%0 Conference Paper %1 devooght2014random %A Devooght, Robin %A Mantrach, Amin %A Kivimäki, Ilkka %A Bersini, Hugues %A Jaimes, Alejandro %A Saerens, Marco %B Proceedings of the 23rd International Conference on World Wide Web %C Republic and Canton of Geneva, Switzerland %D 2014 %I International World Wide Web Conferences Steering Committee %K graph modularity path random walk www14 %P 213--224 %R 10.1145/2566486.2567986 %T Random Walks Based Modularity: Application to Semi-supervised Learning %U http://dx.doi.org/10.1145/2566486.2567986 %X Although criticized for some of its limitations, modularity remains a standard measure for analyzing social networks. Quantifying the statistical surprise in the arrangement of the edges of the network has led to simple and powerful algorithms. However, relying solely on the distribution of edges instead of more complex structures such as paths limits the extent of modularity. Indeed, recent studies have shown restrictions of optimizing modularity, for instance its resolution limit. We introduce here a novel, formal and well-defined modularity measure based on random walks. We show how this modularity can be computed from paths induced by the graph instead of the traditionally used edges. We argue that by computing modularity on paths instead of edges, more informative features can be extracted from the network. We verify this hypothesis on a semi-supervised classification procedure of the nodes in the network, where we show that, under the same settings, the features of the random walk modularity help to classify better than the features of the usual modularity. Additionally, the proposed approach outperforms the classical label propagation procedure on two data sets of labeled social networks. %@ 978-1-4503-2744-2

@inproceedings{devooght2014random, abstract = {Although criticized for some of its limitations, modularity remains a standard measure for analyzing social networks. Quantifying the statistical surprise in the arrangement of the edges of the network has led to simple and powerful algorithms. However, relying solely on the distribution of edges instead of more complex structures such as paths limits the extent of modularity. Indeed, recent studies have shown restrictions of optimizing modularity, for instance its resolution limit. We introduce here a novel, formal and well-defined modularity measure based on random walks. We show how this modularity can be computed from paths induced by the graph instead of the traditionally used edges. We argue that by computing modularity on paths instead of edges, more informative features can be extracted from the network. We verify this hypothesis on a semi-supervised classification procedure of the nodes in the network, where we show that, under the same settings, the features of the random walk modularity help to classify better than the features of the usual modularity. Additionally, the proposed approach outperforms the classical label propagation procedure on two data sets of labeled social networks.}, acmid = {2567986}, added-at = {2014-04-09T09:19:48.000+0200}, address = {Republic and Canton of Geneva, Switzerland}, author = {Devooght, Robin and Mantrach, Amin and Kivim\"{a}ki, Ilkka and Bersini, Hugues and Jaimes, Alejandro and Saerens, Marco}, biburl = {https://www.bibsonomy.org/bibtex/2352a847d3c6560d2f635afe5c9a324ea/thoni}, booktitle = {Proceedings of the 23rd International Conference on World Wide Web}, description = {Random walks based modularity, instead of link based modularity}, doi = {10.1145/2566486.2567986}, interhash = {f1ab1a5dffcb7b055a770a41d9c0698d}, intrahash = {352a847d3c6560d2f635afe5c9a324ea}, isbn = {978-1-4503-2744-2}, keywords = {graph modularity path random walk www14}, location = {Seoul, Korea}, numpages = {12}, pages = {213--224}, publisher = {International World Wide Web Conferences Steering Committee}, series = {WWW '14}, timestamp = {2016-09-06T08:23:07.000+0200}, title = {Random Walks Based Modularity: Application to Semi-supervised Learning}, url = {http://dx.doi.org/10.1145/2566486.2567986}, year = 2014 }