Adaptive Resolution Residual Networks
Abstract
We introduce Adaptive Resolution Residual Networks (ARRNs), a form of neural operator that enables the creation of networks for signal-based tasks that can be rediscretized to suit any signal resolution. ARRNs are composed of a chain of Laplacian residuals that each contain ordinary layers, which do not need to be rediscretizable for the whole network to be rediscretizable. ARRNs have the property of requiring a lower number of Laplacian residuals for exact evaluation on lower-resolution signals, which greatly reduces computational cost. ARRNs also implement Laplacian dropout, which encourages networks to become robust to low-bandwidth signals. ARRNs can thus be trained once at high-resolution and then be rediscretized on the fly at a suitable resolution with great robustness.
Cite
Text
Demeule et al. "Adaptive Resolution Residual Networks." NeurIPS 2023 Workshops: DLDE, 2023.Markdown
[Demeule et al. "Adaptive Resolution Residual Networks." NeurIPS 2023 Workshops: DLDE, 2023.](https://mlanthology.org/neuripsw/2023/demeule2023neuripsw-adaptive/)BibTeX
@inproceedings{demeule2023neuripsw-adaptive,
title = {{Adaptive Resolution Residual Networks}},
author = {Demeule, Léa and Sandhu, Mahtab and Berseth, Glen},
booktitle = {NeurIPS 2023 Workshops: DLDE},
year = {2023},
url = {https://mlanthology.org/neuripsw/2023/demeule2023neuripsw-adaptive/}
}