research-article

Multiview face capture using polarized spherical gradient illumination

Authors:

Abhijeet Ghosh,

Borom Tunwattanapong,

Paul DebevecAuthors Info & Claims

SA '11: Proceedings of the 2011 SIGGRAPH Asia Conference

Article No.: 129, Pages 1 - 10

https://doi.org/10.1145/2024156.2024163

Published: 12 December 2011 Publication History

Abstract

We present a novel process for acquiring detailed facial geometry with high resolution diffuse and specular photometric information from multiple viewpoints using polarized spherical gradient illumination. Key to our method is a new pair of linearly polarized lighting patterns which enables multiview diffuse-specular separation under a given spherical illumination condition from just two photographs. The patterns -- one following lines of latitude and one following lines of longitude -- allow the use of fixed linear polarizers in front of the cameras, enabling more efficient acquisition of diffuse and specular albedo and normal maps from multiple viewpoints. In a second step, we employ these albedo and normal maps as input to a novel multi-resolution adaptive domain message passing stereo reconstruction algorithm to create high resolution facial geometry. To do this, we formulate the stereo reconstruction from multiple cameras in a commonly parameterized domain for multiview reconstruction. We show competitive results consisting of high-resolution facial geometry with relightable reflectance maps using five DSLR cameras. Our technique scales well for multiview acquisition without requiring specialized camera systems for sensing multiple polarization states.

Supplementary Material

MOV File (a129-ghosh.mov)

Download
21.38 MB

References

[1]

Alexander, O., Rogers, M., Lambeth, W., Chiang, J.-Y., Ma, W.-C., Wang, C.-C., and Debevec, P. 2010. The Digital Emily Project: Achieving a photoreal digital actor. IEEE Computer Graphics and Applications 30 (July), 20--31.

Digital Library

[2]

Beeler, T., Bickel, B., Beardsley, P., Sumner, B., and Gross, M. 2010. High-quality single-shot capture of facial geometry. ACM Trans. Graph. 29 (July), 40:1--40:9.

Digital Library

[3]

Bickel, B., Botsch, M., Angst, R., Matusik, W., Otaduy, M., Pfister, H., and Gross, M. 2007. Multi-scale capture of facial geometry and motion. ACM Transactions on Graphics 26, 3, 33: 1--10.

Digital Library

[4]

Bradley, D., Heidrich, W., Popa, T., and Sheffer, A. 2010. High resolution passive facial performance capture. ACM Trans. Graph. 29 (July), 41:1--41:10.

Digital Library

[5]

Davis, J., Nehab, D., Ramamoorthi, R., and Rusinkiewicz, S. 2005. Spacetime stereo: A unifying framework for depth from triangulation. PAMI 27, 2, 296--302.

Digital Library

[6]

Debevec, P., Hawkins, T., Tchou, C., Duiker, H.-P., Sarokin, W., and Sagar, M. 2000. Acquiring the reflectance field of a human face. In Proceedings of ACM SIGGRAPH 2000, 145--156.

Digital Library

[7]

Furukawa, Y., and Ponce, J. 2009. Dense 3D motion capture for human faces. In Proc. of CVPR 09.

[8]

Fyffe, G., Hawkins, T., Watts, C., Ma, W.-C., and Debevec, P. 2011. Comprehensive facial performance capture. Computer Graphics Forum (Proc. EUROGRAPHICS) 30, 2.

[9]

Ghosh, A., Chen, T., Peers, P., Wilson, C. A., and Debevec, P. 2010. Circularly polarized spherical illumination reflectometry. ACM Trans. Graph. 29 (December), 162:1--162:12.

Digital Library

[10]

Hernandez, C., Vogiatzis, G., Brostow, G. J., Stenger, B., and Cipolla, R. 2007. Non-rigid photometric stereo with colored lights. In Proc. IEEE International Conference on Computer Vision, 1--8.

[11]

Klaudiny, M., Hilton, A., and Edge, J. 2010. High-detail 3D capture of facial performance. In International Symposium 3D Data Processing, Visualization and Transmission (3DPVT).

[12]

Kolmogorov, V. 2006. Convergent tree-reweighted message passing for energy minimization. IEEE Trans. Pattern Anal. Mach. Intell. 28 (October), 1568--1583.

Digital Library

[13]

Ma, W.-C., Hawkins, T., Peers, P., Chabert, C.-F., Weiss, M., and Debevec, P. 2007. Rapid acquisition of specular and diffuse normal maps from polarized spherical gradient illumination. In Rendering Techniques, 183--194.

Digital Library

[14]

Ma, W.-C., Jones, A., Chiang, J.-Y., Hawkins, T., Frederiksen, S., Peers, P., Vukovic, M., Ouhyoung, M., and Debevec, P. 2008. Facial performance synthesis using deformation-driven polynomial displacement maps. ACM TOG (Proc. SIGGRAPH Asia).

Digital Library

[15]

Malzbender, T., Wilburn, B., Gelb, D., and Ambrisco, B. 2006. Surface enhancement using real-time photometric stereo and reflectance transformation. In Rendering Techniques, 245--250.

Digital Library

[16]

Nehab, D., Rusinkiewicz, S., Davis, J., and Ramamoorthi, R. 2005. Efficiently combining positions and normals for precise 3D geometry. ACM TOG 24, 3, 536--543.

Digital Library

[17]

Rusinkiewicz, S., Hall-Holt, O., and Levoy, M. 2002. Real-time 3D model acquisition. ACM TOG 21, 3, 438--446.

Digital Library

[18]

Wenger, A., Gardner, A., Tchou, C., Unger, J., Hawkins, T., and Debevec, P. 2005. Performance relighting and reflectance transformation with time-multiplexed illumination. ACM TOG 24, 3, 756--764.

Digital Library

[19]

Weyrich, T., Matusik, W., Pfister, H., Bickel, B., Donner, C., Tu, C., McAndless, J., Lee, J., Ngan, A., Jensen, H. W., and Gross, M. 2006. Analysis of human faces using a measurement-based skin reflectance model. ACM TOG 25, 3, 1013--1024.

Digital Library

[20]

Wilson, C. A., Ghosh, A., Peers, P., Chiang, J.-Y., Busch, J., and Debevec, P. 2010. Temporal upsampling of performance geometry using photometric alignment. ACM Trans. Graph. 29 (April), 17:1--17:11.

Digital Library

[21]

Woodford, O. J., Torr, P. H. S., Reid, I. D., and Fitzgibbon, A. W. 2009. Global stereo reconstruction under second order smoothness priors. IEEE Transactions on Pattern Analysis and Machine Intelligence 31, 12, 2115--2128.

Digital Library

[22]

Zhang, S., and Huang, P. 2006. High-resolution, real-time three-dimensional shape measurement. Optical Engineering 45, 12.

[23]

Zhang, L., Snavely, N., Curless, B., and Seitz, S. M. 2004. Spacetime faces: high resolution capture for modeling and animation. ACM TOG 23, 3, 548--558.

Digital Library

[24]

Zhang, Z. 2000. A flexible new technique for camera calibration. PAMI 22, 11, 1330--1334.

Digital Library

Cited By

Deng BWang YWetzstein G(2024)LumiGAN: Unconditional Generation of Relightable 3D Human Faces2024 International Conference on 3D Vision (3DV)10.1109/3DV62453.2024.00081(302-312)Online publication date: 18-Mar-2024
https://doi.org/10.1109/3DV62453.2024.00081
Li YWeng DChen J(2023)Non-Rigid Point Cloud Matching Based on Invariant Structure for Face DeformationElectronics10.3390/electronics1204082812:4(828)Online publication date: 6-Feb-2023
https://doi.org/10.3390/electronics12040828
Kim YJin WCho SBaek S(2023)Neural Spectro-polarimetric FieldsSIGGRAPH Asia 2023 Conference Papers10.1145/3610548.3618172(1-11)Online publication date: 10-Dec-2023
https://dl.acm.org/doi/10.1145/3610548.3618172
Show More Cited By

Index Terms

Multiview face capture using polarized spherical gradient illumination
1. Computing methodologies
  1. Artificial intelligence
    1. Computer vision
      1. Computer vision problems
      2. Computer vision tasks
        Scene understanding
  2. Computer graphics
    1. Image manipulation

Recommendations

Multiview face capture using polarized spherical gradient illumination

We present a novel process for acquiring detailed facial geometry with high resolution diffuse and specular photometric information from multiple viewpoints using polarized spherical gradient illumination. Key to our method is a new pair of linearly ...
Circularly polarized spherical illumination reflectometry

We present a novel method for surface reflectometry from a few observations of a scene under a single uniform spherical field of circularly polarized illumination. The method is based on a novel analysis of the Stokes reflectance field of circularly ...
Circularly polarized spherical illumination reflectometry
SIGGRAPH ASIA '10: ACM SIGGRAPH Asia 2010 papers

We present a novel method for surface reflectometry from a few observations of a scene under a single uniform spherical field of circularly polarized illumination. The method is based on a novel analysis of the Stokes reflectance field of circularly ...

Comments

Please enable JavaScript to view thecomments powered by Disqus.

Information & Contributors

Information

Published In

cover image ACM Conferences

SA '11: Proceedings of the 2011 SIGGRAPH Asia Conference

December 2011

730 pages

ISBN:9781450308076

DOI:10.1145/2024156

Copyright © 2011 ACM.

Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for components of this work owned by others than ACM must be honored. Abstracting with credit is permitted. To copy otherwise, or republish, to post on servers or to redistribute to lists, requires prior specific permission and/or a fee. Request permissions from [email protected]

Sponsors

SIGGRAPH: ACM Special Interest Group on Computer Graphics and Interactive Techniques

In-Cooperation

SIGCHI: ACM Special Interest Group on Computer-Human Interaction

Publisher

Association for Computing Machinery

New York, NY, United States

Publication History

Published: 12 December 2011

Permissions

Request permissions for this article.

Request Permissions

Check for updates

Author Tags

Qualifiers

Research-article

Funding Sources

Division of Information and Intelligent Systems

Conference

SA '11

Sponsor:

SIGGRAPH

SA '11: SIGGRAPH Asia 2011

December 12 - 15, 2011

Hong Kong, China

Acceptance Rates

Overall Acceptance Rate 178 of 869 submissions, 20%

Contributors

Other Metrics

View Article Metrics

Bibliometrics & Citations

Bibliometrics

Article Metrics

45
Total Citations
View Citations
1,394
Total Downloads

Downloads (Last 12 months)19
Downloads (Last 6 weeks)4

Reflects downloads up to 18 Nov 2024

Other Metrics

View Author Metrics

Citations

Cited By

Deng BWang YWetzstein G(2024)LumiGAN: Unconditional Generation of Relightable 3D Human Faces2024 International Conference on 3D Vision (3DV)10.1109/3DV62453.2024.00081(302-312)Online publication date: 18-Mar-2024
https://doi.org/10.1109/3DV62453.2024.00081
Li YWeng DChen J(2023)Non-Rigid Point Cloud Matching Based on Invariant Structure for Face DeformationElectronics10.3390/electronics1204082812:4(828)Online publication date: 6-Feb-2023
https://doi.org/10.3390/electronics12040828
Kim YJin WCho SBaek S(2023)Neural Spectro-polarimetric FieldsSIGGRAPH Asia 2023 Conference Papers10.1145/3610548.3618172(1-11)Online publication date: 10-Dec-2023
https://dl.acm.org/doi/10.1145/3610548.3618172
Zhang LQiu QLin HZhang QShi CYang WShi YYang SXu LYu J(2023)DreamFace: Progressive Generation of Animatable 3D Faces under Text GuidanceACM Transactions on Graphics10.1145/359209442:4(1-16)Online publication date: 26-Jul-2023
https://dl.acm.org/doi/10.1145/3592094
Lin ALin YGhosh A(2023)Practical Acquisition of Shape and Plausible Appearance of Reflective and Translucent ObjectsComputer Graphics Forum10.1111/cgf.1488942:4Online publication date: 26-Jul-2023
https://doi.org/10.1111/cgf.14889
Aliaga CXia MXie XJarabo ABraun GHery C(2023)A Hyperspectral Space of Skin Tones for Inverse Rendering of Biophysical Skin PropertiesComputer Graphics Forum10.1111/cgf.1488742:4Online publication date: 26-Jul-2023
https://doi.org/10.1111/cgf.14887
Kajiyama SPiao TKawahara ROkabe T(2023)Separating Partially-Polarized Diffuse and Specular Reflection Components under Unpolarized Light Sources2023 IEEE/CVF Winter Conference on Applications of Computer Vision (WACV)10.1109/WACV56688.2023.00258(2548-2557)Online publication date: Jan-2023
https://doi.org/10.1109/WACV56688.2023.00258
Vilchis CPerez-Guerrero CMendez-Ruiz MGonzalez-Mendoza M(2023)A survey on the pipeline evolution of facial capture and tracking for digital humansMultimedia Systems10.1007/s00530-023-01081-229:4(1917-1940)Online publication date: 1-Apr-2023
https://dl.acm.org/doi/10.1007/s00530-023-01081-2
Kawahara RKuo MOkabe T(2023)Polarimetric Underwater StereoImage Analysis10.1007/978-3-031-31438-4_35(534-550)Online publication date: 18-Apr-2023
https://dl.acm.org/doi/10.1007/978-3-031-31438-4_35
Miao YLattas ADeng JHan JZafeiriou SKoyejo SMohamed SAgarwal ABelgrave DCho KOh A(2022)Physically-based face rendering for NIR-VIS face recognitionProceedings of the 36th International Conference on Neural Information Processing Systems10.5555/3600270.3601923(22752-22764)Online publication date: 28-Nov-2022
https://dl.acm.org/doi/10.5555/3600270.3601923
Show More Cited By

View Options

Login options

Check if you have access through your login credentials or your institution to get full access on this article.

Full Access

Get this Publication

View options

PDF

View or Download as a PDF file.

eReader

View online with eReader.

Media

Figures

Other

Tables

View Table of Contents