Fast Convolutional Sparse Coding

Author

Bristow, Hilton ; Eriksson, Anders ; Lucey, Simon

Author_Institution

Queensland Univ. of Technol., Brisbane, QLD, Australia

fYear

2013

fDate

23-28 June 2013

Firstpage

391

Lastpage

398

Abstract

Sparse coding has become an increasingly popular method in learning and vision for a variety of classification, reconstruction and coding tasks. The canonical approach intrinsically assumes independence between observations during learning. For many natural signals however, sparse coding is applied to sub-elements ( i.e. patches) of the signal, where such an assumption is invalid. Convolutional sparse coding explicitly models local interactions through the convolution operator, however the resulting optimization problem is considerably more complex than traditional sparse coding. In this paper, we draw upon ideas from signal processing and Augmented Lagrange Methods (ALMs) to produce a fast algorithm with globally optimal sub problems and super-linear convergence.

Keywords

convolutional codes; encoding; image classification; image reconstruction; learning (artificial intelligence); ALM; augmented Lagrange methods; canonical approach; classification tasks; convolution operator; fast algorithm; fast convolutional sparse coding; globally optimal sub problems; learning; natural signals; optimization problem; reconstruction tasks; signal processing; super-linear convergence; vision; Convergence; Convolution; Convolutional codes; Encoding; Equations; Signal processing algorithms; Vectors; ADMM; convolution; deep learning; fourier; sparse coding;

fLanguage

English

Publisher

ieee

Conference_Titel

Computer Vision and Pattern Recognition (CVPR), 2013 IEEE Conference on

Conference_Location

Portland, OR

ISSN

1063-6919

Type

conf

DOI

10.1109/CVPR.2013.57

Filename

6618901