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Simplicial SIRS epidemic models with nonlinear incidence rates

Dong Wang, Yi Zhao, Jianfeng Luo, Hui Leng

2021Chaos An Interdisciplinary Journal of Nonlinear Science83 citationsDOI

Abstract

Mathematical epidemiology that describes the complex dynamics on social networks has become increasingly popular. However, a few methods have tackled the problem of coupling network topology with complex incidence mechanisms. Here, we propose a simplicial susceptible-infected-recovered-susceptible (SIRS) model to investigate the epidemic spreading via combining the network higher-order structure with a nonlinear incidence rate. A network-based social system is reshaped to a simplicial complex, in which the spreading or infection occurs with nonlinear reinforcement characterized by the simplex dimensions. Compared with the previous simplicial susceptible-infected-susceptible (SIS) models, the proposed SIRS model can not only capture the discontinuous transition and the bistability of a complex system but also capture the periodic phenomenon of epidemic outbreaks. More significantly, the two thresholds associated with the bistable region and the critical value of the reinforcement factor are derived. We further analyze the stability of equilibrium points of the proposed model and obtain the condition of existence of the bistable states and limit cycles. This work expands the simplicial SIS models to SIRS models and sheds light on a novel perspective of combining the higher-order structure of complex systems with nonlinear incidence rates.

Topics & Concepts

BistabilityComplex networkNonlinear systemSimplicial complexTopological data analysisMathematicsMultistabilityStability (learning theory)Network topologyTopology (electrical circuits)Computer scienceMathematical optimizationPhysicsAlgorithmPure mathematicsOperating systemCombinatoricsMachine learningQuantum mechanicsMathematical and Theoretical Epidemiology and Ecology ModelsComplex Network Analysis TechniquesOpinion Dynamics and Social Influence
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