Epidemic process on partially overlapped multi-layer networks

IF 2.2 3区物理与天体物理 Q2 MECHANICS

Journal of Statistical Mechanics: Theory and Experiment Pub Date : 2024-03-27 DOI:10.1088/1742-5468/ad2dd7

Xin Jiang, Quanyi Liang

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引用次数: 0

Abstract

The phenomenon of epidemic spread has received continuous attention due to its profound applications in a wide range of social and economic activities. In this paper we propose a partially overlapped multi-layer network model and illustrate the influence of multi-layer structure on outbreaks. Combined with the classic SIS model, we propose a set of discrete Markov equations and make first-order approximation on the threshold of epidemic outbreak. In comparison with independent simplex networks, we find that a multi-layer structure promotes epidemic spread and leads to a smaller critical threshold. In addition, we also find that the epidemic process on partially overlapped multi-layer networks is dominated by the layer with the largest main eigenvalue. Through Monte Carlo simulations, we find that the role of the dominant layer is irrelevant with its size, which means a small set of nodes can exhibit a disproportionate impact on the epidemics of a large network. Our research sheds light on the epidemic process on partially overlapped multi-layer complex systems, and provides a theoretical explanation of unexpected real-world outbreaks.

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部分重叠多层网络上的流行过程

流行病传播现象因其在广泛的社会和经济活动中的深刻应用而受到持续关注。本文提出了一个部分重叠的多层网络模型，并说明了多层结构对疫情爆发的影响。结合经典的 SIS 模型，我们提出了一组离散马尔可夫方程，并对流行病爆发的阈值进行了一阶近似。与独立的单纯形网络相比，我们发现多层结构会促进流行病的传播，并导致临界阈值变小。此外，我们还发现，部分重叠的多层网络上的流行过程由主特征值最大的层主导。通过蒙特卡洛模拟，我们发现主导层的作用与其规模无关，这意味着一组小节点会对大型网络的流行病产生不成比例的影响。我们的研究揭示了部分重叠多层复杂系统的流行过程，并为现实世界中的意外爆发提供了理论解释。

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

Journal of Statistical Mechanics: Theory and Experiment 物理-力学

CiteScore

4.50

自引率

12.50%

发文量

210

审稿时长

1.0 months

期刊介绍： JSTAT is targeted to a broad community interested in different aspects of statistical physics, which are roughly defined by the fields represented in the conferences called ''Statistical Physics''. Submissions from experimentalists working on all the topics which have some ''connection to statistical physics are also strongly encouraged. The journal covers different topics which correspond to the following keyword sections. 1. Quantum statistical physics, condensed matter, integrable systems Scientific Directors: Eduardo Fradkin and Giuseppe Mussardo 2. Classical statistical mechanics, equilibrium and non-equilibrium Scientific Directors: David Mukamel, Matteo Marsili and Giuseppe Mussardo 3. Disordered systems, classical and quantum Scientific Directors: Eduardo Fradkin and Riccardo Zecchina 4. Interdisciplinary statistical mechanics Scientific Directors: Matteo Marsili and Riccardo Zecchina 5. Biological modelling and information Scientific Directors: Matteo Marsili, William Bialek and Riccardo Zecchina