Chapter 14
HD 3DTV and Autostereoscopy
Laurent Lucas,
Céline Loscos,
Yannick Remion,
Laurent Lucas
Search for more papers by this authorCéline Loscos
Search for more papers by this authorYannick Remion
Search for more papers by this authorLaurent Lucas,
Céline Loscos,
Yannick Remion,
Laurent Lucas
Search for more papers by this authorCéline Loscos
Search for more papers by this authorYannick Remion
Search for more papers by this authorBook Editor(s):Laurent Lucas,
Céline Loscos,
Yannick Remion,
Laurent Lucas
Search for more papers by this authorCéline Loscos
Search for more papers by this authorYannick Remion
Search for more papers by this authorFirst published: 11 October 2013
Summary
A broad range of technologies currently allow 3D display. While they mostly remain associated with specific domains of application, they clearly show a long-term trend toward the democratization of these technologies and a genuine, permanent spread of 3D content. This chapter is devoted to autostereoscopic techniques, which present a number of advantages along with certain limitations. It begins by discussing the subjacent technological elements involved in these techniques, before describing the principles of multiplexing multiview images, including design of mixing filters and use. The next section discusses the generation of multiview images, and the concept of interleaving. The chapter ends by offering perspectives for further research.
Bibliography
-
[ADE 93] ADELSON S.J., HODGES L.F., “Stereoscopic ray-tracing”, The Visual Computer, vol. 10, pp. 127–144, 1993.
10.1007/BF01900903 Google Scholar
- [BOG 89] BOGUSZ A., “Holoscopy and holoscopic principles”, Journal of Optics, vol. 20, no. 6, pp. 281–284, 1989.
- [CHU 11] CHULHEE L., GUIWON S., JONGHWA L., et al., “Auto-stereoscopic 3D displays with reduced crosstalk”, Optics Express, vol. 19, no. 24, pp. 24762–24774, 2011.
- [DE 10] DE SORBIER F., NOZICK V., SAITO H., “GPU-based multi-view rendering”, Computer Games, Multimedia and Allied Technology (CGAT 2010), Singapore, pp. 7–13, April 2010.
- [DEV 06] DEVELOPPER TEAM N., “Nvidia: GPU Programming Guide version 2.5.0 (GeForce 7 and earlier GPUs)”, electronic document, available at http://developer.nvidia.com/object/gpu_programming_guide.html, 2006.
- [DOD 05] DODGSON N.A., “Autostereoscopic 3D displays”, Computer, vol. 38, no. 8, pp. 31–36, 2005.
- [FAV 02] FAVALORA G.E., NAPOLI J., HALL D.M., et al., “100-million-voxel volumetric display”, Proceedings of SPIE, vol. 4712, pp. 300–312, 2002.
- [FAV 05] FAVALORA G.E., “Volumetric 3D displays and application infrastructure”, Computer, vol. 38, no. 8, pp. 37–44, 2005.
- [FUC 08] FUCHS M., RASKAR R., SEIDEL H.-P., et al., “Towards passive 6D reflectance field displays”, ACM SIGGRAPH 2008 Papers, SIGGRAPH '08, ACM, New York, NY, pp. 58:1–58:8, 2008.
-
[GOR 96] GORTLER S.J., GRZESZCZUK R., SZELISKI R., et al., “The lumigraph”, Proceedings of the 23rd Annual Conference on Computer Graphics and Interactive Techniques, SIGGRAPH '96, ACM, New York, NY, pp. 43–54, 1996.
10.1145/237170.237200 Google Scholar
- [GRA 10] GRASNICK A., “Universal 4D multiplexing of layered disparity image sequences for pixel and voxel based display devices”, vol. 7526, pp. 75260V–75260V-12, 2010.
- [HAL 05] HALLE M., “Autostereoscopic displays and computer graphics”, ACM SIGGRAPH 2005 Courses, SIGGRAPH '05, ACM, New York, NY, 2005.
- [HIR 10] HIRSCH M., LANMAN D., “Build your own 3D display”, ACM SIGGRAPH 2010 Courses, SIGGRAPH '10, ACM, New York, NY, pp. 4:1–4:106, 2010.
- [HOL 11] HOLLIMAN N.S., DODGSON N.A., FAVALORA G.E., et al., “Three-dimensional displays: a review and applications analysis”, IEEE Transactions on Broadcasting, vol. 57, pp. 362–371, 2011.
-
[HUB 06] HUBNER T., ZHANG Y., PAJAROLA R., “Multi-view point splatting”, Proceedings of the 4th International Conference on Computer Graphics and Interactive Techniques in Australasia and Southeast Asia, GRAPHITE '06, ACM, New York, NY, pp. 285–294, 2006.
10.1145/1174429.1174479 Google Scholar
- [HUB 07] HUBNER T., ZHANG Y., PAJAROLA R., “Single-pass multi-view rendering”, IADIS International Journal on Computer Science and Information Systems, vol. 2, no. 2, pp. 122–140, October 2007.
-
[JIM 11] JIMENEZ J., MASIA B., ECHEVARRIA J.I., et al., “ Practical morphological anti-aliasing”, in ENGEL W. (ed.), GPU Pro 2, AK Peters Ltd., Natick, MA, USA, pp. 95–113, 2011.
10.1201/b11325-10 Google Scholar
- [JON 07] JONES A., MCDOWALL I., YAMADA H., et al., “Rendering for an interactive 360 degree light field display”, ACM SIGGRAPH 2007 Papers, SIGGRAPH '07, ACM, New York, NY, 2007.
- [JUR 11] JURIK J., JONES A., BOLAS M., et al., “Prototyping a light field display involving direct observation of a video projector array”, IEEE International Workshop on Projector-Camera Systems, Colorado Springs, CO, 2011.
- [JUS 04] JU-SEOG J., YONG-SEOK O., BAHRAM J., “Spatiotemporally multiplexed integral imaging projector for large-scale high-resolution three-dimensional display”, Optics Express, vol. 12, no. 4, pp. 557–563, February 2004.
- [KOO 07] KOOIMA R., PETERKA T., GIRADO J., et al., “A GPU sub-pixel algorithm for autostereoscopic virtual reality”, Proceedings VR, IEEE Virtual Reality Conference, Charlotte, NC, USA, pp. 131–137, 2007.
- [LAN 10] LANMAN D., HIRSCH M., KIM Y., et al., “Content-adaptive parallax barriers: optimizing dual-layer 3D displays using low-rank light field factorization”, ACM SIGGRAPH Asia 2010 Papers, SIGGRAPH ASIA '10, ACM, New York, NY, pp. 163:1–163:10, 2010.
-
[LER 09] LEROUX T., BOHER P., BIGNON T., et al., “VCMaster3D: a new fourier optics viewing angle instrument for characterization of autostereoscopic 3D displays”, SID Symposium Digest of Technical Papers, vol. 40, no. 1, pp. 115–118, 2009.
10.1889/1.3256493 Google Scholar
-
[LEV 96] LEVOY M., HANRAHAN P., “Light field rendering”, Proceedings of the 23rd Annual Conference on Computer Graphics and Interactive Techniques, SIGGRAPH '96, ACM, New York, NY, pp. 31–42, 1996.
10.1145/237170.237199 Google Scholar
-
[LUC 95] LUCENTE M., GALYEAN T.A., “Rendering interactive holographic images”, Proceedings of the 22nd Annual Conference on Computer Graphics and Interactive Techniques, SIGGRAPH '95, ACM, New York, NY, pp. 387–394, 1995.
10.1145/218380.218490 Google Scholar
-
[LUE 11] LUEDER E., 3D Displays, Wiley Series in Display Technology, Wiley, 2011.
10.1002/9781119962762 Google Scholar
- [MAR 09] MARTINEZ-CUENCA R., SAAVEDRA G., MARTINEZ-CORRAL M., et al., “Progress in 3-D multiperspective display by integral imaging”, Proceedings of the IEEE, vol. 97, no. 6, pp. 1067–1077, June 2009.
-
[MAT 04] MATUSIK W., PFISTER H., “3D TV: a scalable system for real-time acquisition, transmission, and autostereoscopic display of dynamic scenes”, ACM SIGGRAPH 2004 Papers, SIGGRAPH '04, ACM, New York, NY, pp. 814–824, 2004.
10.1145/1186562.1015805 Google Scholar
- [MOL 05] MOLLER C.N., TRAVIS A. R.L., “Correcting interperspective aliasing in autostereoscopic displays”, IEEE Transactions on Visualization and Computer Graphics, vol. 11, no. 2, pp. 228–236, March 2005.
- [SMO 11] SMOLIC A., “3D video and free viewpoint video, from capture to display”, Pattern Recognition, vol. 44, no. 9, pp. 1958–1968, 2011.
- [STA 10] STAVNESS I., LAM B., FELS S., “pCubee: a perspective-corrected handheld cubic display”, Proceeding CHI, ACM Computer Human Interaction, Atlanta, GA, Etats-Unis, pp. 1381–1390, 2010.
- [VET 07] VETRO A., YEA S., ZWICKER M., et al., “Overview of multiview video coding and anti-aliasing for 3D displays”, Proceedings of the International Conference on Image Processing (ICIP 2007), IEEE, San Antonio, TX, pp. 17–20, 2007.
- [WET 11] WETZSTEIN G., LANMAN D., HEIDRICH W., et al., “Layered 3D: tomographic image synthesis for attenuation-based light field and high dynamic range displays”, ACM SIGGRAPH 2011 Papers, SIGGRAPH '11, ACM, New York, NY, pp. 95:1–95:12, 2011.
- [ZWI 07] ZWICKER M., VETRO A., YEA S., et al., “Resampling, antialiasing, and compression in multiview 3-D displays”, IEEE Signal Processing Magazine, vol. 24, pp. 88–96, 2007.
