Cover contact graphs

Authors

  • Nieves Atienza Universidad de Sevilla
  • Natalia de Castro Universidad de Sevilla
  • Carmen Cortés Universidad de Sevilla
  • M. Ángeles Garrido Universidad de Sevilla
  • Clara I. Grima Universidad de Sevilla
  • Gregorio Hernández Universidad Politécnica de Madrid
  • Alberto Márquez Universidad de Sevilla
  • Auxiliadora Moreno-González Universidad de Sevilla
  • Martin Nöllenburg Karlsruhe Institute of Technology
  • José Ramon Portillo Universidad de Sevilla
  • Pedro Reyes Universidad de Sevilla
  • Jesús Valenzuela Universidad de Sevilla
  • Maria Trinidad Villar Universidad de Sevilla
  • Alexander Wolff Universität Würzburg

DOI:

https://doi.org/10.20382/jocg.v3i1a6

Abstract

We study problems that arise in the context of covering certain geometric objects called seeds (e.g., points or disks) by a set of other geometric objects called cover (e.g., a set of disks or homothetic triangles). We insist that the interiors of the seeds and the cover elements are pairwise disjoint, respectively, but they can touch. We call the contact graph of a cover a cover contact graph (CCG).

We are interested in three types of tasks, both in the general case and in the special case of seeds on a line: (a) deciding whether a given seed set has a connected CCG, (b) deciding whether a given graph has a realization as a CCG on a given seed set, and (c) bounding the sizes of certain classes of CCG's.

Concerning (a) we give efficient algorithms for the case that seeds are points and show that the problem becomes hard if seeds and covers are disks. Concerning (b) we show that this problem is hard even for point seeds and disk covers (given a fixed correspondence between graph vertices and seeds). Concerning (c) we obtain upper and lower bounds on the number of CCG's for point seeds.

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Published

2012-06-26

Issue

Vol. 3 No. 1 (2012)

Section

Articles

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