Zhang Jianlei, Zhang Chunyan, Cao Ming, Weissing Franz J
Network Analysis and Control Group, Engineering and Technology Institute Groningen, University of Groningen, 9747 AG, Groningen, The Netherlands.
Theoretical Biology Group, Groningen Institute for Evolutionary Life Sciences, University of Groningen, 9747 AG, Groningen, The Netherlands.
Phys Rev E Stat Nonlin Soft Matter Phys. 2015 Apr;91(4):042101. doi: 10.1103/PhysRevE.91.042101. Epub 2015 Apr 2.
Network models are useful tools for studying the dynamics of social interactions in a structured population. After a round of interactions with the players in their local neighborhood, players update their strategy based on the comparison of their own payoff with the payoff of one of their neighbors. Here we show that the assumptions made on strategy updating are of crucial importance for the strategy dynamics. In the first step, we demonstrate that seemingly small deviations from the standard assumptions on updating have major implications for the evolutionary outcome of two cooperation games: cooperation can more easily persist in a Prisoner's Dilemma game, while it can go more easily extinct in a Snowdrift game. To explain these outcomes, we develop a general model for the updating of states in a network that allows us to derive conditions for the steady-state coexistence of states (or strategies). The analysis reveals that coexistence crucially depends on the number of agents consulted for updating. We conclude that updating rules are as important for evolution on a network as network structure and the nature of the interaction.
网络模型是研究结构化群体中社会互动动态的有用工具。在与本地邻域中的参与者进行一轮互动之后,参与者会根据自己的收益与其中一个邻居的收益比较来更新策略。在此我们表明,关于策略更新所做的假设对策略动态至关重要。第一步,我们证明,与标准更新假设看似微小的偏差对两个合作博弈的进化结果有重大影响:在囚徒困境博弈中合作更容易持续,而在雪堆博弈中合作更容易灭绝。为了解释这些结果,我们开发了一个用于网络中状态更新的通用模型,该模型使我们能够推导出状态(或策略)稳态共存的条件。分析表明,共存关键取决于用于更新而咨询的主体数量。我们得出结论,更新规则对于网络上的进化与网络结构和互动性质同样重要。