International audienceWe consider a model of evolution in games in which a revising agent observes the actions of a random number of randomly sampled opponents and then chooses a best response to the distribution of actions in the sample. We provide a condition on the distribution of sample sizes under which an iterated p-dominant equilibrium is almost globally asymptotically stable under these dynamics. We show under an additional condition on the sample size distribution that in supermodular games, an almost globally asymptotically stable state must be an iterated p-dominant equilibrium. Since our selection results are for deterministic dynamics, any selected equilibrium is reached quickly; the long waiting times associated with equilibri...
We consider a simple model of stochastic evolution in population games. In our model, each agent occ...
Evolutionary game dynamics describes the spreading of successful strategies in a population of repro...
This paper models the indirect evolution of the preferences of a population of fully rational agents...
International audienceWe consider a model of evolution in games in which a revising agent observes t...
We consider a model of evolution in games in which a revising agent observes the actions of a random...
We consider a model of evolution in games in which a revising agent observes the actions of a random...
We consider a model of evolution in games in which a revising agent observes the actions of a random...
Abstract. Stochastic selection models provide sharp predictions about equilibrium selection when the...
Population games describe strategic interactions among large numbers of small, anonymous agents. Beh...
This paper analyzes an indirect evolutionary model of sampling biases in probability estimates, whic...
A population of agents recurrently plays a two-strategy population game. When an agent receives a re...
[This item is a preserved copy. To view the original, visit http://econtheory.org/] A popu...
Abstract. We present a general model of stochastic evolution in games played by large populations of...
In this article we review a model of stochastic evolution under general noisy best-response protocol...
We analyze stochastic adaptation in finite n-player games played by heterogeneous populations contai...
We consider a simple model of stochastic evolution in population games. In our model, each agent occ...
Evolutionary game dynamics describes the spreading of successful strategies in a population of repro...
This paper models the indirect evolution of the preferences of a population of fully rational agents...
International audienceWe consider a model of evolution in games in which a revising agent observes t...
We consider a model of evolution in games in which a revising agent observes the actions of a random...
We consider a model of evolution in games in which a revising agent observes the actions of a random...
We consider a model of evolution in games in which a revising agent observes the actions of a random...
Abstract. Stochastic selection models provide sharp predictions about equilibrium selection when the...
Population games describe strategic interactions among large numbers of small, anonymous agents. Beh...
This paper analyzes an indirect evolutionary model of sampling biases in probability estimates, whic...
A population of agents recurrently plays a two-strategy population game. When an agent receives a re...
[This item is a preserved copy. To view the original, visit http://econtheory.org/] A popu...
Abstract. We present a general model of stochastic evolution in games played by large populations of...
In this article we review a model of stochastic evolution under general noisy best-response protocol...
We analyze stochastic adaptation in finite n-player games played by heterogeneous populations contai...
We consider a simple model of stochastic evolution in population games. In our model, each agent occ...
Evolutionary game dynamics describes the spreading of successful strategies in a population of repro...
This paper models the indirect evolution of the preferences of a population of fully rational agents...