English

Recursively-Regular Subdivisions and Applications

Computational Geometry 2017-11-20 v2 Discrete Mathematics Combinatorics

Abstract

We generalize regular subdivisions (polyhedral complexes resulting from the projection of the lower faces of a polyhedron) introducing the class of recursively-regular subdivisions. Informally speaking, a recursively-regular subdivision is a subdivision that can be obtained by splitting some faces of a regular subdivision by other regular subdivisions (and continue recursively). We also define the \emph{finest regular coarsening} and the \emph{regularity tree} of a polyhedral complex. We prove that recursively-regular subdivisions are not necessarily connected by flips and that they are acyclic with respect to the in-front relation. We show that the finest regular coarsening of a subdivision can be efficiently computed, and that whether a subdivision is recursively regular can be efficiently decided. As an application, we also extend a theorem known since 1981 on illuminating space by cones and present connections of recursive regularity to tensegrity theory and graph-embedding problems.

Keywords

Cite

@article{arxiv.1310.4372,
  title  = {Recursively-Regular Subdivisions and Applications},
  author = {Rafel Jaume and Günter Rote},
  journal= {arXiv preprint arXiv:1310.4372},
  year   = {2017}
}

Comments

39 pages, 14 figures

R2 v1 2026-06-22T01:48:09.358Z