In social dilemmas, cooperation among randomly interacting individuals is often difficult to achieve. The situation changes if interactions take place in a network where the network structure jointly evolves with the behavioral strategies of the interacting individuals. In particular, cooperation can be stabilized if individuals tend to cut interaction links when facing adverse neighborhoods. Here we consider two different types of reaction to adverse neighborhoods, and all possible mixtures between these reactions. When faced with a gloomy outlook, players can either choose to cut and rewire some of their links to other individuals, or they can migrate to another location and establish new links in the new local neighborhood. We find that ...
Previous studies of games on dynamic graphs have almost specified pairwise interactions using the pr...
Axelrod (The evolution of cooperation, 1984) and others explain how cooperation can emerge in repeat...
Whether by nature or nurture, humans often respond differently when facing the same situation. Yet, ...
In social dilemmas, cooperation among randomly interacting individuals is often difficult to achieve...
In social dilemmas, cooperation among randomly interacting individuals is often difficult to achieve...
In social dilemmas, cooperation among randomly interacting individuals is often difficult to achieve...
an ine lleg ed ne 1Communicated by C.R. Doering We investigate two paradigms for studying the evolut...
We investigate two paradigms for studying the evolution of cooperation-Prisoner's Dilemma and S...
We show that strategy-independent adaptations of random interaction networks can induce powerful me...
This article examines optimal social linkage when each individual's repeated interaction with each o...
Influence, as an inherently special attribute, is bound to profoundly affect a player’s behavior. Me...
Previous studies of games on dynamic graphs have almost specified pairwise interactions using the pr...
In social dilemmas, cooperation among randomly interacting individuals is often hard to achieve. The...
Consider a cooperation game on a spatial network of habitat patches, where players can relocate betw...
In real situations, individuals often have moderate tolerance toward ambient cooperative environment...
Previous studies of games on dynamic graphs have almost specified pairwise interactions using the pr...
Axelrod (The evolution of cooperation, 1984) and others explain how cooperation can emerge in repeat...
Whether by nature or nurture, humans often respond differently when facing the same situation. Yet, ...
In social dilemmas, cooperation among randomly interacting individuals is often difficult to achieve...
In social dilemmas, cooperation among randomly interacting individuals is often difficult to achieve...
In social dilemmas, cooperation among randomly interacting individuals is often difficult to achieve...
an ine lleg ed ne 1Communicated by C.R. Doering We investigate two paradigms for studying the evolut...
We investigate two paradigms for studying the evolution of cooperation-Prisoner's Dilemma and S...
We show that strategy-independent adaptations of random interaction networks can induce powerful me...
This article examines optimal social linkage when each individual's repeated interaction with each o...
Influence, as an inherently special attribute, is bound to profoundly affect a player’s behavior. Me...
Previous studies of games on dynamic graphs have almost specified pairwise interactions using the pr...
In social dilemmas, cooperation among randomly interacting individuals is often hard to achieve. The...
Consider a cooperation game on a spatial network of habitat patches, where players can relocate betw...
In real situations, individuals often have moderate tolerance toward ambient cooperative environment...
Previous studies of games on dynamic graphs have almost specified pairwise interactions using the pr...
Axelrod (The evolution of cooperation, 1984) and others explain how cooperation can emerge in repeat...
Whether by nature or nurture, humans often respond differently when facing the same situation. Yet, ...