Deep Learning via Dynamical Systems: An Approximation Perspective
Machine Learning
2020-06-09 v2 Optimization and Control
Machine Learning
Abstract
We build on the dynamical systems approach to deep learning, where deep residual networks are idealized as continuous-time dynamical systems, from the approximation perspective. In particular, we establish general sufficient conditions for universal approximation using continuous-time deep residual networks, which can also be understood as approximation theories in using flow maps of dynamical systems. In specific cases, rates of approximation in terms of the time horizon are also established. Overall, these results reveal that composition function approximation through flow maps present a new paradigm in approximation theory and contributes to building a useful mathematical framework to investigate deep learning.
Cite
@article{arxiv.1912.10382,
title = {Deep Learning via Dynamical Systems: An Approximation Perspective},
author = {Qianxiao Li and Ting Lin and Zuowei Shen},
journal= {arXiv preprint arXiv:1912.10382},
year = {2020}
}
Comments
Revision 1