English

Area-Preserving Geometric Hermite Interpolation

Numerical Analysis 2019-03-21 v2

Abstract

In this paper we establish a framework for planar geometric interpolation with exact area preservation using cubic B\'ezier polynomials. We show there exists a family of such curves which are 5th5^{th} order accurate, one order higher than standard geometric cubic Hermite interpolation. We prove this result is valid when the curvature at the endpoints does not vanish, and in the case of vanishing curvature, the interpolation is 4th4^{th} order accurate. The method is computationally efficient and prescribes the parametrization speed at endpoints through an explicit formula based on the given data. Additional accuracy (i.e. same order but lower error constant) may be obtained through an iterative process to find optimal parametrization speeds which further reduces the error while still preserving the prescribed area exactly.

Keywords

Cite

@article{arxiv.1810.01285,
  title  = {Area-Preserving Geometric Hermite Interpolation},
  author = {Geoffrey McGregor and Jean-Christophe Nave},
  journal= {arXiv preprint arXiv:1810.01285},
  year   = {2019}
}
R2 v1 2026-06-23T04:25:58.799Z