A new semi-local centrality for identifying influential nodes based on local average shortest path with extended neighborhood

Xiao, Yi; Chen, Yuan; Zhang, Hongyan; Zhu, Xinghui; Yang, Yimin; Zhu, Xiaoping

doi:10.1007/s10462-024-10725-2

Artif Intell Rev

2024

DOI: 10.1007/s10462-024-10725-2

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A new semi-local centrality for identifying influential nodes based on local average shortest path with extended neighborhood

Yi Xiao,

Yuan Chen,

Hongyan Zhang

et al.

Abstract: Quantifying the importance of nodes in complex networks is known as the problem of identifying influential nodes and is considered a critical aspect in interacting with these networks. This problem has many applications such as controlling rumors, sickness spreading, and viral marketing, where its importance has been understood by the research society in the last decade. This paper proposes a new semi-local centrality to identify influential nodes in complex networks based on the theory of Local Average Shorte… Show more

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Cited by 3 publications

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Reliable multiplex semi-local random walk based on influential nodes to improve link prediction in complex networks

Li,

Tang,

Zhou

et al. 2024

Artif Intell Rev

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In recent years, the exponential growth of online social networks as complex networks has presented challenges in expanding networks and forging new connections. Link prediction emerges as a crucial technique to anticipate future relationships among users, leveraging the current network state to address this challenge effectively. While link prediction models on monoplex networks have a well-established history, the exploration of similar tasks on multilayer networks has garnered considerable attention. Extracting topological and multimodal features for weighting links can improve link prediction in weighted complex networks. Meanwhile, establishing reliable and trustworthy paths between users is a useful way to create metrics that convert unweighted to weighted similarity. The local random walk is a widely used technique for predicting links in weighted monoplex networks. The aim of this paper is to develop a semi-local random walk over reliable paths to improve link prediction on a multilayer social network as a complex network, which is denoted as Reliable Multiplex semi-Local Random Walk (RMLRW). RMLRW leverages the semi-local random walk technique over reliable paths, integrating intra-layer and inter-layer information from multiplex features to conduct a trustworthy biased random walk for predicting new links within a target layer of multilayer networks. In order to make RMLRW scalable, we develop a semi-local random walk-based network embedding to represent the network in a lower-dimensional space while preserving its original characteristics. Extensive experimental studies on several real-world multilayer networks demonstrate the performance assurance of RMLRW compared to equivalent methods. Specifically, RMLRW improves the average f-measure of the link prediction by 3.2% and 2.5% compared to SEM-Path and MLRW, respectively.

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Reliable multiplex semi-local random walk based on influential nodes to improve link prediction in complex networks

Li,

Tang,

Zhou

et al. 2024

Artif Intell Rev

View full text Add to dashboard Cite

show abstract

Development of a multidimensional centrality metric for ranking nodes in complex networks

Meng,

Rezaeipanah

2025

Chaos, Solitons & Fractals

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TLFSL: link prediction in multilayer social networks using trustworthy Lévy-flight semi-local random walk

Liu,

Jannesari

2024

Journal of Complex Networks

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As the landscape of online social networks continues to evolve, the task of expanding connections and uncovering novel relationships presents a growing complexity. Link prediction emerges as a crucial strategy, harnessing the current network dynamics to forecast future interactions among users. While traditional single-layer network link prediction models boast a storied legacy, recent attention has shifted towards tackling analogous challenges within the realm of multilayer networks. This paradigm shift underscores the critical role of extracting topological and multimodal features to effectively evaluate link weights, thereby enriching link prediction within weighted networks. Furthermore, the establishment of trustworthy pathways between users emerges as a pivotal tactic for translating unweighted similarities into meaningful weighted metrics. Leveraging the foundational principles of local random walk techniques, this paper introduces the trustworthy Lévy-flight semi-local (TLFSL) random walk framework for link prediction in multilayer social networks. By seamlessly integrating intralayer and interlayer information, TLFSL harnesses a dependable Lévy-flight random walk mechanism to anticipate new links within target layers of multilayer networks. Traditional local random walk techniques often overlook global relationships, as they confine path exploration to immediate neighbours. However, the absence of a direct edge between nodes does not necessarily imply a lack of relationship; nodes with semantic affinity may be spatially distant within the network. To overcome this limitation, we introduce the concept of semi-local random walk, which enables walker hopping with a wider global perspective. Meanwhile, TLFSL includes a distributed local community detection strategy to improve the performance of TLFSL in dealing with large-scale networks. Rigorous experimentation across diverse real-world multilayer networks consistently demonstrates TLFSL’s superior performance compared to equivalent methods.

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A new semi-local centrality for identifying influential nodes based on local average shortest path with extended neighborhood

Cited by 3 publications

References 44 publications

Reliable multiplex semi-local random walk based on influential nodes to improve link prediction in complex networks

Reliable multiplex semi-local random walk based on influential nodes to improve link prediction in complex networks

Development of a multidimensional centrality metric for ranking nodes in complex networks

TLFSL: link prediction in multilayer social networks using trustworthy Lévy-flight semi-local random walk

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