English

Evolutionary Rotation in Switching Incentive Zero-Sum Games

Methodology 2012-07-25 v3 Statistics Theory Chaotic Dynamics Statistics Theory

Abstract

In a laboratory experiment, round by round, individual interactions should lead to the social evolutionary rotation in population strategy state space. Successive switching the incentive parameter should lead to successive change of the rotation ---- both of its direction and its strength. In data from a switching payoff matrix experiment of extended 2x2 games (Binmore, Swierzbinski and Proulx, 2001 [1]), we find the changing of the social evolutionary rotation can be distinguished quantitatively. The evolutionary rotation can be captured by evolutionary dynamics. With eigenvalue from the Jacobian of a constrained replicator dynamics model, an interpretation for observed rotation strength is given. In addition, equality-of-populations rank test shows that relative response coefficient of a group could persist cross the switching parameter games. The data has successively been used to support Von Neumann's minimax theory. Using the old data, with observed evolutionary rotation, this report provides a new insight into evolutionary game theory and experimental social dynamics.

Keywords

Cite

@article{arxiv.1203.2591,
  title  = {Evolutionary Rotation in Switching Incentive Zero-Sum Games},
  author = {Zhijian Wang and Bin Xu},
  journal= {arXiv preprint arXiv:1203.2591},
  year   = {2012}
}

Comments

8 pages, 3 figures; Keywords: experimental economics, evolutionary rotation, replicator dynamics, zero-sum game, switching incentive

R2 v1 2026-06-21T20:32:50.597Z