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Main Authors: Muñoz, Francisco J., Meacci, Luca, Nuño, Juan Carlos, Primicerio, Mario
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2405.05186
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author Muñoz, Francisco J.
Meacci, Luca
Nuño, Juan Carlos
Primicerio, Mario
author_facet Muñoz, Francisco J.
Meacci, Luca
Nuño, Juan Carlos
Primicerio, Mario
contents The manner epidemics occurs in a social network depends on various elements, with two of the most influential being the relationships among individuals in the population and the mechanism of transmission. In this paper, we assume that the social network has a homogeneous random topology of Erdös-Rényi type. Regarding the contagion process, we assume that the probability of infection is proportional to the proportion of infected neighbours. We consider a constant population, whose individuals are the nodes of the social network, formed by two variable subpopulations: Susceptible and Infected (SI model). We simulate the epidemics on this random network and study whether the average dynamics can be described using a mean field approach in terms of Differential Equations, employing the law of mass action. We show that a macroscopic description could be applied for low average connectivity, adjusting the value of the contagion rate in a precise function. This dependence is illustrated by calculating the transient times for each connectivity. This study contributes valuable insights into the interplay between network connectivity, contagion dynamics, and the applicability of mean-field approximations. The delineation of critical thresholds and the distinctive behaviour at lower connectivity enable a deeper understanding of epidemic dynamics.
format Preprint
id arxiv_https___arxiv_org_abs_2405_05186
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Exploring the limits of the law of mass action in the mean field description of epidemics on Erdös-Rényi networks
Muñoz, Francisco J.
Meacci, Luca
Nuño, Juan Carlos
Primicerio, Mario
Dynamical Systems
37M05
The manner epidemics occurs in a social network depends on various elements, with two of the most influential being the relationships among individuals in the population and the mechanism of transmission. In this paper, we assume that the social network has a homogeneous random topology of Erdös-Rényi type. Regarding the contagion process, we assume that the probability of infection is proportional to the proportion of infected neighbours. We consider a constant population, whose individuals are the nodes of the social network, formed by two variable subpopulations: Susceptible and Infected (SI model). We simulate the epidemics on this random network and study whether the average dynamics can be described using a mean field approach in terms of Differential Equations, employing the law of mass action. We show that a macroscopic description could be applied for low average connectivity, adjusting the value of the contagion rate in a precise function. This dependence is illustrated by calculating the transient times for each connectivity. This study contributes valuable insights into the interplay between network connectivity, contagion dynamics, and the applicability of mean-field approximations. The delineation of critical thresholds and the distinctive behaviour at lower connectivity enable a deeper understanding of epidemic dynamics.
title Exploring the limits of the law of mass action in the mean field description of epidemics on Erdös-Rényi networks
topic Dynamical Systems
37M05
url https://arxiv.org/abs/2405.05186