DiffRF: Rendering-Guided 3D Radiance Field Diffusion

Norman Müller; Yawar Siddiqui; Lorenzo Porzi; Samuel Rota Bulò; Peter Kontschieder; Matthias Nießner

2023 CVPR CVPR 2023

DiffRF: Rendering-Guided 3D Radiance Field Diffusion

Abstract

We introduce DiffRF, a novel approach for 3D radiance field synthesis based on denoising diffusion probabilistic models. While existing diffusion-based methods operate on images, latent codes, or point cloud data, we are the first to directly generate volumetric radiance fields. To this end, we propose a 3D denoising model which directly operates on an explicit voxel grid representation. However, as radiance fields generated from a set of posed images can be ambiguous and contain artifacts, obtaining ground truth radiance field samples is non-trivial. We address this challenge by pairing the denoising formulation with a rendering loss, enabling our model to learn a deviated prior that favours good image quality instead of trying to replicate fitting errors like floating artifacts. In contrast to 2D-diffusion models, our model learns multi-view consistent priors, enabling free-view synthesis and accurate shape generation. Compared to 3D GANs, our diffusion-based approach naturally enables conditional generation like masked completion or single-view 3D synthesis at inference time.

🌉 Interdisciplinary Bridge — Computer Vision and Deep Learning

🧭 Keyword Pioneer — 3d radiance field

🐝 Cross-Pollinator — Artificial Intelligence, Computer Science, Computer Vision, Data Science & Analytics, Deep Learning, Healthcare & Medicine, Interdisciplinary, Knowledge & Reasoning, Machine Learning, Mathematics & Optimization, Natural Language Processing, Reinforcement Learning, Robotics, Security & Privacy, Speech & Audio

Authors

Norman Müller , Yawar Siddiqui , Lorenzo Porzi , Samuel Rota Bulò , Peter Kontschieder , Matthias Nießner

Topics

Deep Learning > Models > Diffusion Models Computer Vision > Analysis > 3D Vision Computer Vision > Generation > Image Generation Deep Learning > Learning Types > Generative Models Computer Vision > Generation > 3D Generation

Keywords

volume rendering image synthesis neural rendering 3d generation denoising diffusion neural radiance field radiance field volumetric rendering denoising diffusion probabilistic model multi-view synthesis 3d radiance field

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