Two-Stage Approach to Image Classification by Deep Neural Networks

¹ Laboratory of Information Technologies, Joint Institute for Nuclear Research, 141980 Dubna, Moscow region
² Sukhoi State Technical University of Gomel, Gomel, Belarus

^* e-mail: ososkov@jinr.ru
^** e-mail: kaliostrogoblin3@gmail.com

Published online: 14 February 2018

Abstract

The paper demonstrates the advantages of the deep learning networks over the ordinary neural networks on their comparative applications to image classifying. An autoassociative neural network is used as a standalone autoencoder for prior extraction of the most informative features of the input data for neural networks to be compared further as classifiers. The main efforts to deal with deep learning networks are spent for a quite painstaking work of optimizing the structures of those networks and their components, as activation functions, weights, as well as the procedures of minimizing their loss function to improve their performances and speed up their learning time. It is also shown that the deep autoencoders develop the remarkable ability for denoising images after being specially trained. Convolutional Neural Networks are also used to solve a quite actual problem of protein genetics on the example of the durum wheat classification. Results of our comparative study demonstrate the undoubted advantage of the deep networks, as well as the denoising power of the autoencoders. In our work we use both GPU and cloud services to speed up the calculations.