Block-NeRF: Scalable Large Scene Neural View Synthesis

Tancik, Matthew; Casser, Vincent; Yan, Xinchen; Pradhan, Sabeek; Mildenhall, Ben; Srinivasan, Pratul P.; Barron, Jonathan T.; Kretzschmar, Henrik

doi:10.1109/cvpr52688.2022.00807

article2022 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR)Jun 1, 2022Closed access

Block-NeRF: Scalable Large Scene Neural View Synthesis

MTMatthew Tancik VCVincent Casser XYXinchen Yan SPSabeek Pradhan BMBen Mildenhall

University of California, Berkeley · Berkeley College · +1 more institution

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Abstract

We present Block-NeRF, a variant of Neural Radiance Fields that can represent large-scale environments. Specifically, we demonstrate that when scaling NeRF to render city-scale scenes spanning multiple blocks, it is vital to de-compose the scene into individually trained NeRFs. This decomposition decouples rendering time from scene size, enables rendering to scale to arbitrarily large environments, and allows per-block updates of the environment. We adopt several architectural changes to make NeRF robust to data captured over months under different environmental conditions. We add appearance embeddings, learned pose refinement, and controllable exposure to each individual NeRF, and introduce a procedure for…

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Topics & keywords

Topics

Keywords

Computer science
Rendering (computer graphics)
Block (permutation group theory)
Scalability
Artificial intelligence
Grid
Computer vision
Computer graphics (images)

UN Sustainable Development Goals

Sustainable cities and communities

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