Mathematical modelling of vector-borne diseases and insecticide resistance evolution

Kuniyoshi, Maria Laura Gabriel; Santos, Fernando Luiz Pio dos

doi:10.1186/s40409-017-0123-x

Cited by 12 publications

References 29 publications

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Mathematical assessment of a fractional‐order vector–host disease model with the Caputo–Fabrizio derivative

Chu

Khan

Ullah

et al. 2022

Math Methods in App Sciences

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Vector-host diseases outbreak is a major public health concern, and it has greatly affected human health and economy in various regions around the globe. Different approaches have been adopted to investigate the dynamical behavior and possible control of these diseases. In this study, we present a compartmental transmission model in order to explore the dynamics of vector-host infectious diseases. The saturated incidence rate instead of bilinear (or standard) and saturated treatment function is considered in model formulation which enhance the biological suitability of the proposed model. We first formulate the model based on nonlinear classical integer-order differential equations. Then, the proposed integer-order model is reformulated using the fractional-order operator in Caputo-Fabrizio sense with nonsingular kernel. We investigate the model equilibria and evaluate the expression for the most important threshold parameter known as the basic reproduction number. Furthermore, the existence and uniqueness are presented via the fixed point approach. Additionally, using an efficient numerical scheme, the iterative solution of the model is obtained.Finally, we present the model simulations to illustrate the impact of arbitrary fractional order and some of other important parameters involved in the model on the disease dynamics and minimization.

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