English

Coupling opinion dynamics and epidemiology

Physics and Society 2025-12-13 v1 Dynamical Systems Populations and Evolution

Abstract

This research investigates the coupled dynamics of behavior and infectious disease using a mathematical model. We integrate a two-state q-voter opinion process with SIS-type infection dynamics, where transmission rates are influenced by the opinion and an infection-induced switching mechanism represents individuals reassessing their behavior upon infection. Analytically, we derive conditions for the stability of endemic and disease-free equilibria. Numerical simulations reveal complex dynamics: above a certain infectivity threshold, the system can exhibit alternative basins of attraction leading to a balanced endemic fixed point or stable limit cycles. Notably, the dominant asymptotic opinion and resulting epidemiological outcomes show non-monotonic relationships with infectivity, highlighting the potential for adaptive behavior to induce complex system dynamics. These findings underscore the critical role of social interventions; shifts in behavioral norms and trust can permanently alter epidemic outcomes, suggesting that such interventions are as crucial as biomedical controls

Keywords

Cite

@article{arxiv.2512.10612,
  title  = {Coupling opinion dynamics and epidemiology},
  author = {Thomas Goetz and Tyll Krueger and Karol Niedzielewski and Jan Schneider and Barbara Pabjan},
  journal= {arXiv preprint arXiv:2512.10612},
  year   = {2025}
}
R2 v1 2026-07-01T08:20:32.588Z