Your search keyword '"weighted coloring"' showing total 2 results

1. Finding a five bicolouring of a triangle-free subgraph of the triangular lattice

Author

Havet, Frédéric and Žerovnik, Janez

Subjects

*ELECTRIC interference, *GRAPH theory

Abstract

A basic problem in the design of mobile telephone networks is to assign sets of radio frequency bands (colours) to transmitters (vertices) to avoid interference. Often the transmitters are laid out like vertices of a triangular lattice in the plane. We investigate the corresponding colouring problem of assigning sets of colours of size p(v) to each vertex of the triangular lattice so that the sets of colours assigned to adjacent vertices are disjoint. A n-[p]colouring of a graph G is a mapping c from V(G) into the set of the subsets of {1,2,…,n} such that |c(v)|=p(v) and for any adjacent vertices u and v, c(u)∩c(v)=∅. We give here an alternative proof of the fact that every triangular-free induced subgraph of the triangular lattice is 5-[2]colourable. This proof yields a constant time distributed algorithm that finds a 5-[2]colouring of such a graph. We then give a distributed algorithm that finds a [p]colouring of a triangle-free induced subgraph of the triangular lattice with at most 5ωp(G)/4+3 colours. [Copyright &y& Elsevier]

Published

2002

2. Finding a five bicolouring of a triangle-free subgraph of the triangular lattice

Author

Janez Zerovnik and Frédéric Havet

Subjects

Discrete mathematics, Distributed algorithm, Hexagonal cells, Induced subgraph, Astrophysics::Cosmology and Extragalactic Astrophysics, Disjoint sets, Triangular lattice, Graph, Mobile telephone, Theoretical Computer Science, Vertex (geometry), Combinatorics, Radio channel assignment, Weighted coloring, Discrete Mathematics and Combinatorics, Hexagonal lattice, Mathematics

Abstract

A basic problem in the design of mobile telephone networks is to assign sets of radio frequency bands (colours) to transmitters (vertices) to avoid interference. Often the transmitters are laid out like vertices of a triangular lattice in the plane. We investigate the corresponding colouring problem of assigning sets of colours of size p(v) to each vertex of the triangular lattice so that the sets of colours assigned to adjacent vertices are disjoint. A n-[p]colouring of a graph G is a mapping c from V(G) into the set of the subsets of {1,2,…,n} such that |c(v)|=p(v) and for any adjacent vertices u and v, c(u)∩c(v)=∅. We give here an alternative proof of the fact that every triangular-free induced subgraph of the triangular lattice is 5-[2]colourable. This proof yields a constant time distributed algorithm that finds a 5-[2]colouring of such a graph. We then give a distributed algorithm that finds a [p]colouring of a triangle-free induced subgraph of the triangular lattice with at most 5ωp(G)/4+3 colours.

Published

2002