English

Going Viral: Stability of Consensus-Driven Adoptive Spread

Systems and Control 2019-02-15 v2

Abstract

The spread of new products in a networked population is often modeled as an epidemic. However, in the case of `complex' contagion, these models {do not capture nuanced, dynamic social reinforcement effects in adoption behavior}. In this paper, we investigate a model of complex contagion which allows a coevolutionary interplay between adoption, modeled as an SIS epidemic spreading process, and social reinforcement effects, modeled as consensus opinion dynamics. Asymptotic stability analysis of the all-adopt as well as the none-adopt equilibria of the combined opinion-adoption model is provided through the use of Lyapunov arguments. In doing so, sufficient conditions are provided which determine the stability of the `flop' state, where no one adopts the product and everyone's opinion of the product is least favorable, and the `hit' state, where everyone adopts and their opinions are most favorable. These conditions are shown to extend to the bounded confidence opinion dynamic under a stronger assumption on the model parameters. To conclude, numerical simulations demonstrate behavior of the model which reflect findings from the sociology literature on adoption behavior.

Keywords

Cite

@article{arxiv.1809.04581,
  title  = {Going Viral: Stability of Consensus-Driven Adoptive Spread},
  author = {Sebastian F. Ruf and Keith Paarporn and Philip E. Paré},
  journal= {arXiv preprint arXiv:1809.04581},
  year   = {2019}
}
R2 v1 2026-06-23T04:04:18.048Z