Simple Games versus Weighted Voting Games

Abstract

A simple game (N,v) is given by a set N of n players and a partition of 2N into a set L of losing coalitions L with value v(L)=0 that is closed under taking subsets and a set W of winning coalitions W with v(W)=1. Simple games with α= p≥ 0W∈ W,L∈ L p(L)p(W)<1 are known as weighted voting games. Freixas and Kurz (IJGT, 2014) conjectured that α≤ 14n for every simple game (N,v). We confirm this conjecture for two complementary cases, namely when all minimal winning coalitions have size 3 and when no minimal winning coalition has size 3. As a general bound we prove that α≤ 27n for every simple game (N,v). For complete simple games, Freixas and Kurz conjectured that α=O(n). We prove this conjecture up to a n factor. We also prove that for graphic simple games, that is, simple games in which every minimal winning coalition has size 2, computing α is -hard, but polynomial-time solvable if the underlying graph is bipartite. Moreover, we show that for every graphic simple game, deciding if α<a is polynomial-time solvable for every fixed a>0.