As part of a generalized ”prisoners’ dilemma”, is considered that the evolution of a population with a full set of behavioral strategies limited only by the depth of memory. Each subsequent generation of the population successively loses the most disadvantageous strategies of behavior of the previous generation. It is shown that an increase in memory in a population is evolutionarily beneficial. The winners of evolutionary selection invariably refer to agents with maximum memory. The concept of strategy complexity is introduced. It is shown that strategies that win in natural selection have maximum or near maximum complexity. Despite the fact that at a separate stage of evolution, according to the payout matrix, the individual gain,...
Direct reciprocity is a mechanism for the evolution of cooperation based on repeated interactions. W...
In a co-evolutionary context, the survive probability of individual elements of a system depends on ...
Biological and social scientists have long been interested in understanding how to reconcile individ...
As part of a generalized ”prisoners’ dilemma”, is considered that the evolution of a population wit...
Complex social behaviors lie at the heart of many of the challenges facing evolutionary biology, soc...
In our daily life, we have to make our decisions with our restricted abilities (bounded rationality)...
In this paper, we propose a unitary formulation for evolutionary oligopoly models with memory. In pa...
The iterated prisoner's dilemma is an ideal model for the evolution of cooperation among payoff-maxi...
Memory-one strategies are a set of Iterated Prisoner’s Dilemma strategies that have been praised for...
In this study we analyze the effect of working memory capacity on the evolution of cooperation and s...
The evolution of cooperation is still an enigma. Resolution of cooperative dilemma is a hot topic as...
We study evolutionary spatial prisoner’s dilemma game involving a one-step memory mechanism of the i...
We investigate the evolutionary prisoner's dilemma with memory-based agents on a square lattice...
Direct reciprocity is a mechanism for the evolution of cooperation based on repeated interactions. W...
In a co-evolutionary context, the survive probability of individual elements of a system depends on ...
Biological and social scientists have long been interested in understanding how to reconcile individ...
As part of a generalized ”prisoners’ dilemma”, is considered that the evolution of a population wit...
Complex social behaviors lie at the heart of many of the challenges facing evolutionary biology, soc...
In our daily life, we have to make our decisions with our restricted abilities (bounded rationality)...
In this paper, we propose a unitary formulation for evolutionary oligopoly models with memory. In pa...
The iterated prisoner's dilemma is an ideal model for the evolution of cooperation among payoff-maxi...
Memory-one strategies are a set of Iterated Prisoner’s Dilemma strategies that have been praised for...
In this study we analyze the effect of working memory capacity on the evolution of cooperation and s...
The evolution of cooperation is still an enigma. Resolution of cooperative dilemma is a hot topic as...
We study evolutionary spatial prisoner’s dilemma game involving a one-step memory mechanism of the i...
We investigate the evolutionary prisoner's dilemma with memory-based agents on a square lattice...
Direct reciprocity is a mechanism for the evolution of cooperation based on repeated interactions. W...
In a co-evolutionary context, the survive probability of individual elements of a system depends on ...
Biological and social scientists have long been interested in understanding how to reconcile individ...