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Article Dans Une Revue Mathematical Methods in the Applied Sciences Année : 2024

Stochastic COVID‐19 epidemic model incorporating asymptomatic and isolated compartments

Résumé

This study delves into the intricate dynamics of the COVID‐19 epidemic by extending a deterministic compartmental model incorporating asymptomatic, quarantined and isolated compartments, with a stochastic model capturing the natural randomness of the processes. Traditional analytical methods face challenges in capturing the complexities arising from the dynamical interactions between these compartments. Our primary goal is to unravel the long‐term behavior and stability of the COVID‐19 epidemic model using this innovative stochastic framework. In this work, we establish stochastic threshold conditions that govern disease extinction and persistence while exploring the characteristics of a stationary distribution. The derived insights, anchored in rigorous theoretical underpinnings, are further substantiated through an exhaustive numerical analysis. Crucially, the parameters of our model are meticulously calibrated against empirical data pertaining to the COVID‐19 outbreak in India. By bridging theory and practical applications, we showcase the significance of stochastic modeling in comprehending the intricate nature of epidemic dynamics, specifically within the context of COVID‐19.

Dates et versions

hal-04506238 , version 1 (15-03-2024)

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Tomás Caraballo, Ibrahim Bouzalmat, Adel Settati, Aadil Lahrouz, Abdeladim Nait Brahim, et al.. Stochastic COVID‐19 epidemic model incorporating asymptomatic and isolated compartments. Mathematical Methods in the Applied Sciences, 2024, ⟨10.1002/mma.9928⟩. ⟨hal-04506238⟩
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