English

Evolutionary dynamics in stochastic nonlinear public goods games

Physics and Society 2025-05-13 v1

Abstract

Understanding the evolution of cooperation in multiplayer games is of vital significance for natural and social systems. An important challenge is that group interactions often leads to nonlinear synergistic effects. However, previous models mainly focus on deterministic nonlinearity where the arise of synergy or discounting effect is determined by certain conditions, ignoring uncertainty and stochasticity in real-world systems. Here, we develop a probabilistic framework to study the cooperative behavior in stochastic nonlinear public goods games. Through both analytical treatment and Monte Carlo simulations, we provide comprehensive understanding of social dilemmas with stochastic nonlinearity in both well-mixed and structured populations. We find that increasing the degree of nonlinearity makes synergy more advantageous when competing with discounting, thereby promoting cooperation. Interestingly, we show that network reciprocity loses effectiveness when the probability of synergy is small. Moreover, group size exhibits nonlinear effects on group cooperation regardless of the underlying structure. Our findings thus provide novel insights into how stochastic nonlinearity influences the emergence of prosocial behavior.

Keywords

Cite

@article{arxiv.2408.02042,
  title  = {Evolutionary dynamics in stochastic nonlinear public goods games},
  author = {Wenqiang Zhu and Xin Wang and Chaoqian Wang and Longzhao Liu and Jiaxin Hu and Zhiming Zheng and Shaoting Tang and Hongwei Zheng and Jin Dong},
  journal= {arXiv preprint arXiv:2408.02042},
  year   = {2025}
}

Comments

23 pages, 8 figures

R2 v1 2026-06-28T18:03:31.562Z