Author: Ullah, Abd; Ahmad, Saeed; Owyed, Saud; Abdel-Aty, Abdel-Haleem; Mahmoud, Emad E.; Shah, Kamal; Alrabaiah, Hussam
Title: Mathematical Analysis of COVID-19 via New Mathematical Model Cord-id: b2l3fci0 Document date: 2020_12_26
ID: b2l3fci0
Snippet: We develop a new mathematical model by including the resistive class together with quarantine class and use it to investigate the transmission dynamics of the novel corona virus disease (COVID-19). Our developed model consists of four compartments, namely the susceptible class, [Formula: see text] the healthy (resistive) class, [Formula: see text] the infected class, [Formula: see text] and the quarantine class, [Formula: see text]. We derive basic properties like, boundedness and positivity, of
Document: We develop a new mathematical model by including the resistive class together with quarantine class and use it to investigate the transmission dynamics of the novel corona virus disease (COVID-19). Our developed model consists of four compartments, namely the susceptible class, [Formula: see text] the healthy (resistive) class, [Formula: see text] the infected class, [Formula: see text] and the quarantine class, [Formula: see text]. We derive basic properties like, boundedness and positivity, of our proposed model in a biologically feasible region. To discuss the local as well as the global behaviour of the possible equilibria of the model, we compute the threshold quantity. The linearization and Lyapunov function theory are used to derive conditions for the stability analysis of the possible equilibrium states. We present numerical simulations to support our investigations. The simulations are compared with the available real data for Wuhan city in China, where the infection was initially originated.
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