Litcius/Paper detail

Information Propagation in Hypergraph-Based Social Networks

Hai-Bing Xiao, Feng Hu, Pengyue Li, Yurong Song, Zi‐Ke Zhang

2024Entropy17 citationsDOIOpen Access PDF

Abstract

Social networks, functioning as core platforms for modern information dissemination, manifest distinctive user clustering behaviors and state transition mechanisms, thereby presenting new challenges to traditional information propagation models. Based on hypergraph theory, this paper augments the traditional SEIR model by introducing a novel hypernetwork information dissemination SSEIR model specifically designed for online social networks. This model accurately represents complex, multi-user, high-order interactions. It transforms the traditional single susceptible state (S) into active (Sa) and inactive (Si) states. Additionally, it enhances traditional information dissemination mechanisms through reaction process strategies (RP strategies) and formulates refined differential dynamical equations, effectively simulating the dissemination and diffusion processes in online social networks. Employing mean field theory, this paper conducts a comprehensive theoretical derivation of the dissemination mechanisms within the SSEIR model. The effectiveness of the model in various network structures was verified through simulation experiments, and its practicality was further validated by its application on real network datasets. The results show that the SSEIR model excels in data fitting and illustrating the internal mechanisms of information dissemination within hypernetwork structures, further clarifying the dynamic evolutionary patterns of information dissemination in online social hypernetworks. This study not only enriches the theoretical framework of information dissemination but also provides a scientific theoretical foundation for practical applications such as news dissemination, public opinion management, and rumor monitoring in online social networks.

Topics & Concepts

Computer scienceDisseminationInformation DisseminationRumorHypergraphProcess (computing)Theoretical computer scienceData scienceCluster analysisSocial mediaComplex networkSocial network (sociolinguistics)Information exchangeData miningDistributed computingMachine learningWorld Wide WebMathematicsTelecommunicationsDiscrete mathematicsPublic relationsPolitical scienceOperating systemComplex Network Analysis TechniquesOpinion Dynamics and Social InfluencePeer-to-Peer Network Technologies