Can the PageRank centrality be manipulated to obtain any desired ranking?

Contreras-Aso, Gonzalo; Criado, Regino; Romance, Miguel

doi:10.1063/5.0156226

Chaos: An Interdisciplinary Journal of Nonlinear Science

2023

DOI: 10.1063/5.0156226

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Can the PageRank centrality be manipulated to obtain any desired ranking?

Gonzalo Contreras-Aso,

Regino Criado,

Miguel Romance

Abstract: The significance of the PageRank algorithm in shaping the modern Internet cannot be overstated, and its complex network theory foundations continue to be a subject of research. In this article, we carry out a systematic study of the structural and parametric controllability of PageRank’s outcomes, translating a spectral graph theory problem into a geometric one, where a natural characterization of its rankings emerges. Furthermore, we show that the change of perspective employed can be applied to the biplex Pa… Show more

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2024

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Cited by 2 publications

References 17 publications

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Recent achievements in nonlinear dynamics, synchronization, and networks

Ghosh,

Marwan,

Small

et al. 2024

Chaos: An Interdisciplinary Journal of Nonlinear Science

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This Focus Issue covers recent developments in the broad areas of nonlinear dynamics, synchronization, and emergent behavior in dynamical networks. It targets current progress on issues such as time series analysis and data-driven modeling from real data such as climate, brain, and social dynamics. Predicting and detecting early warning signals of extreme climate conditions, epileptic seizures, or other catastrophic conditions are the primary tasks from real or experimental data. Exploring machine-based learning from real data for the purpose of modeling and prediction is an emerging area. Application of the evolutionary game theory in biological systems (eco-evolutionary game theory) is a developing direction for future research for the purpose of understanding the interactions between species. Recent progress of research on bifurcations, time series analysis, control, and time-delay systems is also discussed.

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Recent achievements in nonlinear dynamics, synchronization, and networks

Ghosh,

Marwan,

Small

et al. 2024

Chaos: An Interdisciplinary Journal of Nonlinear Science

View full text Add to dashboard Cite

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Influence Maximization in Temporal Social Networks with the Mixed K-Shell Method

Yang,

Zhu,

Zhang

et al. 2024

Electronics

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The study of influence maximizing in temporal social networks (IMT) is an important aspect of influence maximization (IM) research. Currently, two main types of algorithms can solve the IMT problem: greedy-based algorithms and heuristic-based algorithms. However, the greedy-based algorithm is too time-consuming to be used in practice, and most existing heuristic methods do not consider the attributes of nodes, resulting in these methods being unable to solve the IMT problem. Therefore, this paper proposes a mixed k-shell (MKS) algorithm, which considers nodes’ local and global attributes to characterize their influence and select seed nodes. At the local level, we consider the degree centrality of nodes, and at the global level, we propose the temporal k-shell decomposition (TKS) algorithm. Ultimately, the influence of a node is determined by combining the influence of itself and its neighbors. Experiments on four real temporal social networks show that MKS performs better in effectiveness than other heuristic baselines and can maintain a balance between effectiveness and efficiency, providing a useful solution for solving the IMT problem.

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Can the PageRank centrality be manipulated to obtain any desired ranking?

Cited by 2 publications

References 17 publications

Recent achievements in nonlinear dynamics, synchronization, and networks

Recent achievements in nonlinear dynamics, synchronization, and networks

Influence Maximization in Temporal Social Networks with the Mixed K-Shell Method

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