English

Evolutionary games on multilayer networks: coordination and equilibrium selection

Physics and Society 2023-08-22 v2 Computer Science and Game Theory

Abstract

We study mechanisms of synchronisation, coordination, and equilibrium selection in two-player coordination games on multilayer networks. We apply the approach from evolutionary game theory with three possible update rules: the replicator dynamics (RD), the best response (BR), and the unconditional imitation (UI). Players interact on a two-layer random regular network. The population on each layer plays a different game, with layer I preferring the opposite strategy to layer II. We measure the difference between the two games played on the layers by a difference in payoffs ΔS\Delta S while the inter-connectedness is measured by a node overlap parameter qq. We discover a critical value qc(ΔS)q_c(\Delta S) below which layers do not synchronise. For q>qcq>q_c in general both layers coordinate on the same strategy. Surprisingly, there is a symmetry breaking in the selection of equilibrium -- for RD and UI there is a phase where only the payoff-dominant equilibrium is selected. Our work is an example of previously observed differences between the update rules on a single network. However, we took a novel approach with the game being played on two inter-connected layers. As we show, the multilayer structure enhances the abundance of the Pareto-optimal equilibrium in coordination games with imitative update rules.

Keywords

Cite

@article{arxiv.2212.08877,
  title  = {Evolutionary games on multilayer networks: coordination and equilibrium selection},
  author = {Tomasz Raducha and Maxi San Miguel},
  journal= {arXiv preprint arXiv:2212.08877},
  year   = {2023}
}
R2 v1 2026-06-28T07:40:13.388Z