Stadter L, Hofmann N, Stamminger M (2024)
Publication Type: Conference contribution
Publication year: 2024
Publisher: The Eurographics Association
Conference Proceedings Title: VMV2024
DOI: 10.2312/vmv.20241197
We introduce a neural level of detail pipeline for use in a GPU path tracer based on a sparse volumetric representation derived from neural radiance fields. We pre-compute lighting and occlusion to train a neural radiance field which faithfully captures appearance and shading via image-based optimization. By converting the resulting neural network into an efficiently rendered representation, we eliminate costly evaluations at runtime and keep performance competitive. When applying our representation to certain areas of the scene, we trade a slight bias from gradient-based optimization and lossy volumetric conversion for highly anti-aliased results at low sample counts. This enables virtually noise-free and temporally stable results at low computational cost and without any additional post-processing, such as denoising. We demonstrate the applicability of our method to both individual objects and a challenging outdoor scene composed of highly detailed foliage.
APA:
Stadter, L., Hofmann, N., & Stamminger, M. (2024). Neural Volumetric Level of Detail for Path Tracing. In VMV2024. München, DE: The Eurographics Association.
MLA:
Stadter, Linda, Nikolai Hofmann, and Marc Stamminger. "Neural Volumetric Level of Detail for Path Tracing." Proceedings of the Vision, Modeling, and Visualization 2024 (VMV2024), München The Eurographics Association, 2024.
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