The hawk–dove game admits two types of equilibria: an asymmetric pure equilibrium in which players in one population play “hawk” and players in the other population play “dove,” and a symmetric mixed equilibrium. The existing literature on dynamic evolutionary models shows that populations will converge to playing one of the asymmetric pure equilibria from any initial state. By contrast, we show that plausible sampling dynamics, in which agents occasionally revise their actions by observing either opponents’ behavior or payoffs in a few past interactions, can induce the opposite result: global convergence to a symmetric mixed equilibrium
We analyse the stability properties of mixed equilibria in 2×2 asymmetric games under evolutionary d...
International audienceWe revisit in this paper the well-studied Hawk and Dove game within a dynamic ...
In this paper we study one of the most well known examples of evolutionary games, the Hawk and Dove ...
The hawk–dove game admits two types of equilibria: an asymmetric pure equilibrium in which players i...
The hawk-dove game admits two types of equilibria: an asymmetric pure equilibrium in which players i...
Human players in our laboratory experiment converge closely to the symmetric mixed Nash equilibrium...
At present, in the domain of simultaneous action selection and network formation games, game-theoret...
Human players in our laboratory experiment received flow payoffs over 120 seconds each period from a...
We study the evolution of a finite population playing a Hawk-Dove game with mixed strategies. Player...
The goal of this paper is to construct a Monte Carlo simulation in order to systematically analyze h...
Game theoretic models of evolution such as the Hawk–Dove game assume that individuals gain fitness (...
Explaining the evolution of cooperation remains one of the important problems in both biology and so...
By means of simulations I investigate a two-speed dynamic on strategies and preferences in the priso...
In the animal world, the competition between individuals belonging to different species for a resour...
The classic Hawk-Dove game is a symmetric game in that it does not distinguish between the winners a...
We analyse the stability properties of mixed equilibria in 2×2 asymmetric games under evolutionary d...
International audienceWe revisit in this paper the well-studied Hawk and Dove game within a dynamic ...
In this paper we study one of the most well known examples of evolutionary games, the Hawk and Dove ...
The hawk–dove game admits two types of equilibria: an asymmetric pure equilibrium in which players i...
The hawk-dove game admits two types of equilibria: an asymmetric pure equilibrium in which players i...
Human players in our laboratory experiment converge closely to the symmetric mixed Nash equilibrium...
At present, in the domain of simultaneous action selection and network formation games, game-theoret...
Human players in our laboratory experiment received flow payoffs over 120 seconds each period from a...
We study the evolution of a finite population playing a Hawk-Dove game with mixed strategies. Player...
The goal of this paper is to construct a Monte Carlo simulation in order to systematically analyze h...
Game theoretic models of evolution such as the Hawk–Dove game assume that individuals gain fitness (...
Explaining the evolution of cooperation remains one of the important problems in both biology and so...
By means of simulations I investigate a two-speed dynamic on strategies and preferences in the priso...
In the animal world, the competition between individuals belonging to different species for a resour...
The classic Hawk-Dove game is a symmetric game in that it does not distinguish between the winners a...
We analyse the stability properties of mixed equilibria in 2×2 asymmetric games under evolutionary d...
International audienceWe revisit in this paper the well-studied Hawk and Dove game within a dynamic ...
In this paper we study one of the most well known examples of evolutionary games, the Hawk and Dove ...