A Mathematical Model to Study the Effectiveness of Some of the Strategies Adopted in Curtailing the Spread of COVID-19
Description
In this paper, we developed a model that suggests the use of robots in identifying COVID-19-positive patients and which studied the effectiveness of the government policy of prohibiting migration of individuals into their countries especially from those countries that were known to have COVID-19 epidemic. Two compartmental models consisting of two equations each were constructed. The models studied the use of robots for the identification of COVID-19-positive patients. The effect of migration ban strategy was also studied. Four biologically meaningful equilibrium points were found. Their local stability analysis was also carried out. Numerical simulations were carried out, and the most effective strategy to curtail the spread of the disease was shown. © 2020 Isa Abdullahi Baba et al.
Article; compartment model; coronavirus disease 2019; government; human; infection control; mathematical model; migrant; migration policy; mortality rate; patient identification; quarantine; robotics; virus transmission; Betacoronavirus; biological model; biology; computer simulation; Coronavirus infection; devices; laboratory technique; mathematical phenomena; pandemic; statistical model; travel; virus pneumonia; Betacoronavirus; Clinical Laboratory Techniques; Computational Biology; Computer Simulation; Coronavirus Infections; Humans; Mathematical Concepts; Models, Biological; Models, Statistical; Pandemics; Pneumonia, Viral; Robotics; Travel