Multiple epidemic waves as the outcome of stochastic SIR epidemics with behavioral responses : a hybrid modeling approach

Ochab, Magdalena and Manfredi, Piero and Puszynski, Krzysztof and d'Onofrio, Alberto (2022) Multiple epidemic waves as the outcome of stochastic SIR epidemics with behavioral responses : a hybrid modeling approach. Nonlinear Dynamics. ISSN 0924-090X (https://doi.org/10.1007/s11071-022-07317-6)

[thumbnail of Ochab-etal-ND-2022-Multiple-epidemic-waves-as-the-outcome-of-stochastic-SIR-epidemics]
Preview
Text. Filename: Ochab_etal_ND_2022_Multiple_epidemic_waves_as_the_outcome_of_stochastic_SIR_epidemics.pdf
Accepted Author Manuscript
License: Strathprints license 1.0

Download (5MB)| Preview

Abstract

In the behavioral epidemiology (BE) of infectious diseases, little theoretical effort seems to have been devoted to understand the possible effects of individuals' behavioral responses during an epidemic outbreak in small populations. To fill this gap, here we first build general, behavior implicit, SIR epidemic models including behavioral responses and set them within the framework of nonlinear feedback control theory. Second, we provide a thorough investigation of the effects of different types of agents' behavioral responses for the dynamics of hybrid stochastic SIR outbreak models. In the proposed model, the stochastic discrete dynamics of infection spread is combined with a continuous model describing the agents' delayed behavioral response. The delay reflects the memory mechanisms with which individuals enact protective behavior based on past data on the epidemic course. This results in a stochastic hybrid system with time-varying transition probabilities. To simulate such system, we extend Gillespie's classic stochastic simulation algorithm by developing analytical formulas valid for our classes of models. The algorithm is used to simulate a number of stochastic behavioral models and to classify the effects of different types of agents' behavioral responses. In particular this work focuses on the effects of the structure of the response function and of the form of the temporal distribution of such response. Among the various results, we stress the appearance of multiple, stochastic epidemic waves triggered by the delayed behavioral response of individuals.