Numerical Simulation of SEIR Model for COVID-19 Infection
DOI:
https://doi.org/10.3329/jnujsci.v11i1.76701Keywords:
Susceptible, Transmission, Disease free equilibrium, Endemic equilibrium, Stability, Recovery rateAbstract
One of the most basic models in epidemiology, the SEIR (Susceptible-Exposed-Infectious-Recovered) model explains how viral infections spread through communities. This study analyzes the SEIR model's differential equations to learn more about its dynamic behaviors. This study discusses the 2019 corona virus disease (COVID-19) epidemic model using numerical methods of susceptible exposed infected recovered (SEIR). A numerical description of the notion is provided using two numerical approaches, including forward Euler and RK-4 approaches. The subplots of SEIR model are drawn by ode 45 commands. The stability of disease free equilibrium and Endemic equilibrium points are depicted. The significance of comprehending the interaction between epidemiological variables and population dynamics in developing efficient public health treatments is brought to light in this study, which investigates the consequences of these equations on the transmission and management of infectious diseases. Insights into the dynamics of illness transmission and potential measures for mitigating its effects are presented through the use of mathematical analysis and computational simulations.
Jagannath University Journal of Science, Volume 11, Number 1, June 2024, pp. 172−185
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Copyright (c) 2024 Hussain Muhammod Golam Rajique, Md Asraful Islam, Suvechchha Misty
This work is licensed under a Creative Commons Attribution 4.0 International License.