English

Cover-Decomposition and Polychromatic Numbers

Combinatorics 2012-05-31 v3 Discrete Mathematics

Abstract

A colouring of a hypergraph's vertices is polychromatic if every hyperedge contains at least one vertex of each colour; the polychromatic number is the maximum number of colours in such a colouring. Its dual, the cover-decomposition number, is the maximum number of disjoint hyperedge-covers. In geometric hypergraphs, there is extensive work on lower-bounding these numbers in terms of their trivial upper bounds (minimum hyperedge size and degree); our goal here is to broaden the study beyond geometric settings. We obtain algorithms yielding near-tight bounds for three families of hypergraphs: bounded hyperedge size, paths in trees, and bounded VC-dimension. This reveals that discrepancy theory and iterated linear program relaxation are useful for cover-decomposition. Finally, we discuss the generalization of cover-decomposition to sensor cover.

Keywords

Cite

@article{arxiv.1009.6144,
  title  = {Cover-Decomposition and Polychromatic Numbers},
  author = {Béla Bollobás and David Pritchard and Thomas Rothvoß and Alex Scott},
  journal= {arXiv preprint arXiv:1009.6144},
  year   = {2012}
}

Comments

Supercedes arXiv:1009.5893

R2 v1 2026-06-21T16:21:39.165Z