In this study we analyze the effect of working memory capacity on the evolution of cooperation and show a case in which societies with strongly limited memory achieve higher levels of cooperation than societies with larger memory. Agents in our evolutionary model are arranged on a network and interact in a prisoner's dilemma with their neighbors. They learn from their own experience and that of their neighbors in the network about the past behavior of others and use this information when making their choices. Each agent can only process information from her last h interactions. We show that if memory (h) is too short, cooperation does not emerge in the long run. A slight increase of memory length to around 5-10 periods, though, can lead to ...
Considering the influences of individuals' movement and memory, a modified prisoner's dilemma (PD) g...
Analyses of the evolution of cooperation often rely on two simplifying assumptions: (i) individuals ...
In our daily life, we have to make our decisions with our restricted abilities (bounded rationality)...
In this study we analyze the effect of working memory capacity on the evolution of cooperation and s...
UID/ANT/04038/2013 PEst-OE/SADG/UI4038/2011The social brain hypothesis states that selection pressu...
The evolution of cooperation is still an enigma. Resolution of cooperative dilemma is a hot topic as...
(INTRODUCTION) Human societies are characterised by high degrees of reciprocal altruism between unre...
Analyses of the evolution of cooperation often rely on two simplifying assumptions: (i) individuals ...
Complex social behaviors lie at the heart of many of the challenges facing evolutionary biology, soc...
Many problems in human society reflect the inability of selfish parties to cooperate, The 'Iterated ...
The issue of how to enhance cooperation has been a hot topic of research in evolutionary games for a...
In general, multilayer networks are often a significantly more apt description of real-life systems ...
Game theory is fundamental to understanding cooperation between agents. Mainly, the Prisoner's Dilem...
While cooperation maximizes collective welfare, selfishness maximizes short-term individual benefits...
We investigate the evolutionary prisoner's dilemma with memory-based agents on a square lattice...
Considering the influences of individuals' movement and memory, a modified prisoner's dilemma (PD) g...
Analyses of the evolution of cooperation often rely on two simplifying assumptions: (i) individuals ...
In our daily life, we have to make our decisions with our restricted abilities (bounded rationality)...
In this study we analyze the effect of working memory capacity on the evolution of cooperation and s...
UID/ANT/04038/2013 PEst-OE/SADG/UI4038/2011The social brain hypothesis states that selection pressu...
The evolution of cooperation is still an enigma. Resolution of cooperative dilemma is a hot topic as...
(INTRODUCTION) Human societies are characterised by high degrees of reciprocal altruism between unre...
Analyses of the evolution of cooperation often rely on two simplifying assumptions: (i) individuals ...
Complex social behaviors lie at the heart of many of the challenges facing evolutionary biology, soc...
Many problems in human society reflect the inability of selfish parties to cooperate, The 'Iterated ...
The issue of how to enhance cooperation has been a hot topic of research in evolutionary games for a...
In general, multilayer networks are often a significantly more apt description of real-life systems ...
Game theory is fundamental to understanding cooperation between agents. Mainly, the Prisoner's Dilem...
While cooperation maximizes collective welfare, selfishness maximizes short-term individual benefits...
We investigate the evolutionary prisoner's dilemma with memory-based agents on a square lattice...
Considering the influences of individuals' movement and memory, a modified prisoner's dilemma (PD) g...
Analyses of the evolution of cooperation often rely on two simplifying assumptions: (i) individuals ...
In our daily life, we have to make our decisions with our restricted abilities (bounded rationality)...