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Chinese Optics Letters

Chinese Optics Letters


  • Editor: Yunlong Sheng, Byoungho Lee, Yongtian Wang
  • Vol. 12, Iss. 6 — Jun. 1, 2014
  • pp: 060022–

Theoretical bounds on Fresnel compressive holography performance (Invited Paper)

Adrian Stern and Yair Rivenson  »View Author Affiliations

Chinese Optics Letters, Vol. 12, Issue 6, pp. 060022- (2014)

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During the last years the theory of compressive sensing has found significant utility in the digital holography realm. In this letter we summarize and extend our previous theoretical results which determine the relation between the number of Fresnel samples required on the object illumination type, illumination wavelength, imaging geometry and sensor's size and resolution.

© 2014 Chinese Optics Letters

OCIS Codes
(200.2610) Optics in computing : Free-space digital optics
(110.1758) Imaging systems : Computational imaging
(090.1995) Holography : Digital holography

ToC Category:
Computer generated hologram

Adrian Stern and Yair Rivenson, "Theoretical bounds on Fresnel compressive holography performance (Invited Paper)," Chin. Opt. Lett. 12, 060022- (2014)

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  1. T. Kreis, Handbook of Holographic Interferometry, 1st ed. (Wiley-VCH, Weinheim, 2004), Chap. 3.
  2. E. Cand`es and M. Wakin, IEEE Signal Processing Magazine 25, 21 (2008).
  3. Y. C. Eldar and G. Kutyniok, Compressed Sensing: Theory and Applications (Cambridge University Press, 2012).
  4. M. Elad, Sparse and Redundant Representations: From Theory to Applications in Signal and Image Processing (Springer, 2010).
  5. Y. Rivenson and A. Stern, Opt. Lett. 36, 3365 (2011).
  6. Y. Rivenson, A. Stern, and B. Javidi, Appl. Opt. 52, A423 (2013).
  7. A. M. Bruckstein, D. L. Donoho, and M. Elad, SIAM Review 51, 34 (2009).
  8. D. Mas, J. Garcia, C. Ferreira, L. M. Bernardo and F. Marinho, Opt. Commun. 164, 233 (1999).
  9. Y. Rivenson and A. Stern, IEEE Signal Processing Lett. 16, 449 (2009).
  10. J. W. Goodman, Introduction to Fourier Optics (McGraw-Hill, 1996).
  11. Y. Rivenson, A. Stern, and B. Javidi, IEEE/OSA Disp. Techol. J. 6, 506 (2010).
  12. Y. Rivenson, A. Rot, S. Balber, A. Stern, and J. Rosen, Opt. Lett. 37, 1757 (2012).
  13. Y. Liu, L. Tian, J. Lee, H. Huang, M. Triantafyllou, and G. Barbastathis, Opt. Lett. 37, 3357 (2012).
  14. L. Denis, D. Lorenz, E. Thiebaut, C. Fournier, and D. Trede, Opt. Lett. 34, 3475 (2009).
  15. D. J. Brady, K. Choi, D. L. Marks, R. Horisaki, and S. Lim, Opt. Express 17, 13040 (2009).
  16. Y. Rivenson, A. Stern, and J. Rosen, Opt. Lett. 38, 2509 (2013).
  17. A. F. Coskun, I. Sencan, T.-W. Su, and A. Ozcan, Opt. Express 18, 10510 (2010).
  18. Y. Rivenson, A. Stern, and J. Rosen, Opt. Express 19, 6109 (2011).
  19. G. Nehmetallah and P. Banerjee, Adv. Opt. Photon. 4, 472 (2012).
  20. Y. Rivenson, A. Stern, and J. Rosen, Opt. Lett. 38, 2509 (2013).

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