We consider an evolutionary Prisoner's Dilemma game on the lattice where a parameter alpha is employed to determine with whom individuals aspire to interact in future iterations. Specifically, for positive alpha, rich environments are preferentially considered when individuals hunt for new surroundings, while for negative alpha, the opposite holds. When alpha = 0, individuals adopt 'random move'-like migration. The results indicate that aspiring for wealthy ambience makes cooperation survive and even thrive under certain circumstances. Moreover, there exist the optimal population densities that most uphold cooperation. We also investigate the expansion of cooperators. And the discovery of utmost salience is that cooperators c...
We investigate the prisoner's dilemma game based on a new rule: players will change their curre...
Cooperation is one of the essential factors for all biological organisms in major evolutionary trans...
Considering the important roles played by aspiration and imitation rules, we explore how cooperation...
We consider an evolutionary Prisoner’s Dilemma game on the lattice where a parameter α is employed t...
We study the role of migration in the evolution of cooperation. Individuals spatially located on a s...
We study the evolution of cooperation in the spatial prisoner's dilemma game where players are ...
We study the evolution of cooperation in spatial prisoner's dilemma games, whereby each player ...
In biological evolution, organisms that are more adapted to the environment tend to survive better, ...
Abstract The impact of environment on individuals is particularly critical. In evolutionary games, a...
Cooperation is one of the essential factors for all biological organisms in major evolutionary trans...
The evolution of cooperation is an enduring conundrum in biology and the social sciences. Two social...
We study the evolutionary Prisoner's Dilemma game among individuals endowed with adaptively int...
We study the evolution of cooperation in the spatial prisoner's dilemma game where players are allow...
We study the evolution of cooperation in the spatial prisoner's dilemma game where players are allow...
We study the evolution of cooperation in the spatial prisoner\u27s dilemma game where players are al...
We investigate the prisoner's dilemma game based on a new rule: players will change their curre...
Cooperation is one of the essential factors for all biological organisms in major evolutionary trans...
Considering the important roles played by aspiration and imitation rules, we explore how cooperation...
We consider an evolutionary Prisoner’s Dilemma game on the lattice where a parameter α is employed t...
We study the role of migration in the evolution of cooperation. Individuals spatially located on a s...
We study the evolution of cooperation in the spatial prisoner's dilemma game where players are ...
We study the evolution of cooperation in spatial prisoner's dilemma games, whereby each player ...
In biological evolution, organisms that are more adapted to the environment tend to survive better, ...
Abstract The impact of environment on individuals is particularly critical. In evolutionary games, a...
Cooperation is one of the essential factors for all biological organisms in major evolutionary trans...
The evolution of cooperation is an enduring conundrum in biology and the social sciences. Two social...
We study the evolutionary Prisoner's Dilemma game among individuals endowed with adaptively int...
We study the evolution of cooperation in the spatial prisoner's dilemma game where players are allow...
We study the evolution of cooperation in the spatial prisoner's dilemma game where players are allow...
We study the evolution of cooperation in the spatial prisoner\u27s dilemma game where players are al...
We investigate the prisoner's dilemma game based on a new rule: players will change their curre...
Cooperation is one of the essential factors for all biological organisms in major evolutionary trans...
Considering the important roles played by aspiration and imitation rules, we explore how cooperation...