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Auteurs principaux: Yang, Xiaoyan, Lu, Dingbo, Li, Yang, Li, Chenhui, Wang, Changbo
Format: Preprint
Publié: 2023
Sujets:
Accès en ligne:https://arxiv.org/abs/2307.07125
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author Yang, Xiaoyan
Lu, Dingbo
Li, Yang
Li, Chenhui
Wang, Changbo
author_facet Yang, Xiaoyan
Lu, Dingbo
Li, Yang
Li, Chenhui
Wang, Changbo
contents In recent years, novel view synthesis has gained popularity in generating high-fidelity images. While demonstrating superior performance in the task of synthesizing novel views, the majority of these methods are still based on the conventional multi-layer perceptron for scene embedding. Furthermore, light field models suffer from geometric blurring during pixel rendering, while radiance field-based volume rendering methods have multiple solutions for a certain target of density distribution integration. To address these issues, we introduce the Convolutional Neural Radiance Fields to model the derivatives of radiance along rays. Based on 1D convolutional operations, our proposed method effectively extracts potential ray representations through a structured neural network architecture. Besides, with the proposed ray modeling, a proposed recurrent module is employed to solve geometric ambiguity in the fully neural rendering process. Extensive experiments demonstrate the promising results of our proposed model compared with existing state-of-the-art methods.
format Preprint
id arxiv_https___arxiv_org_abs_2307_07125
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle CeRF: Convolutional Neural Radiance Fields for New View Synthesis with Derivatives of Ray Modeling
Yang, Xiaoyan
Lu, Dingbo
Li, Yang
Li, Chenhui
Wang, Changbo
Computer Vision and Pattern Recognition
Graphics
In recent years, novel view synthesis has gained popularity in generating high-fidelity images. While demonstrating superior performance in the task of synthesizing novel views, the majority of these methods are still based on the conventional multi-layer perceptron for scene embedding. Furthermore, light field models suffer from geometric blurring during pixel rendering, while radiance field-based volume rendering methods have multiple solutions for a certain target of density distribution integration. To address these issues, we introduce the Convolutional Neural Radiance Fields to model the derivatives of radiance along rays. Based on 1D convolutional operations, our proposed method effectively extracts potential ray representations through a structured neural network architecture. Besides, with the proposed ray modeling, a proposed recurrent module is employed to solve geometric ambiguity in the fully neural rendering process. Extensive experiments demonstrate the promising results of our proposed model compared with existing state-of-the-art methods.
title CeRF: Convolutional Neural Radiance Fields for New View Synthesis with Derivatives of Ray Modeling
topic Computer Vision and Pattern Recognition
Graphics
url https://arxiv.org/abs/2307.07125