A Hybrid Fractional Covid-19 Model With General Population Mask Use: Numerical Treatments
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Yes
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Abstract
In this work, a novel mathematical model of Coronavirus (2019-nCov) with general population mask use with modified parameters. The proposed model consists of fourteen fractional-order nonlinear differential equations. Grünwald-Letnikov approximation is used to approximate the new hybrid fractional operator. Compact finite difference method of six order with a new hybrid fractional operator is developed to study the proposed model. Stability analysis of the used methods are given. Comparative studies with generalized fourth order Runge–Kutta method are given. It is found that, the proposed model can be described well the real data of daily confirmed cases in Egypt. © 2021 THE AUTHORS
Description
Keywords
Compact Finite Difference Method Of Six Order, Coronavirus Diseases, Face Mask, Generalized Fourth Order Runge–Kutta Method, Hybrid Fractional Derivatives, Face mask, Coronavirus diseases, Hybrid fractional derivatives, Compact finite difference method of six order, TA1-2040, Generalized fourth order Runge–Kutta method, Engineering (General). Civil engineering (General), Article
Fields of Science
0103 physical sciences, 01 natural sciences
Citation
Sweilam, N. H...et al. (2021). "A hybrid fractional COVID-19 model with general population mask use: Numerical treatments", Alexandria Engineering Journal, Vol. 60, No. 3, pp. 3219-3232.
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OpenCitations Citation Count
14
Volume
60
Issue
3
Start Page
3219
End Page
3232
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