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Journal of Display Technology

Journal of Display Technology

| A JOINT IEEE/OSA PUBLICATION

  • Vol. 6, Iss. 10 — Oct. 1, 2010
  • pp: 422–430

Integral Three-Dimensional Television Using a 33-Megapixel Imaging System

Jun Arai, Fumio Okano, Masahiro Kawakita, Makoto Okui, Yasuyuki Haino, Makoto Yoshimura, Masato Furuya, and Masahito Sato

Journal of Display Technology, Vol. 6, Issue 10, pp. 422-430 (2010)


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Abstract

We have developed integral three-dimensional (3D) television using an ultra high definition imaging system. The system uses a device having 7680 pixels in the horizontal direction and 4320 pixels in the vertical direction for each of the red, green, and blue channels. A lens array comprising 400 lenses is configured in the horizontal direction and one comprising 250 lenses is configured in the vertical direction. The system is designed to ensure a maximum spatial frequency of 11.3 cycles/degree and a viewing angle of 24 degrees when the display is observed from three times the display height. The setup described here has simultaneously maintained the balance between the maximum spatial frequency and the viewing angle by shortening the focal length of the elemental lens while narrowing the pitch of the elemental lens. We have confirmed the generation of 3D images with an appearance that varies in a natural manner according to the position of the observer.

© 2010 IEEE

Citation
Jun Arai, Fumio Okano, Masahiro Kawakita, Makoto Okui, Yasuyuki Haino, Makoto Yoshimura, Masato Furuya, and Masahito Sato, "Integral Three-Dimensional Television Using a 33-Megapixel Imaging System," J. Display Technol. 6, 422-430 (2010)
http://www.opticsinfobase.org/jdt/abstract.cfm?URI=jdt-6-10-422


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References

  1. M. G. Lippmann, "Épreuves réversibles donnant la sensation du relief," J. de Phys. 4, 821-825 (1908).
  2. C. B. Burckhardt, R. J. Collier, E. T. Doherty, "Formation and inversion of pseudoscopic images," Appl. Opt. 7, 627-631 (1968).
  3. N. Davies, M. McCormick, L. Yang, "3D imaging systems: A new development," Appl. Opt. 27, 4520-4528 (1988).
  4. N. Davies, M. McCormick, M. Brewin, "Design and analysis of an image tranfer system using microlens arrays," Opt. Eng. 33, 3624-3633 (1994).
  5. Three-Dimensional Television, Video, and Display Technologies (Springer-Verlag, 2002).
  6. M. Martínez-Corral, B. Javidi, R. Martínez-Cuenca, G. Saavedra, "Integral imaging with improved depth of field by use of amplitude-modulated microlens arrays," Appl. Opt. 43, 5806-5813 (2004).
  7. C. B. Burckhardt, "Optimum parameters and resolution limitation of integral photography," J. Opt. Soc. Amer. 58, 71-76 (1968).
  8. J.-H. Park, S.-W. Min, B. Javidi, "Analysis of viewing parameters for two display method based on integral photography," Appl. Opt. 40, 5217-5235 (2001).
  9. B. Lee, S.-W. Min, B. Javidi, "Theoretical analysis for three-dimensional integral imaging systems with double devices," Appl. Opt. 41, 4856-4865 (2002).
  10. A. Stern, B. Javidi, "Shannon number and information capacity of three-dimensional integral imaging," J. Opt. Soc. Amer. A 21, 1602-1612 (2004).
  11. F. Okano, J. Arai, H. Hoshino, I. Yuyama, "Three-dimensional video system based on integral photography," Opt. Eng. 38, 1072-1077 (1999).
  12. J. Arai, M. Okui, T. Yamashita, F. Okano, "Integral three-dimensional television using a 2000-scanning-line video system," Appl. Opt. 45, 1704-1712 (2006).
  13. T. Yamashita, S. Huang, R. Funatsu, B. Mansoorian, K. Mitani, Y. Nojiri, "Experimental color video capturing equipment with three 33-megapixel CMOS image sensors," Proc. SPIE (2009) pp. 72490H1-72490H10.
  14. T. Nagoya, T. Kozakai, T. Suzuki, M. Furuya, K. Iwasa, "The D-ILA device for the world's highest definition (8K4K) projection systems," Proc. Int. Display Workshop (2008) pp. 203-206.
  15. H. E. Ives, "Optical properties of a Lippmann lenticulated sheet," J. Opt. Soc. Amer. A 21, 171-176 (1931).
  16. F. Okano, J. Arai, M. Kawakita, "Wave optical analysis of integral method for three-dimensional images," Opt. Lett. 32, 364-366 (2007).
  17. H. Hoshino, F. Okano, H. Isono, I. Yuyama, "Analysis of resolution limitation of integral photography," J. Opt. Soc. Amer. A 15, 2059-2065 (1998).
  18. J. Arai, H. Hoshino, M. Okui, F. Okano, "Effects of focusing on the resolution characteristics of integral photography," J. Opt. Soc. Amer. A 20, 996-1004 (2003).
  19. J. Arai, H. Kawai, M. Kawakita, F. Okano, "Depth-control method for integral imaging," Opt. Lett. 33, 279-281 (2008).
  20. M. Kawakita, H. Sasaki, J. Arai, F. Okano, K. Suehiro, Y. Haino, M. Yoshimura, M. Sato, "Geometric analysis of spatial distortion in projection-type integral imaging," Opt. Lett. 33, 684-686 (2008).
  21. H. Sasaki, M. Kawakita, J. Arai, M. Okui, F. Okano, Y. Haino, M. Yoshimura, M. Sato, "Analysis and compensation of spatial distortion in integral three-dimensional imaging," Proc. 3rd Int. Universal Commun. Symp. (2009) pp. 64-69.

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