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Applied Optics

Applied Optics

APPLICATIONS-CENTERED RESEARCH IN OPTICS

  • Editor: James C. Wyant
  • Vol. 47, Iss. 19 — Jul. 1, 2008
  • pp: D21–D27

Modified Fresnel computer-generated hologram directly recorded by multiple-viewpoint projections

Natan T. Shaked and Joseph Rosen  »View Author Affiliations


Applied Optics, Vol. 47, Issue 19, pp. D21-D27 (2008)
http://dx.doi.org/10.1364/AO.47.000D21


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Abstract

An efficient method for obtaining modified Fresnel holograms of real existing three-dimensional (3-D) scenes illuminated by incoherent white light is presented. To calculate the hologram, the method uses multiple-viewpoint projections of the 3-D scene. However, contrary to other similar methods, this one is able to calculate the Fresnel hologram of the 3-D scene directly rather than calculating a Fourier hologram first. This significantly decreases the amount of calculations needed to obtain the hologram and also reduces the reconstruction errors. The proposed method is first mathematically introduced and then demonstrated by both simulations and experiments.

© 2008 Optical Society of America

OCIS Codes
(090.0090) Holography : Holography
(090.1760) Holography : Computer holography
(100.6890) Image processing : Three-dimensional image processing
(110.6880) Imaging systems : Three-dimensional image acquisition

History
Original Manuscript: October 15, 2007
Manuscript Accepted: November 30, 2007
Published: February 8, 2008

Citation
Natan T. Shaked and Joseph Rosen, "Modified Fresnel computer-generated hologram directly recorded by multiple-viewpoint projections," Appl. Opt. 47, D21-D27 (2008)
http://www.opticsinfobase.org/ao/abstract.cfm?URI=ao-47-19-D21


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References

  1. Y. Li, D. Abookasis, and J. Rosen, “Computer-generated holograms of three-dimensional realistic objects recorded without wave interference,” Appl. Opt. 40, 2864-2870 (2001). [CrossRef]
  2. D. Abookasis and J. Rosen, “Computer-generated holograms of three-dimensional objects synthesized from their multiple angular viewpoints,” J. Opt. Soc. Am. A 20, 1537-1545 (2003). [CrossRef]
  3. Y. Sando, M. Itoh, and T. Yatagai, “Holographic three-dimensional display synthesized from three-dimensional Fourier spectra of real existing objects,” Opt. Lett. 28, 2518-2520 (2003). [CrossRef] [PubMed]
  4. T. Yatagai, “Stereoscopic approach to 3-D display using computer-generated holograms,” Appl. Opt. 15, 2722-2729 (1976). [CrossRef] [PubMed]
  5. D. Abookasis and J. Rosen, “Three types of computer-generated hologram synthesized from multiple angular viewpoints of a three-dimensional scene,” Appl. Opt. 45, 6533-6538 (2006). [CrossRef] [PubMed]
  6. N. T. Shaked, J. Rosen, and A. Stern, “Integral holography: white-light single-shot hologram acquisition,” Opt. Express 15, 5754-5760 (2007). [CrossRef] [PubMed]
  7. B. Katz, N. T. Shaked, and J. Rosen, “Synthesizing computer generated holograms with reduced number of perspective projections,” Opt. Express 15, 13250-13255 (2007). [CrossRef] [PubMed]
  8. Y. Sando, M. Itoh, and T. Yatagai, “Full-color computer-generated holograms using 3-D Fourier spectra,” Opt. Express 12, 6246-6251 (2004). [CrossRef] [PubMed]
  9. J. W. Goodman, Introduction to Fourier Optics, 2nd ed. (McGraw-Hill, 1996), pp. 67 and 353.

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