William Hamilton developed the biological theory of kin selection before game theory became familiar to biologists. Thus he implicitly confined his analysis to a rather special subclass of games, with linear structure. This paper shows that while Hamilton's rule does not apply to a more general class of games, there is a useful generalization that does apply. This paper also generalizes results in my 1995 AER paper on sibling interaction from symmetric two-player games to multiplayer games that may be asymmetric
This paper focuses on the mathematical core of evolutionary game dynamics. The biologist Maynard Smi...
Section 3 of this paper is quite incomplete. A better version is planned for the near future. Severa...
Individuals are predicted to behave more altruistically and less competitively toward their relative...
Kin selection means that individuals can increase their own inclusive fitness through displaying mor...
This paper explores the evolutionary foundations of altruism among siblings and extends biologists' ...
Darwinian selection should preclude cooperation from evolving; yet cooperation is widespread among o...
This paper explores the quantitative relation between non random, assortative matching and the maint...
Evolutionary game theory developed as a means to predict the expected distribution of individual beh...
Evolutionary game theory has become one of the most diverse and far reaching theories in biology. Ap...
Natural selection operates both directly, via the impact of a trait upon the individual's own fitnes...
Hamilton's theory of kin selection suggests that individuals should show less aggression, and more a...
Significance Kin selection—helping genetically related individuals even at a cost to ones...
We offer a game-theoretic proof of Hamilton's rule for the spread of altruism. For a simple case of ...
Evolutionary game theory is a popular framework for modeling the evolution of populations via natura...
William Hamilton [8] proposed that evolutionary selection would result in a population of individual...
This paper focuses on the mathematical core of evolutionary game dynamics. The biologist Maynard Smi...
Section 3 of this paper is quite incomplete. A better version is planned for the near future. Severa...
Individuals are predicted to behave more altruistically and less competitively toward their relative...
Kin selection means that individuals can increase their own inclusive fitness through displaying mor...
This paper explores the evolutionary foundations of altruism among siblings and extends biologists' ...
Darwinian selection should preclude cooperation from evolving; yet cooperation is widespread among o...
This paper explores the quantitative relation between non random, assortative matching and the maint...
Evolutionary game theory developed as a means to predict the expected distribution of individual beh...
Evolutionary game theory has become one of the most diverse and far reaching theories in biology. Ap...
Natural selection operates both directly, via the impact of a trait upon the individual's own fitnes...
Hamilton's theory of kin selection suggests that individuals should show less aggression, and more a...
Significance Kin selection—helping genetically related individuals even at a cost to ones...
We offer a game-theoretic proof of Hamilton's rule for the spread of altruism. For a simple case of ...
Evolutionary game theory is a popular framework for modeling the evolution of populations via natura...
William Hamilton [8] proposed that evolutionary selection would result in a population of individual...
This paper focuses on the mathematical core of evolutionary game dynamics. The biologist Maynard Smi...
Section 3 of this paper is quite incomplete. A better version is planned for the near future. Severa...
Individuals are predicted to behave more altruistically and less competitively toward their relative...