Learning compact binary descriptors with unsupervised deep neural networks
Journal
Proceedings of the IEEE Computer Society Conference on Computer Vision and Pattern Recognition
Journal Volume
2016-December
Pages
1183-1192
Date Issued
2016
Author(s)
Abstract
In this paper, we propose a new unsupervised deep learning approach called DeepBit to learn compact binary descriptor for efficient visual object matching. Unlike most existing binary descriptors which were designed with random projections or linear hash functions, we develop a deep neural network to learn binary descriptors in an unsupervised manner. We enforce three criterions on binary codes which are learned at the top layer of our network: 1) minimal loss quantization, 2) evenly distributed codes and 3) uncorrelated bits. Then, we learn the parameters of the networks with a back-propagation technique. Experimental results on three different visual analysis tasks including image matching, image retrieval, and object recognition clearly demonstrate the effectiveness of the proposed approach. © 2016 IEEE.
Other Subjects
Backpropagation; Bins; Computer vision; Hash functions; Image matching; Network layers; Object recognition; Deep learning; Deep neural networks; Descriptors; Distributed codes; Linear hash function; Random projections; Visual analysis; Visual objects; Pattern recognition
Type
conference paper