Competitive epidemic networks with multiple survival-of-the-fittest outcomes

IF 2.1 3区计算机科学 Q3 AUTOMATION & CONTROL SYSTEMS Systems & Control Letters Pub Date : 2024-09-02 DOI:10.1016/j.sysconle.2024.105907

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Abstract

We use a deterministic model to study two competing viruses spreading over a two-layer network in the Susceptible–Infected–Susceptible (SIS) framework, and address a central problem of identifying the winning virus in a “survival-of-the-fittest” battle. Almost all existing conditions ensure that the same virus wins regardless of initial states. In the present paper, we ask the following question: can we systematically construct SIS bivirus networks with an arbitrary but finite number of nodes such that either of the viruses can win the survival-of-the-fittest battle, depending on the initial states? We answer this question in the affirmative. More specifically, we show that given almost any network layer of one virus, we can (using our proposed systematic four-step procedure) construct the network layer for the other virus such that in the resulting bivirus network, either of the two viruses can win the survival-of-the-fittest battle. Conclusions from numerical case studies, including a real-world mobility network that captures the commuting patterns for people between 107 provinces in Italy, illustrate and extend the theoretical result and its consequences.

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具有多种优胜劣汰结果的竞争性流行病网络

我们使用一个确定性模型，在易感-感染-易感（SIS）框架内研究两种在双层网络上传播的竞争病毒，并解决在 "适者生存 "的战斗中确定获胜病毒的核心问题。几乎所有现有条件都能确保同一种病毒获胜，而不受初始状态的影响。在本文中，我们提出了以下问题：我们能否系统地构建具有任意但有限数量节点的 SIS 双病毒网络，从而使任一病毒都能在适者生存之战中获胜（取决于初始状态）？我们给出了肯定的答案。更具体地说，我们证明，给定一种病毒的几乎任何网络层，我们都可以（使用我们提出的系统化四步程序）构建另一种病毒的网络层，从而在生成的双病毒网络中，两种病毒中的任何一种都能赢得适者生存之战。数值案例研究的结论（包括捕捉意大利 107 个省之间人员通勤模式的现实世界流动网络）说明并扩展了理论结果及其后果。

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

Systems & Control Letters 工程技术-运筹学与管理科学

CiteScore

4.60

自引率

3.80%

发文量

144

审稿时长

6 months

期刊介绍： Founded in 1981 by two of the pre-eminent control theorists, Roger Brockett and Jan Willems, Systems & Control Letters is one of the leading journals in the field of control theory. The aim of the journal is to allow dissemination of relatively concise but highly original contributions whose high initial quality enables a relatively rapid review process. All aspects of the fields of systems and control are covered, especially mathematically-oriented and theoretical papers that have a clear relevance to engineering, physical and biological sciences, and even economics. Application-oriented papers with sophisticated and rigorous mathematical elements are also welcome.