Author: Boudaoui, Ahmed; El hadj Moussa, Yacine; Hammouch, Zakia; Ullah, Saif
Title: A fractional-order model describing the dynamics of the novel coronavirus (COVID-19) with nonsingular kernel Cord-id: vhdjp0td Document date: 2021_3_20
ID: vhdjp0td
Snippet: In this paper, we investigate an epidemic model of the novel coronavirus disease or COVID-19 using the Caputo-Fabrizio derivative. We discuss the existence and uniqueness of solution for the model under consideration, by using the the PicardLindelȵf theorem. Further, using an efficient numerical approach we present an iterative scheme for the solutions of proposed fractional model. Finally, many numerical simulations are presented for various values of the fractional order to demonstrate the im
Document: In this paper, we investigate an epidemic model of the novel coronavirus disease or COVID-19 using the Caputo-Fabrizio derivative. We discuss the existence and uniqueness of solution for the model under consideration, by using the the PicardLindelȵf theorem. Further, using an efficient numerical approach we present an iterative scheme for the solutions of proposed fractional model. Finally, many numerical simulations are presented for various values of the fractional order to demonstrate the impact of some effective and commonly used interventions to mitigate this novel infection. From the simulation results we conclude that the fractional order epidemic model provides more insights about the disease dynamics.
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