## Abstract

In this paper, we study coloring problems related to frequency assignment problems in cellular networks. In abstract setting, the problems are of the following two types: CF-coloring of regions: Given a finite family S of n regions of some fixed type (such as discs, pseudo-discs, axis-parallel rectangles, etc.), what is the minimum integer k, such that one can assign a color to each region of S, using a total of at most k colors, such that the resulting coloring has the following property: For each point p ∈ ∪_{b∈S}b there is at least one region b ∈ S that contains p in its interior, whose color is unique among all regions in S that contain p in their interior (in this case we say that p is being 'served' by that color). We refer to such a coloring as a conflict-free coloring of S (CF-coloring in short). CF-coloring of a range space: Given a set P of n points in ℝ^{d} and a set R of ranges (for example, the set of all discs in the plane), what is the minimum integer k, such that one can color the points of P by k colors, so that for any r ∈ R, with P ∩ r ≠ θ, there is at least one point q ∈ P ∩ r that is assigned a unique color among all colors assigned to points of P ∩ r (in this case we say that r is 'served' by that color). We refer to such a coloring as a conflict-free coloring of (P, R) (CF-coloring in short).

Original language | English |
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Pages | 114-123 |

Number of pages | 10 |

DOIs | |

State | Published - 1 Jan 2003 |

Externally published | Yes |

Event | Nineteenth Annual Symposium on Computational Geometry - san Diego, CA, United States Duration: 8 Jun 2003 → 10 Jun 2003 |

### Conference

Conference | Nineteenth Annual Symposium on Computational Geometry |
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Country/Territory | United States |

City | san Diego, CA |

Period | 8/06/03 → 10/06/03 |

## Keywords

- Cellular Network
- Coloring
- Frequency Assignment

## ASJC Scopus subject areas

- Theoretical Computer Science
- Geometry and Topology
- Computational Mathematics