Many non-cooperative settings that could potentially be studied using game theory are characterized by having very large strategy spaces and payoffs that are costly to compute. Best response dynamics is a method of searching for pure-strategy equilibria in games that is attractive for its simplicity and scalability (relative to more analytical approaches). However, when the cost of determining the outcome of a particular set of joint strategies is high, it is impractical to compute the payoffs of all possible responses to the other players actions. Thus, we study metaheuristic approaches– genetic algorithms and tabu search in particular–to explore the strategy space. We configure the parameters of metaheuristics to adapt to the problem of finding the best response strategy and present how it can be helpful in finding Nash equilibria of combinatorial auctions which is an important solution concept in game theory. Categories and Subject Descriptors F.2 [Theory of Computation]: An...
Ashish Sureka, Peter R. Wurman