Pattern dynamics of networked epidemic model with higher-order infections.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Jiaojiao Guo, Xing Li, Runzi He, Xiaofeng Luo, Zun-Guang Guo, Gui-Quan Sun
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引用次数: 0

Abstract

Current research on pattern formations in networked reaction-diffusion (RD) systems predominantly focuses on the impacts of diffusion heterogeneity between nodes, often overlooking the contact heterogeneity between individuals within nodes in the reaction terms. In this paper, we establish a networked RD model incorporating infection through higher-order interaction in simplicial complexes in the reaction terms. Through theoretical and numerical analysis, we find that these higher-order interactions may induce Turing instability in the system. Notably, the relationship between the size of the Turing instability range and the average 2-simplices degree within nodes can be approximated by a quadratic function. Additionally, as the average 2-simplices degree increases, the amplitude of the patterns exhibits three distinct trends: increasing, decreasing, and initially increasing then decreasing, while the average infection density increases consistently. We then provide a possible explanation for these observations. Our findings offer new insights into the effects of contact heterogeneity within nodes on networked pattern formations, thereby informing the development of epidemic prevention and control measures.

具有高阶感染的网络流行病模型的模式动力学。
目前关于网络化反应-扩散(RD)系统中模式形成的研究主要集中在节点间扩散异质性的影响上,往往忽略了反应项中节点内个体间接触异质性的影响。在本文中,我们建立了一个网络化 RD 模型,在反应项中加入了通过简单复合物中的高阶交互作用进行的感染。通过理论和数值分析,我们发现这些高阶相互作用可能会诱发系统的图灵不稳定性。值得注意的是,图灵不稳定性范围的大小与节点内平均 2 简单度之间的关系可以用二次函数来近似表示。此外,随着平均 2-简化度的增加,模式的振幅呈现出三种不同的趋势:增加、减少和先增加后减少,而平均感染密度则持续增加。然后,我们为这些观察结果提供了可能的解释。我们的发现为节点内接触异质性对网络模式形成的影响提供了新的见解,从而为制定流行病预防和控制措施提供了参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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