Add to ORKGWe present a purification result for incomplete information games with a large finite number of players that allows for compact metric spaces of actions and types. This result is then used to generalize the purification theorems of Schmeidler (1973), Rashid (1983) and Kalai (2004). Our proofs are elementary and rely on the Shapley-Folkman theorem.N/
We consider an asymptotic version of Mas-Colell’s theorem on the existence of pure strategy Nash equ...
Abstract: In this paper we present a comprehensive analysis of large non-anonymous games in which th...
Abstract. We prove existence and purification results for equilibria in which players choose extreme...
We present a purification result for incomplete information games with a large finite number of play...
We present a purification result for incomplete information games with a large finite number of play...
We demonstrate that, if there are sufficiently many players, any Bayesian equilibrium of an incomple...
Purification results are important in game theory and statistical decision theory. The purpose of th...
We present results on the relationship between non-atomic games (in dis-tributional form) and approx...
We consider Nash equilibria of large anonymous games (i.e., each player’s payoff depends on his choi...
Studying games in the complete information model makes them analytically tractable. How-ever, large ...
In this paper, we divide the players of a large game into countable different groups and assume that...
We consider a game with a continuum of players where at most a finite number of them are atomic. Obj...
Over the years, several formalizations and existence results for games with a continuum of players h...
We consider Nash equilibria of large anonymous games (i.e., each player’s payoff depends on his cho...
In the context of anonymous games (i.e., games where the payoff of a player is, apart from his/her o...
We consider an asymptotic version of Mas-Colell’s theorem on the existence of pure strategy Nash equ...
Abstract: In this paper we present a comprehensive analysis of large non-anonymous games in which th...
Abstract. We prove existence and purification results for equilibria in which players choose extreme...
We present a purification result for incomplete information games with a large finite number of play...
We present a purification result for incomplete information games with a large finite number of play...
We demonstrate that, if there are sufficiently many players, any Bayesian equilibrium of an incomple...
Purification results are important in game theory and statistical decision theory. The purpose of th...
We present results on the relationship between non-atomic games (in dis-tributional form) and approx...
We consider Nash equilibria of large anonymous games (i.e., each player’s payoff depends on his choi...
Studying games in the complete information model makes them analytically tractable. How-ever, large ...
In this paper, we divide the players of a large game into countable different groups and assume that...
We consider a game with a continuum of players where at most a finite number of them are atomic. Obj...
Over the years, several formalizations and existence results for games with a continuum of players h...
We consider Nash equilibria of large anonymous games (i.e., each player’s payoff depends on his cho...
In the context of anonymous games (i.e., games where the payoff of a player is, apart from his/her o...
We consider an asymptotic version of Mas-Colell’s theorem on the existence of pure strategy Nash equ...
Abstract: In this paper we present a comprehensive analysis of large non-anonymous games in which th...
Abstract. We prove existence and purification results for equilibria in which players choose extreme...