Clique clustering yields a PTAS for max-coloring interval graphs

Abstract

We are given an interval graph G = (V,E) where each interval I ε V has a weight w I ε ℝ+ . The goal is to color the intervals V with an arbitrary number of color classes C 1, C 2, ...., C k such that is minimized. This problem, called max-coloring interval graphs, contains the classical problem of coloring interval graphs as a special case for uniform weights, and it arises in many practical scenarios such as memory management. Pemmaraju, Raman, and Varadarajan showed that max-coloring interval graphs is NP-hard (SODA'04) and presented a 2-approximation algorithm. Closing a gap which has been open for years, we settle the approximation complexity of this problem by giving a polynomial-time approximation scheme (PTAS), that is, we show that there is an (1 + ε) -approximation algorithm for any ε > 0 . Besides using standard preprocessing techniques such as geometric rounding and shifting, our main building block is a general technique for trading the overlap structure of an interval graph for accuracy, which we call clique clustering. © 2011 Springer-Verlag.