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简单行为传播模型的数学分析

Mathematical analysis of simple behavioral epidemic models.

作者信息

LeJeune Leah, Ghaffarzadegan Navid, Childs Lauren M, Saucedo Omar

机构信息

Department of Mathematics, Virginia Tech, 225 Stanger St, Blacksburg, 24061, USA; Center for the Mathematics of Biosystems, Virginia Tech, Blacksburg, 24061, USA.

Department of Industrial and Systems Engineering, Virginia Tech, 7054 Haycock Rd, Falls Church, 22043, USA.

出版信息

Math Biosci. 2024 Sep;375:109250. doi: 10.1016/j.mbs.2024.109250. Epub 2024 Jul 14.

Abstract

COVID-19 highlighted the importance of considering human behavior change when modeling disease dynamics. This led to developing various models that incorporate human behavior. Our objective is to contribute to an in-depth, mathematical examination of such models. Here, we consider a simple deterministic compartmental model with endogenous incorporation of human behavior (i.e., behavioral feedback) through transmission in a classic Susceptible-Exposed-Infectious-Recovered (SEIR) structure. Despite its simplicity, the SEIR structure with behavior (SEIRb) was shown to perform well in forecasting, especially compared to more complicated models. We contrast this model with an SEIR model that excludes endogenous incorporation of behavior. Both models assume permanent immunity to COVID-19, so we also consider a modification of the models which include waning immunity (SEIRS and SEIRSb). We perform equilibria, sensitivity, and identifiability analyses on all models and examine the fidelity of the models to replicate COVID-19 data across the United States. Endogenous incorporation of behavior significantly improves a model's ability to produce realistic outbreaks. While the two endogenous models are similar with respect to identifiability and sensitivity, the SEIRSb model, with the more accurate assumption of the waning immunity, strengthens the initial SEIRb model by allowing for the existence of an endemic equilibrium, a realistic feature of COVID-19 dynamics. When fitting the model to data, we further consider the addition of simple seasonality affecting disease transmission to highlight the explanatory power of the models.

摘要

新冠疫情凸显了在对疾病动态进行建模时考虑人类行为变化的重要性。这促使人们开发了各种纳入人类行为的模型。我们的目标是为深入的此类模型数学研究做出贡献。在此,我们考虑一个简单的确定性 compartmental 模型,该模型通过在经典的易感 - 潜伏 - 感染 - 康复(SEIR)结构中的传播内源性地纳入人类行为(即行为反馈)。尽管其简单,但具有行为的 SEIR 结构(SEIRb)在预测方面表现良好,特别是与更复杂的模型相比。我们将此模型与一个排除行为内源性纳入的 SEIR 模型进行对比。两个模型都假设对新冠病毒具有永久免疫力,因此我们还考虑了对模型的修改,包括纳入免疫力减弱的情况(SEIRS 和 SEIRSb)。我们对所有模型进行平衡、敏感性和可识别性分析,并检查模型复制美国各地新冠疫情数据的逼真度。行为的内源性纳入显著提高了模型产生现实疫情爆发的能力。虽然两个内源性模型在可识别性和敏感性方面相似,但具有更准确的免疫力减弱假设的 SEIRSb 模型通过允许存在地方病平衡(这是新冠疫情动态的一个现实特征),加强了最初的 SEIRb 模型。在将模型与数据拟合时,我们进一步考虑添加影响疾病传播的简单季节性因素,以突出模型的解释力。

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