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Numerical Coefficient Reconstruction of Time-Depending Integer- and Fractional-Order SIR Models for Economic Analysis of COVID-19

Slavi Georgiev, Lubin G. Vulkov

2022Mathematics15 citationsDOIOpen Access PDF

Abstract

In the present work, a fractional temporal SIR model is considered. The total population is divided into three compartments—susceptible, infected and removed individuals. It generalizes the classical SIR model and consists of three coupled time-fractional ordinary differential equations (ODEs). The fractional derivative is introduced to account for the subdiffusion process of confirmed, cured and deceased people dynamics. Although relatively basic, the model is robust and captures the real dynamics, helped by the memory property of the fractional system. In the paper, the issue of an adequate model reconstruction is addressed, and a coefficient identification inverse problem is solved; in particular, the transition and recovering rates, varying in time, are recovered. A least-squares cost functional is minimized for solving the problem. The time-dependent parameters are reconstructed with an iterative predictor–corrector algorithm. Its application is demonstrated via tests with synthetic and real data. What is more, an approach for economic impact assessment is proposed.

Topics & Concepts

Fractional calculusOdeOrdinary differential equationApplied mathematicsInteger (computer science)MathematicsInverse problemEpidemic modelProperty (philosophy)PopulationInverseMathematical optimizationProcess (computing)Ordinary least squaresComputer scienceDifferential equationStatisticsMathematical analysisDemographySociologyPhilosophyGeometryEpistemologyOperating systemProgramming languageFractional Differential Equations SolutionsMathematical and Theoretical Epidemiology and Ecology ModelsCOVID-19 epidemiological studies
Numerical Coefficient Reconstruction of Time-Depending Integer- and Fractional-Order SIR Models for Economic Analysis of COVID-19 | Litcius