Zip-NeRF: Anti-Aliased Grid-Based Neural Radiance Fields
Abstract
Neural Radiance Field training can be accelerated through the use of grid-based representations in NeRF's learned mapping from spatial coordinates to colors and volumetric density. However, these grid-based approaches lack an explicit understanding of scale and therefore often introduce aliasing, usually in the form of jaggies or missing scene content. Anti-aliasing has previously been addressed by mip-NeRF 360, which reasons about sub-volumes along a cone rather than points along a ray, but this approach is not natively compatible with current grid-based techniques. We show how ideas from rendering and signal processing can be used to construct a technique that combines mip-NeRF 360 and grid-based models such as Instant NGP to yield error rates that are 8%-77% lower than either prior technique, and that trains 24x faster than mip-NeRF 360.
Cite
Text
Barron et al. "Zip-NeRF: Anti-Aliased Grid-Based Neural Radiance Fields." International Conference on Computer Vision, 2023. doi:10.1109/ICCV51070.2023.01804Markdown
[Barron et al. "Zip-NeRF: Anti-Aliased Grid-Based Neural Radiance Fields." International Conference on Computer Vision, 2023.](https://mlanthology.org/iccv/2023/barron2023iccv-zipnerf/) doi:10.1109/ICCV51070.2023.01804BibTeX
@inproceedings{barron2023iccv-zipnerf,
title = {{Zip-NeRF: Anti-Aliased Grid-Based Neural Radiance Fields}},
author = {Barron, Jonathan T. and Mildenhall, Ben and Verbin, Dor and Srinivasan, Pratul P. and Hedman, Peter},
booktitle = {International Conference on Computer Vision},
year = {2023},
pages = {19697-19705},
doi = {10.1109/ICCV51070.2023.01804},
url = {https://mlanthology.org/iccv/2023/barron2023iccv-zipnerf/}
}