Deep Network classification by Scattering and Homotopy dictionary learning

Add code
Oct 08, 2019
John Zarka, Louis Thiry, Tomás Angles, Stéphane Mallat
Figure 1 for Deep Network classification by Scattering and Homotopy dictionary learning
Figure 2 for Deep Network classification by Scattering and Homotopy dictionary learning
Figure 3 for Deep Network classification by Scattering and Homotopy dictionary learning
Figure 4 for Deep Network classification by Scattering and Homotopy dictionary learning

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon

We introduce a sparse scattering deep convolutional neural network, which provides a simple model to analyze properties of deep representation learning for classification. Learning a single dictionary matrix with a classifier yields a higher classification accuracy than AlexNet over the ImageNet ILSVRC2012 dataset. The network first applies a scattering transform which linearizes variabilities due to geometric transformations such as translations and small deformations. A sparse l1 dictionary coding reduces intra-class variability while preserving class separation through projections over unions of linear spaces. It is implemented in a deep convolutional network with a homotopy algorithm having an exponential convergence. A convergence proof is given in a general framework including ALISTA. Classification results are analyzed over ImageNet.

View paper onarxiv iconopen_review iconOpenReview

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon