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Evolution of coordinated alternating reciprocity in repeated dyadic games.

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journal contribution
posted on 2007-06-21, 08:40 authored by Lindsay Browning, Andrew M. Colman
A genetic algorithm incorporating mutation and crossing-over was used to investigate the evolution of social behaviour in repeated Prisoner’s Dilemma, Chicken (Hawk-Dove), Battle of the Sexes, and Leader games. The results show that the strategic structure of an interaction has a crucial determining effect on the type of social behaviour that evolves. In particular, simulations using repeated Prisoner’s Dilemma and Chicken (Hawk-Dove) games lead to the emergence of genes coding for symmetric reciprocity and the evolution of mutual cooperation, whereas simulations using repeated Battle of the Sexes and Leader games lead to near-fixation of genes coding for asymmetric strategic choices and the evolution of coordinated alternating reciprocity. A mechanism is suggested whereby, in games with asymmetric equilibrium points, coordinated alternating reciprocity might evolve without insight or communication between players.

History

Citation

Journal of Theoretical Biology, 2004, 229, (4), pp.549-557.

Version

  • AM (Accepted Manuscript)

Published in

Journal of Theoretical Biology

Publisher

Elsevier

issn

0022-5193

eissn

1095-8541

Copyright date

2004

Available date

2007-06-21

Publisher version

http://www.sciencedirect.com/science/article/pii/S002251930400178X#

Language

en

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