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Cooperation risk and Nash equilibrium: quantitative description for realistic players

01/19/2018

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by G. M. Nakamura, et al.

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The emergence of cooperation figures among the main goal of game theory in competitive-cooperative environments. Potential games have long been hinted as viable alternatives to study realistic player behavior. Here, we expand the potential games approach by taking into account the inherent risks of cooperation. We show the Public Goods game reduce to a Hamiltonian with one-body operators, with the correct Nash Equilibrium as the ground state. The inclusion of punishments to the Public Goods game reduces the cooperation risk, creating two-body interaction with a rich phase diagram, where phase transitions segregates the cooperative from competitive regimes.

G. M. Nakamura
1 publication
G. S. Contesini
1 publication
A. S. Martinez
1 publication

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