Learning Neural Light Fields with Ray-Space Embedding
Author:
Affiliation:
1. Carnegie Mellon University
2. Meta
3. Reality Labs Research
Publisher
IEEE
Link
http://xplorestaging.ieee.org/ielx7/9878378/9878366/09878939.pdf?arnumber=9878939
Reference69 articles.
1. KiloNeRF: Speeding up Neural Radiance Fields with Thousands of Tiny MLPs
2. DeRF: Decomposed Radiance Fields
3. Learning Implicit Surface Light Fields
4. Donerf: Towards real-time rendering of compact neural radiance fields using depth oracle networks;thomas;Comput Graph Forum,2021
5. Instant neural graphics primitives with a multiresolution hash encoding;muller;ArXiv Preprint,2022
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