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Analysis, modeling and simulation of a fractional-order influenza model

Mohamed A. Abdoon, Rania Saadeh, Mohammed Berir, Fathelrhman EL Guma, Mawada Ali

2023Alexandria Engineering Journal56 citationsDOIOpen Access PDF

Abstract

The primary goal of this study is to provide a novel mathematical model for Influenza using the Atangana–Baleanu Caputo fractional-order derivative operator (ABC-Operator) in place of the standard operator. There will be an examination of how the influenza-positive solutions reacts to real-world data. The fractional Euler Method will be utilized to reveal the dynamics of the influenza mathematical model. Both the stability of the disease-free equilibrium and the endemic equilibrium points, two symmetrical extrema of the proposed dynamical model, are examined. It will be shown, using numerical comparisons, that the findings obtained by employing the fractional-order model are considerably more similar to certain actual data than the integer-order model's results. These should shed light on the significance of fractional calculus when confronting epidemic risks.

Topics & Concepts

Fractional calculusOperator (biology)Applied mathematicsOrder (exchange)MathematicsStability (learning theory)Integer (computer science)Maxima and minimaEuler's formulaEquilibrium pointCalculus (dental)Mathematical analysisComputer scienceDentistryMedicineBiochemistryMachine learningRepressorProgramming languageChemistryGeneDifferential equationTranscription factorFinanceEconomicsFractional Differential Equations SolutionsMathematical and Theoretical Epidemiology and Ecology ModelsCOVID-19 epidemiological studies
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