A Weighted Artificial Bee Colony algorithm for influence maximization

Q1 Social Sciences Online Social Networks and Media Pub Date : 2021-11-01 DOI:10.1016/j.osnem.2021.100167
Riccardo Cantini, Fabrizio Marozzo, Silvio Mazza, Domenico Talia, Paolo Trunfio
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引用次数: 5

Abstract

Social media platforms are increasingly used to convey advertising campaigns for products or services. A key issue is to identify an appropriate set of influencers within a social network, investing resources to get them to adopt a product. Influence maximization is an optimization problem that aims at finding a small set of users that maximize the spread of influence in a social network. In this paper we propose an influence maximization algorithm, named Weighted Artificial Bee Colony (WABC), that is based on a bio-inspired technique for identifying a subset of users which maximizes the spread. The proposed algorithm has been applied to a case study that analyzes the propagation of information among Twitter users during the Constitutional Referendum held in Italy in 2016. Our analysis is aimed at identifying the main influencers of the yes and no factions, and deriving the main information diffusion strategies of each faction during the political campaign. WABC outperformed ranking-proxy techniques based on classical centrality measures, i.e., PageRank, Rank and Degree. Even compared to DIRIE, which exploits a more complex algorithm, WABC was able to find a more accurate set of users which allows to maximize the spread in almost all the considered configurations.

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影响最大化的加权人工蜂群算法
社交媒体平台越来越多地被用来传达产品或服务的广告活动。一个关键问题是在社交网络中确定一组合适的影响者,投资资源让他们采用一种产品。影响力最大化是一个优化问题,旨在找到一小部分用户,最大限度地扩大社交网络中的影响力。在本文中,我们提出了一种影响力最大化算法,称为加权人工蜂群(WABC),该算法基于一种生物启发技术,用于识别最大化传播的用户子集。所提出的算法已应用于一项案例研究,该研究分析了2016年意大利宪法公投期间推特用户之间的信息传播。我们的分析旨在确定赞成派和反对派的主要影响者,并得出每个派别在政治竞选期间的主要信息传播策略。WABC优于基于经典中心性度量的排名代理技术,即PageRank、Rank和Degree。即使与利用更复杂算法的DIRIE相比,WABC也能够找到一组更准确的用户,从而在几乎所有考虑的配置中最大限度地扩大传播。
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来源期刊
Online Social Networks and Media
Online Social Networks and Media Social Sciences-Communication
CiteScore
10.60
自引率
0.00%
发文量
32
审稿时长
44 days
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