Results in Physics (Jul 2021)

Transmission dynamics of SARS-CoV-2: A modeling analysis with high-and-moderate risk populations

  • Salihu S. Musa,
  • Isa A. Baba,
  • Abdullahi Yusuf,
  • Tukur A. Sulaiman,
  • Aliyu I. Aliyu,
  • Shi Zhao,
  • Daihai He

Journal volume & issue
Vol. 26
p. 104290

Abstract

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Nigeria is second to South Africa with the highest reported cases of COVID-19 in sub-Saharan Africa. In this paper, we employ an SEIR-based compartmental model to study and analyze the transmission dynamics of SARS-CoV-2 outbreaks in Nigeria. The model incorporates different group of populations (that is, high- and- moderate risk populations) and is use to investigate the influence on each population on the overall transmission dynamics.The model, which is fitted well to the data, is qualitatively analyzed to evaluate the impacts of different schemes for controlstrategies. Mathematical analysis reveals that the model has two equilibria; i.e., disease-free equilibrium (DFE) which is local asymptotic stability (LAS) if the basic reproduction number (R0) is less than 1; and unstable for R0>1, and an endemic equilibrium (EE) which is globally asymptotic stability (LAS) whenever R0>1. Furthermore, we find that the model undergoes a phenomenon of backward bifurcation (BB, a coexistence of stable DFE and stable EE even if the R0<1). We employ Partial Rank Correlation coefficients (PRCCs) for sensitivity analyses to evaluate the model’s parameters. Our results highlight that proper surveillance, especially movement of individuals from high risk to moderate risk population, testing, as well as imposition of other NPIs measures are vital strategies for mitigating the COVID-19 epidemic in Nigeria. Besides, in the absence of an exact solution for the proposed model, we solve the model with the well-known ODE45 numerical solver and the effective numerical schemes such as Euler (EM), Runge–Kutta of order 2 (RK-2), and Runge–Kutta of order 4 (RK-4) in order to establish approximate solutions and to show the physical features of the model. It has been shown that these numerical schemes are very effective and efficient to establish superb approximate solutions for differential equations.

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