Direct reciprocity relies on repeated encounters between the same two individuals. Here we examine the evolution of cooperation under direct reciprocity in dynamically structured populations. Individuals occupy the vertices of a graph, undergoing repeated interactions with their partners via the edges of the graph. Unlike the traditional approach to evolutionary game theory, where individuals meet at random and have no control over the frequency or duration of interactions, we consider a model in which individuals differ in the rate at which they seek new interactions. Moreover, once a link between two individuals has formed, the productivity of this link is evaluated. Links can be broken off at different rates. Whenever the active dynamics...
As is well-known, spatial reciprocity plays an important role in facilitating the emergence of coope...
Cooperative behavior that increases the fitness of others at a cost to oneself can be promoted by na...
The evolution of populations is influenced by many factors, and the simple classical models have bee...
Direct reciprocity relies on repeated encounters between the same two individuals. Here we examine t...
Direct reciprocity is a mechanism for the evolution of cooperation based on the idea of repeated enc...
In the traditional approach to evolutionary game theory, the individuals of a population meet each o...
Reciprocity and repeated games have been at the center of attention when studying the evolution of h...
Direct reciprocity is a mechanism for the evolution of cooperation based on the idea of repeated enc...
Abstract—Cooperation within selfish individuals can be promoted by natural selection only in the pre...
Social networks are dynamic: We make new friends and loose touch with old ones, depending on the int...
We introduce a model in which individuals differ in the rate at which they seek new interactions wit...
The role of dynamical topologies in the evolution of cooperation has received considerable attention...
Cooperative behavior that increases the fitness of others at a cost to oneself can be promoted by na...
The evolution of cooperation opens a prominent window to investigate the organizing properties in co...
Direct reciprocity is a mechanism for the evolution of cooperation based on repeated interactions. W...
As is well-known, spatial reciprocity plays an important role in facilitating the emergence of coope...
Cooperative behavior that increases the fitness of others at a cost to oneself can be promoted by na...
The evolution of populations is influenced by many factors, and the simple classical models have bee...
Direct reciprocity relies on repeated encounters between the same two individuals. Here we examine t...
Direct reciprocity is a mechanism for the evolution of cooperation based on the idea of repeated enc...
In the traditional approach to evolutionary game theory, the individuals of a population meet each o...
Reciprocity and repeated games have been at the center of attention when studying the evolution of h...
Direct reciprocity is a mechanism for the evolution of cooperation based on the idea of repeated enc...
Abstract—Cooperation within selfish individuals can be promoted by natural selection only in the pre...
Social networks are dynamic: We make new friends and loose touch with old ones, depending on the int...
We introduce a model in which individuals differ in the rate at which they seek new interactions wit...
The role of dynamical topologies in the evolution of cooperation has received considerable attention...
Cooperative behavior that increases the fitness of others at a cost to oneself can be promoted by na...
The evolution of cooperation opens a prominent window to investigate the organizing properties in co...
Direct reciprocity is a mechanism for the evolution of cooperation based on repeated interactions. W...
As is well-known, spatial reciprocity plays an important role in facilitating the emergence of coope...
Cooperative behavior that increases the fitness of others at a cost to oneself can be promoted by na...
The evolution of populations is influenced by many factors, and the simple classical models have bee...