Abstract

In this paper, we have devised a novel projection screen using a double-sided lenticular lens with a diffusion angle range quantized by the incident light angle and a constant diffusion light intensity, independent of the angle of the incident light. We developed high-resolution multi-view projection display using a novel projection screen and multiple projectors. Our display system has the advantage of making it easy to align multiple projectors, and the capability of simultaneously projecting multiple different images at different viewing angles at any distance from the projection screen.

© 2012 IEEE

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  1. A. Jones, M. Lang, G. Fyffe, X. Yu, J. Busch, I. McDowall, M. Bolas, P. Debevec, "Achieving eye contact in a one to many 3D video teleconferencing system," ACM Trans. Graphics 28, 64 (2009).
  2. I. Feldmann, W. Waizenegger, N. Atzpadin, O. Schreer, "Real-time depth estimation for immersive 3D videoconferencing," Proc. 3DTV-CON 2010 (2010).
  3. T. Takaya, Sharp Tech. J, 21-23 (2007).
  4. Sharp Inc.“Sharp Triple Directional Viewing LCDs,” http://sharp-world.com/products/device/about/lcd/dual/.
  5. H. Isono, S. Komiyama, H. Tamegaya, "An autostereoscopic 3-D HDTV display system with reality and presence," SID'96 Dig. (1996) pp. 135-138.
  6. C. Yamada, H. Isono, "A new method of designing double lenticular screen for large rear projection 3-D display," IDW'03 (2003) pp. 1437-1440.
  7. Z. Megyesi, A. Barsi, T. Balogh, "3D video visualization on the holovizio system," 3DTV Conf. (2008) pp. 269-272.
  8. M. Kawakita, S. Iwasawa, M. Sakai, Y. Haino, M. Sato, T. Kurita, N. Inoue, "200-inch glasses-free 3D-display using projector array," IDW'11 (2011) pp. 1065-1068.

2009 (1)

A. Jones, M. Lang, G. Fyffe, X. Yu, J. Busch, I. McDowall, M. Bolas, P. Debevec, "Achieving eye contact in a one to many 3D video teleconferencing system," ACM Trans. Graphics 28, 64 (2009).

2007 (1)

T. Takaya, Sharp Tech. J, 21-23 (2007).

ACM Trans. Graphics (1)

A. Jones, M. Lang, G. Fyffe, X. Yu, J. Busch, I. McDowall, M. Bolas, P. Debevec, "Achieving eye contact in a one to many 3D video teleconferencing system," ACM Trans. Graphics 28, 64 (2009).

Sharp Tech. J, (1)

T. Takaya, Sharp Tech. J, 21-23 (2007).

Other (6)

Sharp Inc.“Sharp Triple Directional Viewing LCDs,” http://sharp-world.com/products/device/about/lcd/dual/.

H. Isono, S. Komiyama, H. Tamegaya, "An autostereoscopic 3-D HDTV display system with reality and presence," SID'96 Dig. (1996) pp. 135-138.

C. Yamada, H. Isono, "A new method of designing double lenticular screen for large rear projection 3-D display," IDW'03 (2003) pp. 1437-1440.

Z. Megyesi, A. Barsi, T. Balogh, "3D video visualization on the holovizio system," 3DTV Conf. (2008) pp. 269-272.

M. Kawakita, S. Iwasawa, M. Sakai, Y. Haino, M. Sato, T. Kurita, N. Inoue, "200-inch glasses-free 3D-display using projector array," IDW'11 (2011) pp. 1065-1068.

I. Feldmann, W. Waizenegger, N. Atzpadin, O. Schreer, "Real-time depth estimation for immersive 3D videoconferencing," Proc. 3DTV-CON 2010 (2010).

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