Advection-Diffusion Equations

Numerical Analysis 2026-01-27 v1 Numerical Analysis

Abstract

We introduce a Trajectory-Based RBF Collocation (TBRBF) method for solving surface advection-diffusion equations on smooth, compact manifolds. TBRBF decouples advection and diffusion by applying a characteristic treatment with a Kansa-type RBF collocation method for diffusion PDE, which yields an operator-split characteristic (OSC) system comprising a characteristic ODE and a diffusion PDE. We rigorously prove the equivalence between the OSC system and the original surface PDE on manifolds by embedding the latter into a narrow band domain. Using an intrinsic approach, we construct a time-continuous embedded PDE with push-forward operators in each chart of the atlas and establish its equivalence with the OSC system in the narrow band. Restricting the solution back to the manifold recovers the OSC system on manifolds, ensuring that the method introduces no operator splitting error. Extensive numerical experiments confirm the robust stability and accuracy of the proposed method.

Keywords

Cite

@article{arxiv.2601.18186,
  title  = {Trajectory-Based RBF Collocation Method for Surface Advection-Diffusion Equations},
  author = {Xiaobin Li and Leevan Ling and Yizhong Sun},
  journal= {arXiv preprint arXiv:2601.18186},
  year   = {2026}
}
R2 v1 2026-07-01T09:19:44.781Z