@article {3282, title = {Compression of Deep Neural Networks for Image Instance Retrieval}, year = {2017}, month = {01/2017}, abstract = {

Image instance retrieval is the problem of retrieving images from a database which contain the same object. Convolutional Neural Network (CNN) based descriptors are becoming the dominant approach for generating {\it global image descriptors} for the instance retrieval problem. One major drawback of CNN-based {\it global descriptors} is that uncompressed deep neural network models require hundreds of megabytes of storage making them inconvenient to deploy in mobile applications or in custom hardware. In this work, we study the problem of neural network model compression focusing on the image instance retrieval task. We study quantization, coding, pruning and weight sharing techniques for reducing model size for the instance retrieval problem. We provide extensive experimental results on the trade-off between retrieval performance and model size for different types of networks on several data sets providing the most comprehensive study on this topic. We compress models to the order of a few MBs: two orders of magnitude smaller than the uncompressed models while achieving negligible loss in retrieval performance.

}, url = {https://arxiv.org/abs/1701.04923}, author = {Vijay Chandrasekhar and Jie Lin and Qianli Liao and Olivier Mor{\`e}re and Antoine Veillard and Lingyu Duan and Tomaso Poggio} }