Variational iteration and successive approximation methods for a SIR epidemic model with constant vaccination strategy

2021 ◽  
Vol 90 ◽  
pp. 1-10
Author(s):  
Sudi Mungkasi
Keyword(s):  
Successive Approximation ◽  
Epidemic Model ◽  
Vaccination Strategy ◽  
Approximation Methods ◽  
Sir Epidemic Model ◽  
Variational Iteration ◽  
Sir Epidemic

scholarly journals On the Dynamical Complexity of a Seasonally Forced Discrete SIR Epidemic Model with a Constant Vaccination Strategy

Complexity ◽  
2018 ◽  
Vol 2018 ◽  
pp. 1-11 ◽  
Author(s):  
Jalil Rashidinia ◽  
Mehri Sajjadian ◽  
Jorge Duarte ◽  
Cristina Januário ◽  
Nuno Martins
Keyword(s):  
Epidemic Model ◽  
Complex Dynamics ◽  
Transmission Rate ◽  
Vaccination Strategy ◽  
Sir Epidemic Model ◽  
Sir Epidemic ◽  
Dynamical Complexity ◽  
Iterated Maps ◽  
Dynamical Behaviors ◽  
Dynamical Regimes

In this article, we consider the discretized classical Susceptible-Infected-Recovered (SIR) forced epidemic model to investigate the consequences of the introduction of different transmission rates and the effect of a constant vaccination strategy, providing new numerical and topological insights into the complex dynamics of recurrent diseases. Starting with a constant contact (or transmission) rate, the computation of the spectrum of Lyapunov exponents allows us to identify different chaotic regimes. Studying the evolution of the dynamical variables, a family of unimodal-type iterated maps with a striking biological meaning is detected among those dynamical regimes of the densities of the susceptibles. Using the theory of symbolic dynamics, these iterated maps are characterized based on the computation of an important numerical invariant, the topological entropy. The introduction of a degree (or amplitude) of seasonality, ε, is responsible for inducing complexity into the population dynamics. The resulting dynamical behaviors are studied using some of the previous tools for particular values of the strength of the seasonality forcing, ε. Finally, we carry out a study of the discrete SIR epidemic model under a planned constant vaccination strategy. We examine what effect this vaccination regime will have on the periodic and chaotic dynamics originated by seasonally forced epidemics.

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