A framework for the modelling and the analysis of epidemiological spread in commuting populations

arXiv - QuanBio - Populations and Evolution Pub Date : 2024-08-28 DOI:arxiv-2408.15634

Pierre-Alexandre BlimanMUSCLEES, Boureima SangaréUNB, Assane SavadogoMUSCLEES, UNB

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Abstract

In the present paper, our goal is to establish a framework for the mathematical modelling and the analysis of the spread of an epidemic in a large population commuting regularly, typically along a time-periodic pattern, as is roughly speaking the case in populous urban center. We consider a large number of distinct homogeneous groups of individuals of various sizes, called subpopulations, and focus on the modelling of the changing conditions of their mixing along time and of the induced disease transmission. We propose a general class of models in which the 'force of infection' plays a central role, which attempts to 'reconcile' the classical modelling approaches in mathematical epidemiology, based on compartmental models, with some widely used analysis results (including those by P. van den Driessche and J. Watmough in 2002), established for apparently less structured systems of nonlinear ordinary-differential equations. We take special care in explaining the modelling approach in details, and provide analysis results that allow to compute or estimate the value of the basic reproduction number for such general periodic epidemic systems.

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通勤人群中流行病传播的建模和分析框架

在本文中，我们的目标是建立一个数学建模框架，并分析流行病在大量人口中的传播情况，这些人口通常是按时间周期规律定期通勤的，人口众多的城市中心就是这种情况。我们考虑了大量由不同规模的个体组成的不同同质群体（称为亚群体），并重点研究了这些群体的混杂条件随时间的变化以及诱发疾病传播的模型。我们提出了一类以 "感染力 "为核心的通用模型，试图 "调和 "数学流行病学中以分室模型为基础的经典建模方法和一些广泛使用的分析结果（包括 P. van den Driessche 和 J. Watmough 在 2002 年提出的分析结果），这些分析结果是针对结构显然不太严谨的非线性常微分方程系统建立的。我们特别注意详细解释建模方法，并提供分析结果，以便计算或估计这类一般周期性流行病系统的基本繁殖数值。

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arXiv - QuanBio - Populations and Evolution

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