The finitely repeated Prisoners’ Dilemma is a good illustration of the discrepancy between the strategic behaviour suggested by a game-theoretic analysis and the behaviour often observed among human players, where cooperation is maintained through most of the game. A game-theoretic reasoning based on backward induction eliminates strategies step by step until defection from the first round is the only remaining choice, reflecting the Nash equilibrium of the game. We investigate the Nash equilibrium solution for two different sets of strategies in an evolutionary context, using replicator-mutation dynamics. The first set consists of conditional cooperators, up to a certain round, while the second set in addition to these contains two strateg...
We study the properties of the well known Replicator Dynamics when applied to a finitely repeated ve...
Computer simulations have shown that mutation-selection processes frequently lead to the establishme...
We study the properties of the well known Replicator Dynamics when applied to a finitely repeated ve...
The finitely repeated Prisoners’ Dilemma is a good illustration of the discrepancy between the strat...
The finitely repeated Prisoners’ Dilemma is a good illustration of the discrepancy between...
The finitely repeated Prisoners' Dilemma is a good illustration of the discrepancy between the strat...
The problem of cooperation1−8 is that defection is evolutionarily stable. If everybody in a populati...
Computer simulations are regularly used for studying the evolution of strategies in repeated games. ...
The finitely Repeated Prisoners’ Dilemma (RPD) is a model of a social dilemma where cooperation is p...
Computer simulations are regularly used for studying the evolution of strategies in repeated games. ...
The observed cooperation on the level of genes, cells, tissues, and individuals has been the object ...
Repeated games tend to have large sets of equilibria. We also know that in the repeated prisoners di...
Evolutionary game dynamics in finite populations assumes that all mutations are equally likely, i.e....
<div><p>Evolutionary game dynamics in finite populations assumes that all mutations are equally like...
By applying a technique previously developed to study ecosystem assembly [Capitán et al., Phys. Rev....
We study the properties of the well known Replicator Dynamics when applied to a finitely repeated ve...
Computer simulations have shown that mutation-selection processes frequently lead to the establishme...
We study the properties of the well known Replicator Dynamics when applied to a finitely repeated ve...
The finitely repeated Prisoners’ Dilemma is a good illustration of the discrepancy between the strat...
The finitely repeated Prisoners&#8217; Dilemma is a good illustration of the discrepancy between...
The finitely repeated Prisoners' Dilemma is a good illustration of the discrepancy between the strat...
The problem of cooperation1−8 is that defection is evolutionarily stable. If everybody in a populati...
Computer simulations are regularly used for studying the evolution of strategies in repeated games. ...
The finitely Repeated Prisoners’ Dilemma (RPD) is a model of a social dilemma where cooperation is p...
Computer simulations are regularly used for studying the evolution of strategies in repeated games. ...
The observed cooperation on the level of genes, cells, tissues, and individuals has been the object ...
Repeated games tend to have large sets of equilibria. We also know that in the repeated prisoners di...
Evolutionary game dynamics in finite populations assumes that all mutations are equally likely, i.e....
<div><p>Evolutionary game dynamics in finite populations assumes that all mutations are equally like...
By applying a technique previously developed to study ecosystem assembly [Capitán et al., Phys. Rev....
We study the properties of the well known Replicator Dynamics when applied to a finitely repeated ve...
Computer simulations have shown that mutation-selection processes frequently lead to the establishme...
We study the properties of the well known Replicator Dynamics when applied to a finitely repeated ve...