Fast Dynamic Radiance Fields with Time-Aware Neural Voxels

Jiemin Fang; Taoran Yi; Xinggang Wang; Lingxi Xie; Xiaopeng Zhang; Wenyu Liu; Matthias Nießner; Qi Tian

doi:10.1145/3550469.3555383

Fast Dynamic Radiance Fields with Time-Aware Neural Voxels

Jiemin Fang, Taoran Yi, Xinggang Wang, Lingxi Xie, Xiaopeng Zhang, Wenyu Liu, Matthias Nießner, Qi Tian

Informatik 28 - Lehrstuhl für Visual Computing

Publikation: Beitrag in Buch/Bericht/Konferenzband › Konferenzbeitrag › Begutachtung

143 Zitate (Scopus)

Abstract

Neural radiance fields (NeRF) have shown great success in modeling 3D scenes and synthesizing novel-view images. However, most previous NeRF methods take much time to optimize one single scene. Explicit data structures, e.g. voxel features, show great potential to accelerate the training process. However, voxel features face two big challenges to be applied to dynamic scenes, i.e. modeling temporal information and capturing different scales of point motions. We propose a radiance field framework by representing scenes with time-aware voxel features, named as TiNeuVox. A tiny coordinate deformation network is introduced to model coarse motion trajectories and temporal information is further enhanced in the radiance network. A multi-distance interpolation method is proposed and applied on voxel features to model both small and large motions. Our framework significantly accelerates the optimization of dynamic radiance fields while maintaining high rendering quality. Empirical evaluation is performed on both synthetic and real scenes. Our TiNeuVox completes training with only 8 minutes and 8-MB storage cost while showing similar or even better rendering performance than previous dynamic NeRF methods.

Originalsprache	Englisch
Titel	Proceedings - SIGGRAPH Asia 2022 Conference Papers
Redakteure/-innen	Stephen N. Spencer
Herausgeber (Verlag)	Association for Computing Machinery, Inc
ISBN (elektronisch)	9781450394703
DOIs	https://doi.org/10.1145/3550469.3555383
Publikationsstatus	Veröffentlicht - 29 Nov. 2022
Veranstaltung	SIGGRAPH Asia 2022 - Computer Graphics and Interactive Techniques Conference - Asia, SA 2022 - Daegu, Südkorea Dauer: 6 Dez. 2022 → 9 Dez. 2022

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Name	Proceedings - SIGGRAPH Asia 2022 Conference Papers

Konferenz

Konferenz	SIGGRAPH Asia 2022 - Computer Graphics and Interactive Techniques Conference - Asia, SA 2022
Land/Gebiet	Südkorea
Ort	Daegu
Zeitraum	6/12/22 → 9/12/22

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10.1145/3550469.3555383

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Fang, J., Yi, T., Wang, X., Xie, L., Zhang, X., Liu, W., Nießner, M., & Tian, Q. (2022). Fast Dynamic Radiance Fields with Time-Aware Neural Voxels. in S. N. Spencer (Hrsg.), Proceedings - SIGGRAPH Asia 2022 Conference Papers Artikel 11 (Proceedings - SIGGRAPH Asia 2022 Conference Papers). Association for Computing Machinery, Inc. https://doi.org/10.1145/3550469.3555383

@inproceedings{9c0357f3b5314b4a8a5e55fb79a8e252,

title = "Fast Dynamic Radiance Fields with Time-Aware Neural Voxels",

abstract = "Neural radiance fields (NeRF) have shown great success in modeling 3D scenes and synthesizing novel-view images. However, most previous NeRF methods take much time to optimize one single scene. Explicit data structures, e.g. voxel features, show great potential to accelerate the training process. However, voxel features face two big challenges to be applied to dynamic scenes, i.e. modeling temporal information and capturing different scales of point motions. We propose a radiance field framework by representing scenes with time-aware voxel features, named as TiNeuVox. A tiny coordinate deformation network is introduced to model coarse motion trajectories and temporal information is further enhanced in the radiance network. A multi-distance interpolation method is proposed and applied on voxel features to model both small and large motions. Our framework significantly accelerates the optimization of dynamic radiance fields while maintaining high rendering quality. Empirical evaluation is performed on both synthetic and real scenes. Our TiNeuVox completes training with only 8 minutes and 8-MB storage cost while showing similar or even better rendering performance than previous dynamic NeRF methods.",

keywords = "dynamic scenes, neural rendering, neural voxels, novel view synthesis, temporal information encoding",

author = "Jiemin Fang and Taoran Yi and Xinggang Wang and Lingxi Xie and Xiaopeng Zhang and Wenyu Liu and Matthias Nie{\ss}ner and Qi Tian",

note = "Publisher Copyright: {\textcopyright} 2022 ACM.; SIGGRAPH Asia 2022 - Computer Graphics and Interactive Techniques Conference - Asia, SA 2022 ; Conference date: 06-12-2022 Through 09-12-2022",

year = "2022",

month = nov,

day = "29",

doi = "10.1145/3550469.3555383",

language = "English",

series = "Proceedings - SIGGRAPH Asia 2022 Conference Papers",

publisher = "Association for Computing Machinery, Inc",

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booktitle = "Proceedings - SIGGRAPH Asia 2022 Conference Papers",

}

Fang, J, Yi, T, Wang, X, Xie, L, Zhang, X, Liu, W, Nießner, M & Tian, Q 2022, Fast Dynamic Radiance Fields with Time-Aware Neural Voxels. in SN Spencer (Hrsg.), Proceedings - SIGGRAPH Asia 2022 Conference Papers., 11, Proceedings - SIGGRAPH Asia 2022 Conference Papers, Association for Computing Machinery, Inc, SIGGRAPH Asia 2022 - Computer Graphics and Interactive Techniques Conference - Asia, SA 2022, Daegu, Südkorea, 6/12/22. https://doi.org/10.1145/3550469.3555383

Fast Dynamic Radiance Fields with Time-Aware Neural Voxels. / Fang, Jiemin; Yi, Taoran; Wang, Xinggang et al.
Proceedings - SIGGRAPH Asia 2022 Conference Papers. Hrsg. / Stephen N. Spencer. Association for Computing Machinery, Inc, 2022. 11 (Proceedings - SIGGRAPH Asia 2022 Conference Papers).

Publikation: Beitrag in Buch/Bericht/Konferenzband › Konferenzbeitrag › Begutachtung

TY - GEN

T1 - Fast Dynamic Radiance Fields with Time-Aware Neural Voxels

AU - Fang, Jiemin

AU - Yi, Taoran

AU - Wang, Xinggang

AU - Xie, Lingxi

AU - Zhang, Xiaopeng

AU - Liu, Wenyu

AU - Nießner, Matthias

AU - Tian, Qi

PY - 2022/11/29

Y1 - 2022/11/29

N2 - Neural radiance fields (NeRF) have shown great success in modeling 3D scenes and synthesizing novel-view images. However, most previous NeRF methods take much time to optimize one single scene. Explicit data structures, e.g. voxel features, show great potential to accelerate the training process. However, voxel features face two big challenges to be applied to dynamic scenes, i.e. modeling temporal information and capturing different scales of point motions. We propose a radiance field framework by representing scenes with time-aware voxel features, named as TiNeuVox. A tiny coordinate deformation network is introduced to model coarse motion trajectories and temporal information is further enhanced in the radiance network. A multi-distance interpolation method is proposed and applied on voxel features to model both small and large motions. Our framework significantly accelerates the optimization of dynamic radiance fields while maintaining high rendering quality. Empirical evaluation is performed on both synthetic and real scenes. Our TiNeuVox completes training with only 8 minutes and 8-MB storage cost while showing similar or even better rendering performance than previous dynamic NeRF methods.

AB - Neural radiance fields (NeRF) have shown great success in modeling 3D scenes and synthesizing novel-view images. However, most previous NeRF methods take much time to optimize one single scene. Explicit data structures, e.g. voxel features, show great potential to accelerate the training process. However, voxel features face two big challenges to be applied to dynamic scenes, i.e. modeling temporal information and capturing different scales of point motions. We propose a radiance field framework by representing scenes with time-aware voxel features, named as TiNeuVox. A tiny coordinate deformation network is introduced to model coarse motion trajectories and temporal information is further enhanced in the radiance network. A multi-distance interpolation method is proposed and applied on voxel features to model both small and large motions. Our framework significantly accelerates the optimization of dynamic radiance fields while maintaining high rendering quality. Empirical evaluation is performed on both synthetic and real scenes. Our TiNeuVox completes training with only 8 minutes and 8-MB storage cost while showing similar or even better rendering performance than previous dynamic NeRF methods.

KW - dynamic scenes

KW - neural rendering

KW - neural voxels

KW - novel view synthesis

KW - temporal information encoding

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U2 - 10.1145/3550469.3555383

DO - 10.1145/3550469.3555383

M3 - Conference contribution

AN - SCOPUS:85143976229

T3 - Proceedings - SIGGRAPH Asia 2022 Conference Papers

BT - Proceedings - SIGGRAPH Asia 2022 Conference Papers

A2 - Spencer, Stephen N.

PB - Association for Computing Machinery, Inc

T2 - SIGGRAPH Asia 2022 - Computer Graphics and Interactive Techniques Conference - Asia, SA 2022

Y2 - 6 December 2022 through 9 December 2022

ER -

Fast Dynamic Radiance Fields with Time-Aware Neural Voxels

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