网络上扩展过程的单调收敛性

IF 0.9 4区管理学 Q4 OPERATIONS RESEARCH & MANAGEMENT SCIENCE

Operations Research Letters Pub Date : 2025-09-15 DOI:10.1016/j.orl.2025.107363

Gadi Fibich, Amit Golan, Steven Schochet

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引用次数: 0

摘要

我们分别在同质完全网络、一维网络和异质双群体完全网络上分析了创新和流行病传播的Bass和SI模型。我们允许网络参数是时间相关的，这是分析网络上最优促销策略的先决条件。利用一种新颖的自顶向下的主方程分析方法，我们给出了这些模型在各自的无穷种群极限下单调收敛的简单证明。这导致Bass和SI模型中具有时间依赖参数的无限齐次完全网络和圆形网络以及异构两组完全网络中预期采用或感染水平的显式表达式。

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Monotone convergence of spreading processes on networks

We analyze the Bass and SI models for the spreading of innovations and epidemics, respectively, on homogeneous complete networks, on one-dimensional networks, and on heterogeneous two-groups complete networks. We allow the network parameters to be time dependent, which is a prerequisite for the analysis of optimal promotional strategies on networks. Using a novel top-down analysis of the master equations, we present a simple proof for the monotone convergence of these models to their respective infinite-population limits. This leads to explicit expressions for the expected adoption or infection level in the Bass and SI models with time-dependent parameters on infinite homogeneous complete and circular networks, and on heterogeneous two-groups complete networks.

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来源期刊

Operations Research Letters 管理科学-运筹学与管理科学

CiteScore

2.10

自引率

9.10%

发文量

111

审稿时长

83 days

期刊介绍： Operations Research Letters is committed to the rapid review and fast publication of short articles on all aspects of operations research and analytics. Apart from a limitation to eight journal pages, quality, originality, relevance and clarity are the only criteria for selecting the papers to be published. ORL covers the broad field of optimization, stochastic models and game theory. Specific areas of interest include networks, routing, location, queueing, scheduling, inventory, reliability, and financial engineering. We wish to explore interfaces with other fields such as life sciences and health care, artificial intelligence and machine learning, energy distribution, and computational social sciences and humanities. Our traditional strength is in methodology, including theory, modelling, algorithms and computational studies. We also welcome novel applications and concise literature reviews.