English

A multilayer level-set method for eikonal-based traveltime tomography

Numerical Analysis 2026-04-23 v2 Numerical Analysis

Abstract

We present a novel multilayer level-set method (MLSM) for eikonal-based first-arrival traveltime tomography. Unlike classical level-set approaches that rely solely on the zero-level set, the MLSM represents multiple phases through a sequence of ini_n-level sets (n=0,1,2,n = 0, 1, 2, \cdots). Near each ini_n-level set, the function is designed to behave like a local signed-distance function, enabling a single level-set formulation to capture arbitrarily many interfaces and subregions. Within this Eulerian framework, first-arrival traveltimes are computed as viscosity solutions of the eikonal equation, and Fr\'{e}chet derivatives of the misfit are obtained via the adjoint state method. To stabilize the inversion, we incorporate several regularization strategies, including multilayer reinitialization, arc-length penalization, and Sobolev smoothing of model parameters. In addition, we introduce an illumination-based error measure to assess reconstruction quality. Numerical experiments demonstrate that the proposed MLSM efficiently recovers complex discontinuous slowness models with multiple phases and interfaces.

Cite

@article{arxiv.2510.16413,
  title  = {A multilayer level-set method for eikonal-based traveltime tomography},
  author = {Wenbin Li and Ken K. T. Hung and Shingyu Leung},
  journal= {arXiv preprint arXiv:2510.16413},
  year   = {2026}
}
R2 v1 2026-07-01T06:44:48.978Z