On the Lengths of Symmetry Breaking-Preserving Games on Graphs
Abstract
Given a graph G, we consider a game where two players, A and B, alternatingly color edges of G in red and in blue respectively. Let l(G) be the maximum number of moves in which B is able to keep the red and the blue subgraphs isomorphic, if A plays optimally to destroy the isomorphism. This value is a lower bound for the duration of any avoidance game on G under the assumption that B plays optimally. We prove that if G is a path or a cycle of odd length n, then ( n) l(G) O(2 n). The lower bound is based on relations with Ehrenfeucht games from model theory. We also consider complete graphs and prove that l(Kn)=O(1).
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