Factored 3-Way Restricted Boltzmann Machines For Modeling Natural Images

Marc’Aurelio Ranzato; Alex Krizhevsky; Geoffrey Hinton

2010 AISTATS AISTATS 2010

Factored 3-Way Restricted Boltzmann Machines For Modeling Natural Images

Abstract

Deep belief nets have been successful in modeling handwritten characters, but it has proved more difficult to apply them to real images. The problem lies in the restricted Boltzmann machine (RBM) which is used as a module for learning deep belief nets one layer at a time. The Gaussian-Binary RBMs that have been used to model real-valued data are not a good way to model the covariance structure of natural images. We propose a factored 3-way RBM that uses the states of its hidden units to represent abnormalities in the local covariance structure of an image. This provides a probabilistic framework for the widely used simple/complex cell architecture. Our model learns binary features that work very well for object recognition on the “tiny images” data set. Even better features are obtained by then using standard binary RBM’s to learn a deeper model.

🚀 Conference Pioneer — AISTATS 2010

🌉 Interdisciplinary Bridge — Computer Vision and Deep Learning and Machine Learning

📈 Trend Setter — Image Generation

🧭 Keyword Pioneer — covariance structure

🐣 Hot Topic Early Bird — feature learning

🐝 Cross-Pollinator — Artificial Intelligence, Computer Science, Computer Vision, Data Science & Analytics, Deep Learning, Healthcare & Medicine, Interdisciplinary, Knowledge & Reasoning, Machine Learning, Mathematics & Optimization, Natural Language Processing, Reinforcement Learning, Robotics, Security & Privacy, Speech & Audio

Authors

Marc’Aurelio Ranzato , Alex Krizhevsky , Geoffrey Hinton

Topics

Machine Learning > Core Methods > Representation Learning Computer Vision > Generation > Image Generation Deep Learning > Models > Neural Networks

Keywords

feature learning object recognition natural images covariance structure restricted boltzmann machine deep belief network binary feature image covariance

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