English

Compact Feature-Aware Hermite-Style High-Order Surface Reconstruction

Numerical Analysis 2024-12-20 v1 Numerical Analysis

Abstract

High-order surface reconstruction is an important technique for CAD-free, mesh-based geometric and physical modeling, and for high-order numerical methods for solving partial differential equations (PDEs) in engineering applications. In this paper, we introduce a novel method for accurate and robust reconstructions of piecewise smooth surfaces from a triangulated surface. Our proposed method extends the Continuous Moving Frames (CMF) and the Weighted Averaging of Local Fittings (WALF) methods (Engrg. Comput. 28 (2012)) in two main aspects. First, it utilizes a Hermite-style least squares approximation to achieve fourth and higher-order accuracy with compact support, even if the input mesh is relatively coarse. Second, it introduces an iterative feature-aware parameterization to ensure high-order accurate, G0 continuous reconstructions near sharp features. We present the theoretical framework of the method and compare it against CMF and WALF in terms of accuracy and stability. We also demonstrate that the use of the Hermite-style reconstruction in the solutions of PDEs using finite element methods (FEM), and show that quartic and sextic FEMs using the high-order reconstructed surfaces produce nearly identical results as using exact geometry while providing additional flexibility.

Keywords

Cite

@article{arxiv.1901.08036,
  title  = {Compact Feature-Aware Hermite-Style High-Order Surface Reconstruction},
  author = {Yipeng Li and Xinglin Zhao and Navamita Ray and Xiangmin Jiao},
  journal= {arXiv preprint arXiv:1901.08036},
  year   = {2024}
}

Comments

27 pages, 16 figures

R2 v1 2026-06-23T07:20:05.695Z