Parametric Exponential Linear Unit for Deep Convolutional Neural Networks
Abstract
Object recognition is an important task for improving the ability of visual systems to perform complex scene understanding. Recently, the Exponential Linear Unit (ELU) has been proposed as a key component for managing bias shift in Convolutional Neural Networks (CNNs), but defines a parameter that must be set by hand. In this paper, we propose learning a parameterization of ELU in order to learn the proper activation shape at each layer in the CNNs. Our results on the MNIST, CIFAR-10/100 and ImageNet datasets using the NiN, Overfeat, All-CNN and ResNet networks indicate that our proposed Parametric ELU (PELU) has better performances than the non-parametric ELU. We have observed as much as a 7.28% relative error improvement on ImageNet with the NiN network, with only 0.0003% parameter increase. Our visual examination of the non-linear behaviors adopted by Vgg using PELU shows that the network took advantage of the added flexibility by learning different activations at different layers.
Cite
@article{arxiv.1605.09332,
title = {Parametric Exponential Linear Unit for Deep Convolutional Neural Networks},
author = {Ludovic Trottier and Philippe Giguère and Brahim Chaib-draa},
journal= {arXiv preprint arXiv:1605.09332},
year = {2018}
}
Comments
16th IEEE International Conference On Machine Learning And Applications, 2017