TY - GEN
T1 - Scalable deep Poisson factor analysis for topic modeling
AU - Gan, Zhe
AU - Chen, Changyou
AU - Henao, Ricardo
AU - Carlson, David
AU - Carin, Lawrence
N1 - Publisher Copyright:
© Copyright 2015 by International Machine Learning Society (IMLS). All rights reserved.
PY - 2015
Y1 - 2015
N2 - A new framework for topic modeling is developed, based on deep graphical models, where interactions between topics are inferred through deep latent binary hierarchies. The proposed multi-layer model employs a deep sigmoid belief network or restricted Boltzmann machine, the bottom binary layer of which selects topics for use in a Poisson factor analysis model. Under this setting, topics live on the bottom layer of the model, while the deep specification serves as a flexible prior for revealing topic structure. Scalable inference algorithms are derived by applying Bayesian conditional density filtering algorithm, in addition to extending recently proposed work on stochastic gradient thermostats. Experimental results on several corpora show that the proposed approach readily handles very large collections of text documents, infers structured topic representations, and obtains superior test perplexities when compared with related models.
AB - A new framework for topic modeling is developed, based on deep graphical models, where interactions between topics are inferred through deep latent binary hierarchies. The proposed multi-layer model employs a deep sigmoid belief network or restricted Boltzmann machine, the bottom binary layer of which selects topics for use in a Poisson factor analysis model. Under this setting, topics live on the bottom layer of the model, while the deep specification serves as a flexible prior for revealing topic structure. Scalable inference algorithms are derived by applying Bayesian conditional density filtering algorithm, in addition to extending recently proposed work on stochastic gradient thermostats. Experimental results on several corpora show that the proposed approach readily handles very large collections of text documents, infers structured topic representations, and obtains superior test perplexities when compared with related models.
UR - https://www.scopus.com/pages/publications/84970024465
M3 - Conference contribution
AN - SCOPUS:84970024465
T3 - 32nd International Conference on Machine Learning, ICML 2015
SP - 1823
EP - 1832
BT - 32nd International Conference on Machine Learning, ICML 2015
A2 - Bach, Francis
A2 - Blei, David
PB - International Machine Learning Society (IMLS)
T2 - 32nd International Conference on Machine Learning, ICML 2015
Y2 - 6 July 2015 through 11 July 2015
ER -