Abstract
Competitiveness is a relevant social behavior and in several contexts, from economy to sport activities, has a fundamental role. We analyze this social behavior in the domain of evolutionary game theory, using as reference the Prisoner’s Dilemma. In particular, we investigate whether, in an agent population, it is possible to identify a relation between competitiveness and cooperation. The agent population is embedded both in continuous and in discrete spaces, hence agents play the Prisoner’s Dilemma with their neighbors. In continuous spaces, each agent computes its neighbors by an Euclidean distance-based rule, whereas in discrete spaces agents have as neighbors those directly connected with them. We map competitiveness to the amount of opponents each agent wants to face; therefore, this value is used to define the set of neighbors. Notably, in continuous spaces, competitive agents have a high interaction radius used to compute their neighbors. Instead, since discrete spaces are implemented as directed networks, competitiveness corresponds to the out-degree of each agent, i.e., to the number of arrows starting from the considered agent and directed to those agents it wants to face. Then, we study the evolution of the system with the aim to investigate if, and under which conditions, cooperation among agents emerges. As result, numerical simulations of the proposed model show that competitiveness strongly increases cooperation. Furthermore, we found other relevant phenomena as the emergence of hubs in directed networks.
Highlights
Competitiveness is a relevant social behavior and in several contexts, from economy to sport activities, has a fundamental role
We found that competitiveness strongly affects these dynamics and, in particular, it increases the cooperation among agents
We map the competitiveness to a parameter embedded in the model, so that competitive agents face many opponents, whereas non-competitive ones do the opposite
Summary
Competitiveness is a relevant social behavior and in several contexts, from economy to sport activities, has a fundamental role. We analyze this social behavior in the domain of evolutionary game theory, using as reference the Prisoner’s Dilemma. In this study, we aim to investigate if there is a relation between competitiveness and cooperation To this end, we implement a population whose agents, provided with a parameter that represents their degree of competitiveness (see [30]), play the PD. Of the proposed model, allowed to analyze parameters as the average out-degree over time and to define the TSdiagram; the latter constitutes a relevant tool to assess if, and in which extent, cooperation emerges among agents.
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