Modeling infectious respiratory diseases considering fear effect and latent period

Q3 Mathematics

Results in Control and Optimization Pub Date : 2024-06-08 DOI:10.1016/j.rico.2024.100439

Shiv Mangal , O.P. Misra , Joydip Dhar

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Abstract

This paper introduces a fractional-order (FO) $S E I R$ epidemic model for respiratory diseases considering a non-human class $P (t)$ for pathogens to study the effects of fear and awareness programs on disease dynamics. Further, using the basic reproduction number $ℛ_{0}^{α}$ , the criteria for the extinction or persistence of the disease is established. Also, the conditions for Hopf bifurcation are derived, considering both FO ( $α$ ) and rate of pathogens $η$ as the bifurcation parameters. In addition, a detailed numerical simulation is performed to substantiate our theoretical results. The study of transmission dynamics of Tuberculosis (TB), a particular example of respiratory disease, is carried out in reference to the United States (US). Finally, we have estimated model parameters with the help of actual TB data from the US and then predicted the TB dynamics and disease control. It is pointed out that the fractional order can reduce the complexity of the model and better predict the dynamics of TB in the US than the integer order.

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考虑恐惧效应和潜伏期的呼吸道传染病建模

本文介绍了一种考虑到病原体的非人类类别 P(t) 的呼吸道疾病分数阶 (FO) SEIR 流行模型，以研究恐惧和宣传计划对疾病动态的影响。此外，利用基本繁殖数ℛ0α，建立了疾病消亡或持续存在的标准。同时，考虑到 FO (α) 和病原体率 η 都是分岔参数，得出了霍普夫分岔的条件。此外，还进行了详细的数值模拟，以证实我们的理论结果。我们以美国为例，对肺结核（TB）这一呼吸道疾病的传播动态进行了研究。最后，我们借助美国的实际结核病数据对模型参数进行了估计，然后对结核病的动态和疾病控制进行了预测。研究指出，与整数阶相比，分数阶可以降低模型的复杂性，更好地预测美国的结核病动态。

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