Title :
Improved Heuristics for the Minimum Label Spanning Tree Problem
Author :
Yupei Xiong ; Golden, Bruce ; Wasil, Edward
Author_Institution :
Goldman, Sachs & Co, New York, NY
Abstract :
Given a connected, undirected graph G whose edges are labeled, the minimum label (or labeling) spanning tree (MLST) problem seeks a spanning tree on G with the minimum number of distinct labels. Maximum vertex covering algorithm (MVCA) is a well-known heuristic for the MLST problem. It is very fast and performs reasonably well. Recently, we developed a genetic algorithm (GA) for the MLST problem. The GA and MVCA are similarly fast but the GA outperforms the MVCA. In this paper, we present four modified versions of MVCA, as well as a modified GA. These modified procedures generate better results, but are more expensive computationally. The modified GA is the best performer with respect to both accuracy and running time
Keywords :
genetic algorithms; trees (mathematics); genetic algorithm; maximum vertex covering algorithm; minimum label spanning tree problem; undirected graph; Frequency; Genetic algorithms; Greedy algorithms; Labeling; Simulated annealing; Tree graphs; Genetic algorithm (GA); NP-hard; spanning tree;
Journal_Title :
Evolutionary Computation, IEEE Transactions on
DOI :
10.1109/TEVC.2006.877147
