DocumentCode
3165867
Title
Influence-Based Network-Oblivious Community Detection
Author
Barbieri, Nicola ; Bonchi, Francesco ; Manco, Giuseppe
Author_Institution
Yahoo Labs., Barcelona, Spain
fYear
2013
fDate
7-10 Dec. 2013
Firstpage
955
Lastpage
960
Abstract
How can we detect communities when the social graphs is not available? We tackle this problem by modeling social contagion from a log of user activity, that is a dataset of tuples (u, i, t) recording the fact that user u "adopted" item i at time t. This is the only input to our problem. We propose a stochastic framework which assumes that item adoptions are governed by un underlying diffusion process over the unobserved social network, and that such diffusion model is based on community-level influence. By fitting the model parameters to the user activity log, we learn the community membership and the level of influence of each user in each community. This allows to identify for each community the "key" users, i.e., the leaders which are most likely to influence the rest of the community to adopt a certain item. The general framework can be instantiated with different diffusion models. In this paper we define two models: the extension to the community level of the classic (discrete time) Independent Cascade model, and a model that focuses on the time delay between adoptions. To the best of our knowledge, this is the first work studying community detection without the network.
Keywords
learning (artificial intelligence); social networking (online); stochastic processes; classic independent cascade model; community membership learning; community-level influence; diffusion model; diffusion process; influence-based network-oblivious community detection; item adoptions; social contagion modelling; social network; stochastic framework; user activity log; Adaptation models; Communities; Delays; Peer-to-peer computing; Social network services; Standards; Stochastic processes; community detection; social influence;
fLanguage
English
Publisher
ieee
Conference_Titel
Data Mining (ICDM), 2013 IEEE 13th International Conference on
Conference_Location
Dallas, TX
ISSN
1550-4786
Type
conf
DOI
10.1109/ICDM.2013.164
Filename
6729581
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