Dynamics and optimal control of a stochastic coronavirus (COVID-19) epidemic model with diffusion

Dynamics and optimal control of a stochastic coronavirus (COVID-19) epidemic model with diffusion

In view of the facts in the infection and propagation of COVID-19, a stochastic reaction–diffusion epidemic model is presented to analyse and control this infectious diseases. Stationary distribution and Turing instability of this model are discussed for deriving the sufficient criteria for the pers...

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Veröffentlicht in:Nonlinear dynamics 2022-07, Vol.109 (1), p.91-120
Hauptverfasser: Li, Yuxi, Wei, Zhouchao
Format: Artikel
Sprache:eng
Schlagworte:
Automotive Engineering
Classical Mechanics
Control
Control theory
Coronaviruses
COVID-19 vaccines
Disease transmission
Dynamical Systems
Engineering
Epidemics
Epidemiology
Hospitals
Infections
Infectious diseases
Mathematical models
Mechanical Engineering
Medical research
Nonlinear analysis
Optimal control
Ordinary differential equations
Original Paper
Population
Propagation
Quarantine
Series expansion
Severe acute respiratory syndrome coronavirus 2
Stability analysis
Stochastic models
Taylor series
Vibration
Viral diseases
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Zusammenfassung:In view of the facts in the infection and propagation of COVID-19, a stochastic reaction–diffusion epidemic model is presented to analyse and control this infectious diseases. Stationary distribution and Turing instability of this model are discussed for deriving the sufficient criteria for the persistence and extinction of disease. Furthermore, the amplitude equations are derived by using Taylor series expansion and weakly nonlinear analysis, and selection of Turing patterns for this model can be determined. In addition, the optimal quarantine control problem for reducing control cost is studied, and the differences between the two models are compared. By applying the optimal control theory, the existence and uniqueness of the optimal control and the optimal solution are obtained. Finally, these results are verified and illustrated by numerical simulation.
ISSN:0924-090X
1573-269X
DOI:10.1007/s11071-021-06998-9