Browse > Article
http://dx.doi.org/10.3807/KJOP.2015.26.5.249

Binocular Holographic Three-Dimensional Imaging System Using Optical Scanning Holography  

Kim, You Seok (Department of Optical Engineering, Sejong University)
Kim, Taegeun (Department of Optical Engineering, Sejong University)
Publication Information
Korean Journal of Optics and Photonics / v.26, no.5, 2015 , pp. 249-254 More about this Journal
Abstract
In this paper we propose a binocular holographic three-dimensional (3D) imaging system using optical scanning holography. To realize a binocular 3D holographic imaging system, we could acquire the complex holograms of a real object after designing a holographic display system based on interpupillary distance and pupil size, and these holograms could be optically reconstructed following numerical signal processing with an amplitude spatial light modulator. The proposed binocular 3D holographic imaging system using optical scanning holography was verified experimentally.
Keywords
Holography; Optical scanning holography;
Citations & Related Records
연도 인용수 순위
  • Reference
1 S. Herman, "Principles of binocular 3D displays with applications to television," SMPTE Motion Imaging J. 80, 539-544 (1971).   DOI
2 S. Pastoor and M. Wopking, "3-D displays: A review of current technologies," Displays 17, 100-110 (1997).   DOI
3 F. L. Kooi and A. Toet, "Visual comfort of binocular and 3D displays," Displays 25, 99-108 (2004).   DOI
4 J. Maycock, B. M. Hennelly, J. B. McDonald, Y. Frauel, A. Castro, B. Javidi, and T. J. Naughton, "Reduction of speckle in digital holography by discrete Fourier filtering," J. Opt. Soc. Am. A. Opt. Image Sci. Vis. 24, 1617-1622 (2007).   DOI
5 V. Bianco, M. Paturzo, P. Memmolo, A. Finizio, P. Ferraro, and B. Javidi, "Random resampling masks: a non-Bayesian one-shot strategy for noise reduction in digital holography," Opt. Lett. 38, 619-621 (2013).   DOI
6 Y. S. Kim, T. Kim, S. S. Woo, H. Kang, T. C. Poon, and C. Zhou, "Speckle-free digital holographic recording of a diffusely reflecting object," Opt. Express 21, 8183-8189 (2013).   DOI
7 J. Liu, C. Guo, W. Hsiao, T. Poon, and P. Tsang, "Coherence experiments in single-pixel digital holography," Opt. Lett. 40, 2366-2369 (2015).   DOI
8 J. Liu, "Spatial coherence analysis for optical scanning holography," Appl. Opt. 54, A59-A66 (2015).   DOI
9 S. Reichelt and N. Leister, "Computational hologram synthesis and representation on spatial light modulators for real-time 3D holographic imaging," J. Phys. Conf. Ser. 415, 012038 (2013).   DOI
10 S. Reichelt, R. Haussler, G. Futterer, N. Leister, H. Kato, N. Usukura, and Y. Kanbayashi, "Full-range, complex spatial light modulator for real-time holography," Opt. Lett. 37, 1955 (2012).   DOI
11 S. Reichelt, R. Haussler, G. Futterer, and N. Leister, "Depth cues in human visual perception and their realization in 3D displays," Three Dimens. Imaging, Vis. Disp. 2010, 76900B-1-76900B-12 (2010).
12 T.-C. Poon, "Scanning holography and two-dimensional image processing by acousto-optic two-pupil synthesis," J. Opt. Soc. Am. A 2, 521 (1985).   DOI
13 J. P. Wann, S. Rushton, and M. Mon-Williams, "Natural problems for stereoscopic depth perception in virtual environments," Vision Res. 35, 2731-2736 (1995).   DOI
14 H. Urey, K. V. Chellappan, E. Erden, and P. Surman, "State of the art in stereoscopic and autostereoscopic displays," Proc. IEEE 99, 540-555 (2011).   DOI   ScienceOn
15 D. M. Hoffman, A. R. Girshick, and M. S. Banks, "Vergence - accommodation con flicts hinder visual performance and cause visual fatigue," J. Vis. 8, 1-30 (2008).
16 M. T. M. Lambooij, W. A. IJsselsteijn, and I. Heynderickx, "Visual discomfort in stereoscopic displays: a review," Proc. SPIE 6490, I1-13 (2007).
17 D. Gabor, "Holography, 1948-1971," Proc. IEEE 60, 665-668 (1972).
18 D. Gabor, "A new microscopic principle," Nature 161, 777-778 (1948).   DOI
19 J. W. Goodman, Speckle Phenomena in Optics: Theory and Applications (Roberts and Company Publishers, Colorado, USA, 2007).
20 Y. Wang, P. Meng, D. Wang, L. Rong, and S. Panezai, "Speckle noise suppression in digital holography by angular diversity with phase-only spatial light modulator," Opt. Express 21, 1463-1472 (2013).
21 C. Quan, X. Kang, and C. J. Tay, "Speckle noise reduction in digital holography by multiple holograms," Opt. Eng. 46, 115801 (2007).   DOI   ScienceOn
22 A. Uzan, Y. Rivenson, and A. Stern, "Speckle denoising in digital holography by nonlocal means filtering," Appl. Opt. 52, A195-200 (2013).   DOI
23 Y. S. Kim, T. Kim, T. C. Poon, and J. T. Kim, "Three-dimensional display of a horizontal-parallax-only hologram," Appl. Opt. 50, B81-B87 (2011).   DOI
24 P. G. Gobbi, Optical Visual Performance Human Eye (SPIE Press Book, Washington D.C., USA, 2013).
25 L. Rossi, L. Zegna, P. Iacomussi, and G. Rossi, "Pupil size under different lighting sources," in Proc. CIE 2012' Lighting Quality & Energy Efficiency Conference (Hangzhou, China, 2012), pp. 199-200.