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Autori principali: Tang, Ziyu, Ye, Weicai, Wang, Yifan, Huang, Di, Bao, Hujun, He, Tong, Zhang, Guofeng
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2408.12598
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author Tang, Ziyu
Ye, Weicai
Wang, Yifan
Huang, Di
Bao, Hujun
He, Tong
Zhang, Guofeng
author_facet Tang, Ziyu
Ye, Weicai
Wang, Yifan
Huang, Di
Bao, Hujun
He, Tong
Zhang, Guofeng
contents Neural implicit reconstruction via volume rendering has demonstrated its effectiveness in recovering dense 3D surfaces. However, it is non-trivial to simultaneously recover meticulous geometry and preserve smoothness across regions with differing characteristics. To address this issue, previous methods typically employ geometric priors, which are often constrained by the performance of the prior models. In this paper, we propose ND-SDF, which learns a Normal Deflection field to represent the angular deviation between the scene normal and the prior normal. Unlike previous methods that uniformly apply geometric priors on all samples, introducing significant bias in accuracy, our proposed normal deflection field dynamically learns and adapts the utilization of samples based on their specific characteristics, thereby improving both the accuracy and effectiveness of the model. Our method not only obtains smooth weakly textured regions such as walls and floors but also preserves the geometric details of complex structures. In addition, we introduce a novel ray sampling strategy based on the deflection angle to facilitate the unbiased rendering process, which significantly improves the quality and accuracy of intricate surfaces, especially on thin structures. Consistent improvements on various challenging datasets demonstrate the superiority of our method.
format Preprint
id arxiv_https___arxiv_org_abs_2408_12598
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle ND-SDF: Learning Normal Deflection Fields for High-Fidelity Indoor Reconstruction
Tang, Ziyu
Ye, Weicai
Wang, Yifan
Huang, Di
Bao, Hujun
He, Tong
Zhang, Guofeng
Computer Vision and Pattern Recognition
Artificial Intelligence
Neural implicit reconstruction via volume rendering has demonstrated its effectiveness in recovering dense 3D surfaces. However, it is non-trivial to simultaneously recover meticulous geometry and preserve smoothness across regions with differing characteristics. To address this issue, previous methods typically employ geometric priors, which are often constrained by the performance of the prior models. In this paper, we propose ND-SDF, which learns a Normal Deflection field to represent the angular deviation between the scene normal and the prior normal. Unlike previous methods that uniformly apply geometric priors on all samples, introducing significant bias in accuracy, our proposed normal deflection field dynamically learns and adapts the utilization of samples based on their specific characteristics, thereby improving both the accuracy and effectiveness of the model. Our method not only obtains smooth weakly textured regions such as walls and floors but also preserves the geometric details of complex structures. In addition, we introduce a novel ray sampling strategy based on the deflection angle to facilitate the unbiased rendering process, which significantly improves the quality and accuracy of intricate surfaces, especially on thin structures. Consistent improvements on various challenging datasets demonstrate the superiority of our method.
title ND-SDF: Learning Normal Deflection Fields for High-Fidelity Indoor Reconstruction
topic Computer Vision and Pattern Recognition
Artificial Intelligence
url https://arxiv.org/abs/2408.12598