Article ID: | iaor2013584 |
Volume: | 25 |
Issue: | 1 |
Start Page Number: | 19 |
End Page Number: | 46 |
Publication Date: | Jan 2013 |
Journal: | Journal of Combinatorial Optimization |
Authors: | Newman Ilan, Cardinal Jean, Fiorini Samuel, Joret Gwenal, Weimann Oren, Demaine Erik |
Keywords: | graphs, game theory |
The Stackelberg Minimum Spanning Tree Game is a two‐level combinatorial pricing problem played on a graph representing a network. Its edges are colored either red or blue, and the red edges have a given fixed cost, representing the competitor’s prices. The first player chooses an assignment of prices to the blue edges, and the second player then buys the cheapest spanning tree, using any combination of red and blue edges. The goal of the first player is to maximize the total price of purchased blue edges. We study this problem in the cases of planar and bounded‐treewidth graphs. We show that the problem is NP‐hard on planar graphs but can be solved in polynomial time on graphs of bounded treewidth.