The Iterated Prisoner\u27s Dilemma (IPD) is widely used to study the evolution of cooperation between self-interested agents. Existing work asks how genes that code for cooperation arise and spread through a single-species population of IPD playing agents. In this paper, we focus on competition between different species of agents. Making this distinction allows us to separate and examine macroevolutionary phenomena. We illustrate with some species-level simulation experiments with agents that use well-known strategies, and with species of agents that use team strategies
Many economic and social systems are essentially large multi-agent systems. By means of computation...
The feeling of belongingness, to be a member of a group, is rooted in human evolutionary history. Co...
In nature, all species have their own behaviors and strategies for survival. Some species survive an...
The Iterated Prisoner\u27s Dilemma (IPD) is widely used to study the evolution of cooperation betwee...
Abstract — The Iterated Prisoners Dilemma (IPD) is often used to model cooperation between self-inte...
Includes bibliographical references (p. 55-56)This work aims to affirm the evolution of cooperation ...
The Iterated Prisoner's Dilemma (IPD) is widely regarded as a standard model for the evolution of co...
The evolution of cooperation in a system of agents playing the iterated prisoner's dilemma (IPD) is ...
We propose here a new approach to study co-evolution and we apply it to the well-known iterated pris...
The observed cooperation on the level of genes, cells, tissues, and individuals has been the object ...
The evolution of cooperation in a system of agents playing the iterated prisoner's dilemma (IPD) is ...
Studies aimed at explaining the evolution of phenotypic traits have often solely focused on fitness ...
Many economic and social systems are essentially large multi-agent systems. By means of computation...
The feeling of belongingness, to be a member of a group, is rooted in human evolutionary history. Co...
In nature, all species have their own behaviors and strategies for survival. Some species survive an...
The Iterated Prisoner\u27s Dilemma (IPD) is widely used to study the evolution of cooperation betwee...
Abstract — The Iterated Prisoners Dilemma (IPD) is often used to model cooperation between self-inte...
Includes bibliographical references (p. 55-56)This work aims to affirm the evolution of cooperation ...
The Iterated Prisoner's Dilemma (IPD) is widely regarded as a standard model for the evolution of co...
The evolution of cooperation in a system of agents playing the iterated prisoner's dilemma (IPD) is ...
We propose here a new approach to study co-evolution and we apply it to the well-known iterated pris...
The observed cooperation on the level of genes, cells, tissues, and individuals has been the object ...
The evolution of cooperation in a system of agents playing the iterated prisoner's dilemma (IPD) is ...
Studies aimed at explaining the evolution of phenotypic traits have often solely focused on fitness ...
Many economic and social systems are essentially large multi-agent systems. By means of computation...
The feeling of belongingness, to be a member of a group, is rooted in human evolutionary history. Co...
In nature, all species have their own behaviors and strategies for survival. Some species survive an...