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IPL
2000
2000
On the performance of the first-fit coloring algorithm on permutation graphs
In this paper we study the performance of a particular on-line coloring algorithm, the First-Fit or Greedy algorithm, on a class of perfect graphs namely the permutation graphs. We prove that the largest number of colors FF(G) that the First-Fit coloring algorithm (FF) needs on permutation graphs of chromatic number (G) = when taken over all possible vertex orderings is not linearly bounded in terms of the off-line optimum, if is a fixed positive integer. Specifically, we prove that for any integers > 0 and k 0, there exists a permutation graph G on n vertices such that (G) = and FF(G) 1 2 ((2 +)+k(2 -)), for sufficiently large n. Our result shows that the class of permutation graphs P is not First-Fit -bounded; that is, there exists no function f such that for all graphs G P, FF(G) f ((G)). Recall that for perfect graphs (G) = (G), where (G) denotes the clique number of G.
Real-time Traffic| Added | 18 Dec 2010 |
| Updated | 18 Dec 2010 |
| Type | Journal |
| Year | 2000 |
| Where | IPL |
| Authors | Stavros D. Nikolopoulos, Charis Papadopoulos |
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