Author: Mamo, Dejen Ketema
Title: Model the transmission dynamics of COVID-19 propagation with public health intervention Cord-id: cijer563 Document date: 2020_7_23
ID: cijer563
Snippet: Abstract In this work, a researcher develops S H E I Q R D (Susceptible-Stay-at-home-Exposed-Infected-Quarantine-Recovery-Death) coronavirus pandemic, spread model. The disease-free and endemic equilibrium points are computed and analyzed. The basic reproduction number R 0 is acquired, and its sensitivity analysis conducted. COVID-19 pandemic spread dies out when R 0 ≤ 1 and persists in the community whenever R 0 > 1 . Efficient stay-at-home rate, high coverage of precise identification and is
Document: Abstract In this work, a researcher develops S H E I Q R D (Susceptible-Stay-at-home-Exposed-Infected-Quarantine-Recovery-Death) coronavirus pandemic, spread model. The disease-free and endemic equilibrium points are computed and analyzed. The basic reproduction number R 0 is acquired, and its sensitivity analysis conducted. COVID-19 pandemic spread dies out when R 0 ≤ 1 and persists in the community whenever R 0 > 1 . Efficient stay-at-home rate, high coverage of precise identification and isolation of exposed and infected individuals, reduction of transmission, and stay-at-home return rate can mitigate COVID-19 pandemic. Finally, theoretical analysis and numerical results are shown to be consistent.
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