We demonstrate how a recent model of social networks (Affiliation Networks", [21]) offers powerful cues in local routing within social networks, a theme made famous by sociologist Milgram's six degrees of separation" experiments. This model posits the existence of an interest space" that underlies a social network; we prove that in networks produced by this model, not only do short paths exist among all pairs of nodes but natural local routing algorithms can discover them effectively. Specifically, we show that local routing can discover paths of length O(log2 n) to targets chosen uniformly at random, and paths of length O(1) to targets chosen with probability proportional to their degrees. Experiments on the co-authorship graph derived from DBLP data confirm our theoretical results, and shed light into the power of one step of lookahead in routing algorithms for social networks. Copyright © 2011 by the Association for Computing Machinery, Inc. (ACM).
Milgram-routing in social networks / Silvio, Lattanzi; Panconesi, Alessandro; D., Sivakumar. - (2011), pp. 725-734. (Intervento presentato al convegno 20th International Conference on World Wide Web, WWW 2011 tenutosi a Hyderabad nel 28 March 2011 through 1 April 2011) [10.1145/1963405.1963507].
Milgram-routing in social networks
PANCONESI, Alessandro;
2011
Abstract
We demonstrate how a recent model of social networks (Affiliation Networks", [21]) offers powerful cues in local routing within social networks, a theme made famous by sociologist Milgram's six degrees of separation" experiments. This model posits the existence of an interest space" that underlies a social network; we prove that in networks produced by this model, not only do short paths exist among all pairs of nodes but natural local routing algorithms can discover them effectively. Specifically, we show that local routing can discover paths of length O(log2 n) to targets chosen uniformly at random, and paths of length O(1) to targets chosen with probability proportional to their degrees. Experiments on the co-authorship graph derived from DBLP data confirm our theoretical results, and shed light into the power of one step of lookahead in routing algorithms for social networks. Copyright © 2011 by the Association for Computing Machinery, Inc. (ACM).I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
