Neural Networks Should Be Wide Enough to Learn Disconnected Decision Regions
Abstract
In the recent literature the important role of depth in deep learning has been emphasized. In this paper we argue that sufficient width of a feedforward network is equally important by answering the simple question under which conditions the decision regions of a neural network are connected. It turns out that for a class of activation functions including leaky ReLU, neural networks having a pyramidal structure, that is no layer has more hidden units than the input dimension, produce necessarily connected decision regions. This implies that a sufficiently wide hidden layer is necessary to guarantee that the network can produce disconnected decision regions. We discuss the implications of this result for the construction of neural networks, in particular the relation to the problem of adversarial manipulation of classifiers.
Cite
Text
Nguyen et al. "Neural Networks Should Be Wide Enough to Learn Disconnected Decision Regions." International Conference on Machine Learning, 2018.Markdown
[Nguyen et al. "Neural Networks Should Be Wide Enough to Learn Disconnected Decision Regions." International Conference on Machine Learning, 2018.](https://mlanthology.org/icml/2018/nguyen2018icml-neural/)BibTeX
@inproceedings{nguyen2018icml-neural,
title = {{Neural Networks Should Be Wide Enough to Learn Disconnected Decision Regions}},
author = {Nguyen, Quynh and Mukkamala, Mahesh Chandra and Hein, Matthias},
booktitle = {International Conference on Machine Learning},
year = {2018},
pages = {3740-3749},
volume = {80},
url = {https://mlanthology.org/icml/2018/nguyen2018icml-neural/}
}