Mean-field Concentration of Opinion Dynamics in Random Graphs

Opinion and belief dynamics are a central topic in the study of social interactions through dynamical systems. In this work, we study a model where, at each discrete time, all the agents update their opinion as an average of their intrinsic opinion and the opinion of their neighbors. While it is wel...

Full description

Saved in:
Bibliographic Details
Published in:arXiv.org 2024-12
Main Authors: Gutiérrez-Ramírez, Javiera, Salas, David, Verdugo, Victor
Format: Article
Language:English
Subjects:
Approximation
Dynamical systems
Graph theory
Graphs
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Opinion and belief dynamics are a central topic in the study of social interactions through dynamical systems. In this work, we study a model where, at each discrete time, all the agents update their opinion as an average of their intrinsic opinion and the opinion of their neighbors. While it is well-known how to compute the stable opinion state for a given network, studying the dynamics becomes challenging when the network is uncertain. Motivated by the task of finding optimal policies by a decision-maker that aims to incorporate the opinion of the agents, we address the question of how well the stable opinions can be approximated when the underlying network is random. We consider Erdős-Rényi random graphs to model the uncertain network. Under the connectivity regime and an assumption of minimal stubbornness, we show the expected value of the stable opinion \(\mathbf{E}(x(G,\infty))\) concentrates, as the size of the network grows, around the stable opinion \(\bar{x}(\infty)\) obtained by considering a mean-field dynamical system, i.e., averaging over the possible network realizations. For both the directed and undirected graph model, the concentration holds under the \(\ell_{\infty}\)-norm to measure the gap between \(\mathbf{E}(x(G,\infty))\) and \(\bar{x}(\infty)\). We deduce this result by studying a mean-field approximation of general analytic matrix functions. The approximation result for the directed graph model also holds for any \(\ell_{\rho}\)-norm with \(\rho\in (1,\infty)\), under a slightly enhanced expected average degree.
ISSN:2331-8422