Laplacian Dynamics and Multiscale Modular Structure in Networks
TLDR
In this article, the stability of a network partition is defined in terms of the statistical properties of a dy namical process taking place on the graph, and the connection between community detection and Laplacian dynamics enables them to establish dynamically motivated stability measures linked to distinct null models.Abstract:
Most methods proposed to uncover communities in complex networks rely on their structural properties. Here we introduce the stability of a network partition, a measure of its quality defined in terms of the statistical properties of a dy namical process taking place on the graph. The time-scale of the process acts as an intrinsic parameter that uncovers community structures at different resolutions. The stability extends and unifies standard notions for community detection: modularity and spectral partitioning can be seen as limiting cases of our dynamic measure. Similarly, recently proposed multi-resolution methods correspond to linearisations of the stability at short times. The connection between community detection and Laplacian dynamics enables us to establish dynamically motivated stability measures linked to distinct null models. We apply our method to find multi-scale partitions for different networks and show that the stability can be computedread more
Citations
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Community detection in graphs
TL;DR: A thorough exposition of community structure, or clustering, is attempted, from the definition of the main elements of the problem, to the presentation of most methods developed, with a special focus on techniques designed by statistical physicists.
Journal ArticleDOI
Community detection in graphs
TL;DR: A thorough exposition of the main elements of the clustering problem can be found in this paper, with a special focus on techniques designed by statistical physicists, from the discussion of crucial issues like the significance of clustering and how methods should be tested and compared against each other, to the description of applications to real networks.
Journal ArticleDOI
Community Structure in Time-Dependent, Multiscale, and Multiplex Networks
Peter J. Mucha,Thomas Richardson,Thomas Richardson,Kevin Macon,Mason A. Porter,Jukka-Pekka Onnela +5 more
TL;DR: A generalized framework of network quality functions was developed that allowed us to study the community structure of arbitrary multislice networks, which are combinations of individual networks coupled through links that connect each node in one network slice to itself in other slices.
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Communities in Networks
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Mathematical Formulation of Multilayer Networks
Manlio De Domenico,Albert Solé-Ribalta,Emanuele Cozzo,Mikko Kivelä,Yamir Moreno,Mason A. Porter,Sergio Gómez,Alex Arenas +7 more
TL;DR: In this paper, a tensorial framework for multilayer complex networks is introduced, and several important network descriptors and dynamical processes such as degree centrality, clustering coefficients, eigenvector centrality and modularity are discussed.
References
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Michelle Girvan,Mark Newman +1 more
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Normalized cuts and image segmentation
Jianbo Shi,Jitendra Malik +1 more
TL;DR: This work treats image segmentation as a graph partitioning problem and proposes a novel global criterion, the normalized cut, for segmenting the graph, which measures both the total dissimilarity between the different groups as well as the total similarity within the groups.
Journal ArticleDOI
Fast unfolding of communities in large networks
Vincent D. Blondel,Jean-Loup Guillaume,Jean-Loup Guillaume,Renaud Lambiotte,Renaud Lambiotte,Etienne Lefebvre +5 more
TL;DR: This work proposes a heuristic method that is shown to outperform all other known community detection methods in terms of computation time and the quality of the communities detected is very good, as measured by the so-called modularity.
Journal ArticleDOI
Finding and evaluating community structure in networks.
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