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Higher-order aggregate networks in the analysis of temporal networks: path structures and centralities

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  • Ingo Scholtes
  • Nicolas Wider
  • Antonios Garas

Abstract

Despite recent advances in the study of temporal networks, the analysis of time-stamped network data is still a fundamental challenge. In particular, recent studies have shown that correlations in the ordering of links crucially alter causal topologies of temporal networks, thus invalidating analyses based on static, time-aggregated representations of time-stamped data. These findings not only highlight an important dimension of complexity in temporal networks, but also call for new network-analytic methods suitable to analyze complex systems with time-varying topologies. Addressing this open challenge, here we introduce a novel framework for the study of path-based centralities in temporal networks. Studying betweenness, closeness and reach centrality, we first show than an application of these measures to time-aggregated, static representations of temporal networks yields misleading results about the actual importance of nodes. To overcome this problem, we define path-based centralities in higher-order aggregate networks, a recently proposed generalization of the commonly used static representation of time-stamped data. Using data on six empirical temporal networks, we show that the resulting higher-order measures better capture the true, temporal centralities of nodes. Our results demonstrate that higher-order aggregate networks constitute a powerful abstraction, with broad perspectives for the design of new, computationally efficient data mining techniques for time-stamped relational data. Copyright EDP Sciences, SIF, Springer-Verlag Berlin Heidelberg 2016

Suggested Citation

  • Ingo Scholtes & Nicolas Wider & Antonios Garas, 2016. "Higher-order aggregate networks in the analysis of temporal networks: path structures and centralities," The European Physical Journal B: Condensed Matter and Complex Systems, Springer;EDP Sciences, vol. 89(3), pages 1-15, March.
    • Handle: RePEc:spr:eurphb:v:89:y:2016:i:3:p:1-15:10.1140/epjb/e2016-60663-0
    DOI: 10.1140/epjb/e2016-60663-0
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    Cited by:

    1. Mandana Saebi & Jian Xu & Erin K Grey & David M Lodge & James J Corbett & Nitesh Chawla, 2020. "Higher-order patterns of aquatic species spread through the global shipping network," PLOS ONE, Public Library of Science, vol. 15(7), pages 1-24, July.
    2. Andrew Mellor, 2019. "Event Graphs: Advances And Applications Of Second-Order Time-Unfolded Temporal Network Models," Advances in Complex Systems (ACS), World Scientific Publishing Co. Pte. Ltd., vol. 22(03), pages 1-26, May.
    3. Funel, Agostino, 2022. "A method to compute the communicability of nodes through causal paths in temporal networks," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 593(C).
    4. Ayana Aspembitova & Ling Feng & Valentin Melnikov & Lock Yue Chew, 2019. "Fitness preferential attachment as a driving mechanism in bitcoin transaction network," PLOS ONE, Public Library of Science, vol. 14(8), pages 1-20, August.
    5. Cuiping Ren & Bianbian Chen & Fengjie Xie & Xuan Zhao & Jiaqian Zhang & Xueyan Zhou, 2022. "Understanding Hazardous Materials Transportation Accidents Based on Higher-Order Network Theory," IJERPH, MDPI, vol. 19(20), pages 1-13, October.
    6. Franch, Fabio & Nocciola, Luca & Vouldis, Angelos, 2024. "Temporal networks and financial contagion," Journal of Financial Stability, Elsevier, vol. 71(C).
    7. Yan Zhang & Frank Schweitzer, 2021. "Quantifying the importance of firms by means of reputation and network control," Papers 2101.05010, arXiv.org.
    8. Carolina Mattsson, 2019. "Networks of monetary flow at native resolution," Papers 1910.05596, arXiv.org.

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