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*Behavioural evolution: Cooperate with thy neighbour? | *Behavioural evolution: Cooperate with thy neighbour? | ||
https://www.nature.com/articles/428611a | https://www.nature.com/articles/428611a | ||
*Human cooperation in social dilemmas: comparing the Snowdrift game with the Prisoner's Dilemma | |||
doi:10.1098/rspb.2007.0793 |
Edição das 18h36min de 20 de janeiro de 2018
Integrantes do grupo: Leonardo Xavier Rodrigues (262696) e Rodrigo Lopes de Sousa Silva (262705)
Introdução
Prisoner's dilemma (PD): ( R, T, S, P ) = ( b-c, b, -c, 0 ) SD: (R, T, S, P) = (b − c/2, b, b − c, 0)
- pay-off matrix, i.e. what player 1 gets when playing against 2:
- player 2
- defect cooperate
- player defect P T
- 1 cooperate S R
Dilema Do Prisioneiro
Dilema SnowDrift
Algorítmo De Jogos
Algorítmo Dilema do prisioneiro (População Misturada)
Algorítmo Dilema do prisioneiro (População Estruturada
Algorítmo Dilema SnowDrift
Resultados
Programas
Link para Programas Usados[[1]]
Bibliografia
- Dusan Misevic,Sebastian Bonhoeffer, Spatial cooperation games
- Game theory and physics, American Journal of Physics 73, 405 (2005)
http://dx.doi.org/10.1119/1.1848514
- MARTIN A. NOWAK, SEBASTIAN BONHOEFFER, AND ROBERT M. MAY,Spatial games and the maintenance of cooperation
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC43892/pdf/pnas01133-0277.pdf
- Behavioural evolution: Cooperate with thy neighbour?
https://www.nature.com/articles/428611a
- Human cooperation in social dilemmas: comparing the Snowdrift game with the Prisoner's Dilemma
doi:10.1098/rspb.2007.0793