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Marco Caninis's Publications

Second order centrality: distributed assessment of nodes importance in complex networks
Zitatschlüssel KMST-SOCDANICN-11
Autor Kermarrec, Anne-Marie and Le Merrer, Erwan and Sericola, Bruno and Trédan Gilles
Seiten 619–628
Jahr 2011
ISSN 0140-3664
DOI http://dx.doi.org/10.1016/j.comcom.2010.06.007
Journal Elsevier Journal of Computer Communications
Jahrgang 34
Nummer 5
Notiz Special Issue on Complex Networks
Zusammenfassung A complex network can be modeled as a graph representing the ``who knows who'' relationship. In the context of graph theory for social networks, the notion of centrality is used to assess the relative importance of nodes in a given network topology. For example, in a network composed of large dense clusters connected through only a few links, the nodes involved in those links are particularly critical as far as the network survivability is concerned. This may also impact any application running on top of it. Such information can be exploited for various topological maintenance issues to prevent congestion and disruption. This can also be used offline to identify the most important actors in large social interaction graphs. Several forms of centrality have been proposed so far. Yet, they suffer from imperfections: initially designed for small social graphs, they are either of limited use (degree centrality), either incompatible in a distributed setting (e.g. random walk betweenness centrality). In this paper we introduce a novel form of centrality: the second order centrality which can be computed in a distributed manner. This provides locally each node with a value reflecting its relative criticity and relies on a random walk visiting the network in an unbiased fashion. To this end, each node records the time elapsed between visits of that random walk (called return time in the sequel) and computes the standard deviation (or second order moment) of such return times. The key point is that central nodes see regularly the random walk compared to other topology nodes. Both through theoretical analysis and simulation, we show that the standard deviation can be used to accurately identify critical nodes as well as to globally characterize graphs topology in a distributed way. We finally compare our proposal to well-known centralities to assess its competitivity.
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