Pure Nash Equilibria and Best-Response Dynamics in Random Games
成果类型:
Article
署名作者:
Amiet, Ben; Collevecchio, Andrea; Scarsini, Marco; Zhong, Ziwen
署名单位:
Monash University; Luiss Guido Carli University
刊物名称:
MATHEMATICS OF OPERATIONS RESEARCH
ISSN/ISSBN:
0364-765X
DOI:
10.1287/moor.2020.1102
发表日期:
2021
页码:
1552-1572
关键词:
NUMBER
probability
complexity
摘要:
In finite games, mixed Nash equilibria always exist, but pure equilibria may fail to exist. To assess the relevance of this nonexistence, we consider games where the payoffs are drawn at random. In particular, we focus on games where a large number of players can each choose one of two possible strategies and the payoffs are independent and identically distributed with the possibility of ties. We provide asymptotic results about the random number of pure Nash equilibria, such as fast growth and a central limit theorem, with bounds for the approximation error. Moreover, by using a new link between percolation models and game theory, we describe in detail the geometry of pure Nash equilibria and show that, when the probability of ties is small, a best-response dynamics reaches a pure Nash equilibrium with a probability that quickly approaches one as the number of players grows. We show that various phase transitions depend only on a single parameter of the model, that is, the probability of having ties.
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