Abstract

This paper describes a viewing-zone-angle- expanded color electronic holography system using ultra-high-definition liquid crystal displays (LCDs) with undesirable light elimination. The authors first investigate methods eliminating undesirable light, color aberration, and astigmatism. They then investigate spatio–temporal multiplexing methods to reduce system complexity. These investigations enable an electronic holography system to be constructed using 33 Mpixel LCDs. Experimental results show high-quality full-color 3D images with a diagonal size of 4 cm, viewing-zone-angle of 15 deg, and frame rate of 20 fps.

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  1. H. Harashima, Ministry of Internal Affairs and CommunicationsJapan“Final Report of Universal Communication Technology Research Committee,” (2005).
  2. K. Enami, "Toward the research promotion on ultra-realistic system," Image Lab Jpn. 18, 41-45 (2007).
  3. D. Gabor, "A new microscopic principle," Nature 777-778 (1948).
  4. P. S. Hilaire, S. A. Benton, M. Lucente, M. L. Jepsen, J. Kollin, H. Yoshikawa, J. Underkoffler, "Electronic display system for computational holography," Proc SPIE (1990) pp. 174-182.
  5. N. Hashimoto, S. Morokawa, K. Kitamura, "Real-time holography using the high-resolution LCTV-SLM," Proc. SPIE (1991) pp. 291-302.
  6. K. Maeno, N. Fukaya, O. Nishikawa, "Electro-holographic display using 15 Mega pixels LCD," Proc. SPIE (1996) pp. 15-23.
  7. K. Takano, K. Kaneko, N. Minami, K. Sato, "Study on color holography 3DTV with white light," Proc. 3D Image Conf. Jpn. (2000) pp. 179-182.
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  10. K. Sato, A. Sugita, M. Morimoto, K. Fujii, "Reconstruction of color images of high quality by a holographic display," Proc. SPIE (2006) pp. 61360V.
  11. Y. Takaki, Y. Hayashi, "Increased horizontal viewing zone angle of a hologram by resolution redistribution of a spatial light modulator," Appl. Opt. 47, D6-11 (2008).
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  14. Y. Takaki, Y. Hayashi, "Elimination of conjugate image for holograms using a resolution redistribution optical system," Appl. Opt. 47, 4302-4308 (2008).
  15. K. Takano, N. Minami, K. Sato, "Simple method of color electro-holographic display system using a white source and three LCD panels," Proc. 2001 IEEE Int. Conf. Multimedia & Expo. (2001) pp. 105-108.
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  23. T. Senoh, T. Mishina, M. Okui, "Study on quality improvement of electronic holography for ultra-realistic communication," J. IIEE Japan 37, 637-644 (2008).
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  25. T. Senoh, T. Mishina, M. Okui, "Study on astigmatism of electronic holography," J. IIITE Jpn. 62, 1127-1132 (2008).
  26. T. Mishina, M. Okui, F. Okano, "Viewing-zone-angle enlargement method for sampled hologram that uses high-order diffraction," Appl. Opt. 41, 1489-1499 (2002).
  27. K. Yamamoto, T. Mishina, R. Oi, T. Senoh, T. Kurita, "Real-time color holography system for live scene using 4K2K video system," Proc. SPIE (2010).

2008 (5)

T. Mishina, R. Oi, J. Arai, F. Okano, M. Okui, "Three-dimensional image reconstruction of real objects by electronic holography applying viewing zone enlargement method to conversion of integral photography into hologram," J. IIITE Japan 62, 1565-1572 (2008).

Y. Takaki, Y. Hayashi, "Elimination of conjugate image for holograms using a resolution redistribution optical system," Appl. Opt. 47, 4302-4308 (2008).

Y. Takaki, Y. Hayashi, "Increased horizontal viewing zone angle of a hologram by resolution redistribution of a spatial light modulator," Appl. Opt. 47, D6-11 (2008).

T. Senoh, T. Mishina, M. Okui, "Study on quality improvement of electronic holography for ultra-realistic communication," J. IIEE Japan 37, 637-644 (2008).

T. Senoh, T. Mishina, M. Okui, "Study on astigmatism of electronic holography," J. IIITE Jpn. 62, 1127-1132 (2008).

2007 (1)

K. Enami, "Toward the research promotion on ultra-realistic system," Image Lab Jpn. 18, 41-45 (2007).

2006 (1)

K. Yamaguchi, H. Yoshikawa, "Interactive holographic television – High-speed by image-type and full-color by rainbow-hologram -," J. IIITE Jpn. 60, 153-158 (2006).

2003 (1)

T. Shimobaba, T. Ito, "A color holographic reconstruction system by time division multiplexing method with reference lights of laser," Opt. Rev. 10, 339-341 (2003).

2002 (3)

1999 (1)

1968 (1)

O. Bryngdahl, A. Lohman, "Single-sideband holography," J Opt. Soc. Amer. 58, 620-624 (1968).

1962 (1)

E. N. Leith, J. Upatnieks, "Reconstructed wavefront and communication theory," J. Opt. Soc. Amer. 52, 1123-1130 (1962).

1948 (1)

D. Gabor, "A new microscopic principle," Nature 777-778 (1948).

Appl. Opt. (5)

Image Lab Jpn. (1)

K. Enami, "Toward the research promotion on ultra-realistic system," Image Lab Jpn. 18, 41-45 (2007).

J Opt. Soc. Amer. (1)

O. Bryngdahl, A. Lohman, "Single-sideband holography," J Opt. Soc. Amer. 58, 620-624 (1968).

J. IIEE Japan (1)

T. Senoh, T. Mishina, M. Okui, "Study on quality improvement of electronic holography for ultra-realistic communication," J. IIEE Japan 37, 637-644 (2008).

J. IIITE Japan (1)

T. Mishina, R. Oi, J. Arai, F. Okano, M. Okui, "Three-dimensional image reconstruction of real objects by electronic holography applying viewing zone enlargement method to conversion of integral photography into hologram," J. IIITE Japan 62, 1565-1572 (2008).

J. IIITE Jpn. (2)

K. Yamaguchi, H. Yoshikawa, "Interactive holographic television – High-speed by image-type and full-color by rainbow-hologram -," J. IIITE Jpn. 60, 153-158 (2006).

T. Senoh, T. Mishina, M. Okui, "Study on astigmatism of electronic holography," J. IIITE Jpn. 62, 1127-1132 (2008).

J. Opt. Soc. Amer. (1)

E. N. Leith, J. Upatnieks, "Reconstructed wavefront and communication theory," J. Opt. Soc. Amer. 52, 1123-1130 (1962).

Nature (1)

D. Gabor, "A new microscopic principle," Nature 777-778 (1948).

Opt. Lett. (1)

Opt. Rev. (1)

T. Shimobaba, T. Ito, "A color holographic reconstruction system by time division multiplexing method with reference lights of laser," Opt. Rev. 10, 339-341 (2003).

Other (12)

A. Sugita, K. Satoh, K. Fujii, M. Morimoto, "Viewing zone enlargement for color electronic holography," Proc IEICE Conv. 2004 (2004) pp. 162.

S. Nakazaki, K. Sato, M. Morimoto, K. Fujii, "Real-time color holography with high-resolution reflective LCD panels," Proc SPIE—IS&T Electron. Imag. (2004) pp. 50-57.

T. Takemori, ITEJapan“3D expression with LCD panel – high-speed computation method,” Tech. Rep. (1997)21.

K. Takano, N. Minami, K. Sato, "Simple method of color electro-holographic display system using a white source and three LCD panels," Proc. 2001 IEEE Int. Conf. Multimedia & Expo. (2001) pp. 105-108.

H. Harashima, Ministry of Internal Affairs and CommunicationsJapan“Final Report of Universal Communication Technology Research Committee,” (2005).

K. Sato, A. Sugita, M. Morimoto, K. Fujii, "Reconstruction of color images of high quality by a holographic display," Proc. SPIE (2006) pp. 61360V.

P. S. Hilaire, S. A. Benton, M. Lucente, M. L. Jepsen, J. Kollin, H. Yoshikawa, J. Underkoffler, "Electronic display system for computational holography," Proc SPIE (1990) pp. 174-182.

N. Hashimoto, S. Morokawa, K. Kitamura, "Real-time holography using the high-resolution LCTV-SLM," Proc. SPIE (1991) pp. 291-302.

K. Maeno, N. Fukaya, O. Nishikawa, "Electro-holographic display using 15 Mega pixels LCD," Proc. SPIE (1996) pp. 15-23.

K. Takano, K. Kaneko, N. Minami, K. Sato, "Study on color holography 3DTV with white light," Proc. 3D Image Conf. Jpn. (2000) pp. 179-182.

T. Senoh, T. Mishina, M. Okui, IIITEJapan“Study on aberration compensation of electronic holography,” Tech. Rep. 3DIT2008-3, HI2008-45 (2008)32.

K. Yamamoto, T. Mishina, R. Oi, T. Senoh, T. Kurita, "Real-time color holography system for live scene using 4K2K video system," Proc. SPIE (2010).

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