Hanjo D. Boekhout scite author profile

This paper proposes novel algorithms for efficiently counting complex network motifs in dynamic networks that are changing over time. Network motifs are small characteristic configurations of a few nodes and edges, and have repeatedly been shown to provide insightful information for understanding the meso-level structure of a network. Here, we deal with counting more complex temporal motifs in large-scale networks that may consist of millions of nodes and edges. The first contribution is an efficient approach to count temporal motifs in multilayer networks and networks with partial timing, two prevalent aspects of many real-world complex networks. We analyze the complexity of these algorithms and empirically validate their performance on a number of real-world user communication networks extracted from online knowledge exchange platforms. Among other things, we find that the multilayer aspects provide significant insights in how complex user interaction patterns differ substantially between online platforms. The second contribution is an analysis of the viability of motif counting algorithms for motifs that are larger than the triad motifs studied in previous work. We provide a novel categorization of motifs of size four, and determine how and at what computational cost these motifs can still be counted efficiently. In doing so, we delineate the “computational frontier” of temporal motif counting algorithms.

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Fast incremental computation of harmonic closeness centrality in directed weighted networks

Putman

Boekhout

Takes

2019

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Counting Multilayer Temporal Motifs in Complex Networks

Boekhout

Kosters

Takes

2018

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Investigating scientific mobility in co-authorship networks using multilayer temporal motifs

Boekhout¹,

Traag²,

Takes³

2021

Net Sci

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This paper introduces a framework for understanding complex temporal interaction patterns in large-scale scientific collaboration networks. In particular, we investigate how two key concepts in science studies, scientific collaboration and scientific mobility, are related and possibly differ between fields. We do so by analyzing multilayer temporal motifs: small recurring configurations of nodes and edges.Driven by the problem that many papers share the same publication year, we first provide a methodological contribution: an efficient counting algorithm for multilayer temporal motifs with concurrent edges. Next, we introduce a systematic categorization of the multilayer temporal motifs, such that each category reflects a pattern of behavior relevant to scientific collaboration and mobility. Here, a key question concerns the causal direction: does mobility lead to collaboration or vice versa? Applying this framework to scientific collaboration networks extracted from Web of Science (WoS) consisting of up to 7.7 million nodes (authors) and 94 million edges (collaborations), we find that international collaboration and international mobility reciprocally influence one another. Additionally, we find that Social sciences & Humanities (SSH) scholars co-author to a greater extent with authors at a distance, while Mathematics & Computer science (M&C) scholars tend to continue to collaborate within the established knowledge network and organization.

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Explainable and Efficient Link Prediction in Real-World Network Data

Engelen

Boekhout

Takes

2016

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Hanjo D. Boekhout

Efficiently counting complex multilayer temporal motifs in large-scale networks

Fast incremental computation of harmonic closeness centrality in directed weighted networks

Counting Multilayer Temporal Motifs in Complex Networks

Investigating scientific mobility in co-authorship networks using multilayer temporal motifs

Explainable and Efficient Link Prediction in Real-World Network Data

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