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Fractional stochastic modelling of COVID-19 under wide spread of vaccinations: Egyptian case study

Othman A. M. Omar, Reda A. Elbarkouky, Hamdy M. Ahmed

2022Alexandria Engineering Journal30 citationsDOIOpen Access PDF

Abstract

This work predicts the dynamics of the COVID-19 under widespread vaccination to anticipate the virus's current and future waves. We focused on establishing two population-based models for predictions: the fractional-order model and the fractional-order stochastic model. Based on dose efficacy, which is one of the main imposed assumptions in our study, some vaccinated people will probably be exposed to infection by the same viral wave. We validated the generated models by applying them to the current viral wave in Egypt. We assumed that the Egyptian current wave began on 10th September 2021. Using current actual data and varying our models’ fractional orders, we generate different predicted wave scenarios. The numerical solution of our models is obtained using the fractional Euler method and the fractional Euler Maruyama method. At the end, we compared the current predicted wave under a high vaccination rate with the previous viral wave. Through this comparison, the vaccination control effect is quantified.

Topics & Concepts

VaccinationCoronavirus disease 2019 (COVID-19)Current (fluid)MathematicsApplied mathematicsFractional calculusStatistical physicsPopulationEconometricsVirologyPhysicsMedicineThermodynamicsEnvironmental healthInfectious disease (medical specialty)DiseasePathologyCOVID-19 epidemiological studiesSARS-CoV-2 and COVID-19 ResearchFractional Differential Equations Solutions
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