English

An Open Newton Method for Piecewise Smooth Functions

Optimization and Control 2018-08-02 v1 Numerical Analysis

Abstract

Recent research has shown that piecewise smooth (PS) functions can be approximated by piecewise linear functions with second order error in the distance to a given reference point. A semismooth Newton type algorithm based on successive application of these piecewise linearizations was subsequently developed for the solution of PS equation systems. For local bijectivity of the linearization at a root, a radius of quadratic convergence was explicitly calculated in terms of local Lipschitz constants of the underlying PS function. In the present work we relax the criterium of local bijectivity of the linearization to local openness. For this purpose a weak implicit function theorem is proved via local mapping degree theory. It is shown that there exist PS functions f:R2R2f:\mathbb R^2\rightarrow\mathbb R^2 satisfying the weaker criterium where every neighborhood of the root of ff contains a point xx such that all elements of the Clarke Jacobian at xx are singular. In such neighborhoods the steps of classical semismooth Newton are not defined, which establishes the new method as an independent algorithm. To further clarify the relation between a PS function and its piecewise linearization, several statements about structure correspondences between the two are proved. Moreover, the influence of the specific representation of the local piecewise linear models on the robustness of our method is studied. An example application from cardiovascular mathematics is given.

Keywords

Cite

@article{arxiv.1808.00213,
  title  = {An Open Newton Method for Piecewise Smooth Functions},
  author = {Manuel Radons and Lutz Lehmann and Tom Streubel and Andreas Griewank},
  journal= {arXiv preprint arXiv:1808.00213},
  year   = {2018}
}

Comments

23 Pages, 7 Figures

R2 v1 2026-06-23T03:21:18.268Z