Inferring latent states in a network influenced by neighbor activities: An undirected generative approach

The problem of inferring the hidden state of individual nodes in social/sensor networks in which node activities affect their neighbors is growing in importance. We present an undirected generative model, a type of probabilistic model that has so far not been used for modeling latent variables influ...

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Bibliographic Details
Main Authors: Samarakoon, Buddhika L., Murthi, Manohar N., Premaratne, Kamal
Format: Conference Proceeding
Language:English
Subjects:
Computational modeling
exponential family
factor models
Hidden Markov models
latent sentiments
Network influence
Sampling methods
Social network services
stochastic gradient methods
Stochastic processes
Support vector machines
Training
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Summary:The problem of inferring the hidden state of individual nodes in social/sensor networks in which node activities affect their neighbors is growing in importance. We present an undirected generative model, a type of probabilistic model that has so far not been used for modeling latent variables influenced by neighbors in a network. We also propose an efficient inference method based on variational inference principles which, in contrast to sampling methods used in most existing models, is scalable to larger networks. While training is intractable in general, by using stochastic methods to approximate the intractable derivative, we show that our model can be trained using the maximum likelihood method by formulating the model as an exponential family distribution. The results demonstrate that the proposed undirected model can accurately infer latent states compared to baseline methods.
ISSN:2379-190X
DOI:10.1109/ICASSP.2017.7952581