Stability of delayed fractional order SEIQRVW mathematical model for Omicron variant
S Dickson, S Padmasekaran… - International Journal of …, 2024 - Springer
International Journal of Dynamics and Control, 2024•Springer
The time delay between the conversion of susceptible individuals into infected individuals is
considered for the purpose of assessing the stability of the fractional order delay
mathematical model SEIQ I c RVW for the Omicron variant. The long delays led to the
pandemic's final containment. The endemic equilibrium and the disease-free equilibrium are
the two equilibrium points in this delayed model that are found. The local stability of the
models reveals that the stability requirements rely on the reproduction number R 0. We used …
considered for the purpose of assessing the stability of the fractional order delay
mathematical model SEIQ I c RVW for the Omicron variant. The long delays led to the
pandemic's final containment. The endemic equilibrium and the disease-free equilibrium are
the two equilibrium points in this delayed model that are found. The local stability of the
models reveals that the stability requirements rely on the reproduction number R 0. We used …
Abstract
The time delay between the conversion of susceptible individuals into infected individuals is considered for the purpose of assessing the stability of the fractional order delay mathematical model SEIQRVW for the Omicron variant. The long delays led to the pandemic’s final containment. The endemic equilibrium and the disease-free equilibrium are the two equilibrium points in this delayed model that are found. The local stability of the models reveals that the stability requirements rely on the reproduction number . We used numerical data for the graphical simulations to highlight the properties of the projected model for the time variable. We created many graphs for various fractional orders and time delays.
Springer
以上显示的是最相近的搜索结果。 查看全部搜索结果