Hidden geometric correlations in real multiplex networks
January 15, 2016 Β· Declared Dead Β· π Nature Physics
"No code URL or promise found in abstract"
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Authors
Kaj-Kolja Kleineberg, Marian Boguna, M. Angeles Serrano, Fragkiskos Papadopoulos
arXiv ID
1601.04071
Category
physics.soc-ph
Cross-listed
cs.SI,
physics.data-an
Citations
102
Venue
Nature Physics
Last Checked
4 months ago
Abstract
Real networks often form interacting parts of larger and more complex systems. Examples can be found in different domains, ranging from the Internet to structural and functional brain networks. Here, we show that these multiplex systems are not random combinations of single network layers. Instead, they are organized in specific ways dictated by hidden geometric correlations between the individual layers. We find that these correlations are strong in different real multiplexes, and form a key framework for answering many important questions. Specifically, we show that these geometric correlations facilitate: (i) the definition and detection of multidimensional communities, which are sets of nodes that are simultaneously similar in multiple layers; (ii) accurate trans-layer link prediction, where connections in one layer can be predicted by observing the hidden geometric space of another layer; and (iii) efficient targeted navigation in the multilayer system using only local knowledge, which outperforms navigation in the single layers only if the geometric correlations are sufficiently strong. Our findings uncover fundamental organizing principles behind real multiplexes and can have important applications in diverse domains.
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