https://doi.org/10.1140/epjb/e2013-30997-2
Regular Article
Spatial structure enhanced cooperation in dissatisfied adaptive snowdrift game
1
Department of Mechanical and Electrical Engineering, Suzhou
Institute of Industrial Technology, Suzhou
215104, P.R.
China
2
School of Physical Science and Technology, Soochow University,
Suzhou
215006, P.R.
China
3
Department of Physics and Institute of Theoretical Physics, The
Chinese University of Hong Kong, Shatin, Hong Kong,
P.R. China
a
e-mail: cxu@suda.edu.cn
Received: 1 November 2012
Received in final form: 28 January 2013
Published online: 29 April 2013
The dissatisfied adaptive snowdrift game (DASG) describes the adaptive actions driven by the level of dissatisfaction when two connected agents interact. We study the DASG in static networks both numerically and analytically. In a random network of uniform degree k, the system evolves into a homogeneous state consisting only of cooperators when the cost-to-benefit ratio r < r0 and a mixed phase with the coexistence of cooperators and defectors when r > r0, where r0 is a threshold. For an infinite population, the large k limit corresponding to the well-mixed case is solved analytically. A theory is developed based on the pair approximation. It gives the frequency of cooperation fc and the densities of different pairs that are in good agreement with simulation results. The results revealed that fc is enhanced in networked populations with a finite k, when compared with the well-mixed case. The reasons that the theory works well for the present model are traced back to the weak spatial correlation implied by the random network and the fact that the adaptive actions in DASG are driven only by the strategy pairs. The results shed light on the class of models that the pair approximation is applicable.
Key words: Statistical and Nonlinear Physics
© EDP Sciences, Società Italiana di Fisica and Springer-Verlag, 2013