UFLDL Recommended Readings
From Ufldl
Line 20: | Line 20: | ||
Analyzing deep learning/why does deep learning work: | Analyzing deep learning/why does deep learning work: | ||
* [http://www.cs.toronto.edu/~larocheh/publications/deep-nets-icml-07.pdf] H. Larochelle, D. Erhan, A. Courville, J. Bergstra, and Y. Bengio. An Empirical Evaluation of Deep Architectures on Problems with Many Factors of Variation. ICML 2007. | * [http://www.cs.toronto.edu/~larocheh/publications/deep-nets-icml-07.pdf] H. Larochelle, D. Erhan, A. Courville, J. Bergstra, and Y. Bengio. An Empirical Evaluation of Deep Architectures on Problems with Many Factors of Variation. ICML 2007. | ||
- | ** (Someone read this and let us know if this is worth keeping,. [Most model related material already covered by other papers, not many conclusions can be made from results]) | + | ** (Someone read this and let us know if this is worth keeping,. [Most model related material already covered by other papers, it seems not many impactful conclusions can be made from results, but can serve as reading for reinforcement for deep models]) |
* [http://www.jmlr.org/papers/volume11/erhan10a/erhan10a.pdf] Dumitru Erhan, Yoshua Bengio, Aaron Courville, Pierre-Antoine Manzagol, Pascal Vincent, and Samy Bengio. Why Does Unsupervised Pre-training Help Deep Learning? JMLR 2010 | * [http://www.jmlr.org/papers/volume11/erhan10a/erhan10a.pdf] Dumitru Erhan, Yoshua Bengio, Aaron Courville, Pierre-Antoine Manzagol, Pascal Vincent, and Samy Bengio. Why Does Unsupervised Pre-training Help Deep Learning? JMLR 2010 | ||
* [http://cs.stanford.edu/~ang/papers/nips09-MeasuringInvariancesDeepNetworks.pdf] Ian J. Goodfellow, Quoc V. Le, Andrew M. Saxe, Honglak Lee and Andrew Y. Ng. Measuring invariances in deep networks. NIPS 2009. | * [http://cs.stanford.edu/~ang/papers/nips09-MeasuringInvariancesDeepNetworks.pdf] Ian J. Goodfellow, Quoc V. Le, Andrew M. Saxe, Honglak Lee and Andrew Y. Ng. Measuring invariances in deep networks. NIPS 2009. | ||
Line 28: | Line 28: | ||
* [http://deeplearning.net/tutorial/rbm.html] Tutorial on RBMs. | * [http://deeplearning.net/tutorial/rbm.html] Tutorial on RBMs. | ||
** But ignore the Theano code examples. | ** But ignore the Theano code examples. | ||
- | ** (Someone tell us if this should be moved later. Useful for understanding some of DL literature, but not needed for many of the later papers? [Seems ok to leave in, useful introduction if reader had no idea about RBM's | + | ** (Someone tell us if this should be moved later. Useful for understanding some of DL literature, but not needed for many of the later papers? [Seems ok to leave in, useful introduction if reader had no idea about RBM's, and have to deal with Hinton's 06 Science paper or 3-way RBM's right away]) |
Line 61: | Line 61: | ||
* [http://www.cs.toronto.edu/~ranzato/publications/ranzato_aistats2010.pdf] M. Ranzato, A. Krizhevsky, G. Hinton. Factored 3-Way Restricted Boltzmann Machines for Modeling Natural Images. In AISTATS 2010. | * [http://www.cs.toronto.edu/~ranzato/publications/ranzato_aistats2010.pdf] M. Ranzato, A. Krizhevsky, G. Hinton. Factored 3-Way Restricted Boltzmann Machines for Modeling Natural Images. In AISTATS 2010. | ||
* [http://www.cs.toronto.edu/~ranzato/publications/ranzato_cvpr2010.pdf] M. Ranzato, G. Hinton, Modeling Pixel Means and Covariances Using Factorized Third-Order Boltzmann Machines. CVPR 2010 | * [http://www.cs.toronto.edu/~ranzato/publications/ranzato_cvpr2010.pdf] M. Ranzato, G. Hinton, Modeling Pixel Means and Covariances Using Factorized Third-Order Boltzmann Machines. CVPR 2010 | ||
- | ** (someone and tell us if you need to read the 3-way RBM paper before the mcRBM one [didn't find it necessary, in fact the CVPR paper seemed easier to understand | + | ** (someone and tell us if you need to read the 3-way RBM paper before the mcRBM one [I didn't find it necessary, in fact the CVPR paper seemed easier to understand.]) |
* [http://www.cs.toronto.edu/~hinton/absps/mcphone.pdf] Dahl, G., Ranzato, M., Mohamed, A. and Hinton, G. E. Phone Recognition with the Mean-Covariance Restricted Boltzmann Machine. NIPS 2010. | * [http://www.cs.toronto.edu/~hinton/absps/mcphone.pdf] Dahl, G., Ranzato, M., Mohamed, A. and Hinton, G. E. Phone Recognition with the Mean-Covariance Restricted Boltzmann Machine. NIPS 2010. | ||
* [http://www.nature.com/nature/journal/v457/n7225/pdf/nature07481.pdf] Y. Karklin and M. S. Lewicki, Emergence of complex cell properties by learning to generalize in natural scenes, Nature, 2008. | * [http://www.nature.com/nature/journal/v457/n7225/pdf/nature07481.pdf] Y. Karklin and M. S. Lewicki, Emergence of complex cell properties by learning to generalize in natural scenes, Nature, 2008. |