Author: Danane, Jaouad; Allali, Karam; Hammouch, Zakia; Nisar, Kottakkaran Sooppy
Title: Mathematical analysis and simulation of a stochastic COVID-19 Lévy jump model with isolation strategy Cord-id: 3x66qy0c Document date: 2021_3_4
ID: 3x66qy0c
Snippet: This paper investigates the dynamics of a COVID-19 stochastic model with isolation strategy. The white noise as well as the Lévy jump perturbations are incorporated in all compartments of the suggested model. First, the existence and uniqueness of a global positive solution are proven. Next, the stochastic dynamic properties of the stochastic solution around the deterministic model equilibria are investigated. Finally, the theoretical results are reinforced by some numerical simulations.
Document: This paper investigates the dynamics of a COVID-19 stochastic model with isolation strategy. The white noise as well as the Lévy jump perturbations are incorporated in all compartments of the suggested model. First, the existence and uniqueness of a global positive solution are proven. Next, the stochastic dynamic properties of the stochastic solution around the deterministic model equilibria are investigated. Finally, the theoretical results are reinforced by some numerical simulations.
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