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ISAAC
2005
Springer

Minimum Entropy Coloring

14 years 5 months ago
Minimum Entropy Coloring
Abstract We study an information-theoretic variant of the graph coloring problem in which the objective function to minimize is the entropy of the coloring. The minimum entropy of a coloring is called the chromatic entropy and was shown by Alon and Orlitsky (1996) to play a fundamental role in the problem of coding with side information. In this paper, we consider the minimum entropy coloring problem from a computational point of view. We first prove that this problem is NP-hard on interval graphs. We then show that, for every constant ε > 0, it is NP-hard to find a coloring whose entropy is within (1− ε)logn of the chromatic entropy, where n is the number of vertices of the graph. A simple polynomial case is also identified. It is known that graph entropy is a lower bound for the chromatic entropy. We prove that this bound can be arbitrarily bad, even for chordal graphs. Finally, we consider the minimum number of colors required to achieve minimum entropy and prove a Brooks-...
Jean Cardinal, Samuel Fiorini, Gwenaël Joret
Added 27 Jun 2010
Updated 27 Jun 2010
Type Conference
Year 2005
Where ISAAC
Authors Jean Cardinal, Samuel Fiorini, Gwenaël Joret
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