Analysis of 3-D integral imaging displays using the Wigner distribution

Integral imaging is a promising technology for 3-D TV and 3-D display. In this paper, a theoretical analysis of 3-D integral imaging systems is performed in the frame of the Wigner distribution formalism. It is shown that the entire intensity distribution in the pick-up image plane of these systems...

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Veröffentlicht in:	Journal of display technology 2006-06, Vol.2 (2), p.180-185
Hauptverfasser:	Furlan, W.D., Martinez-Corral, M., Javidi, B., Saavedra, G.
Format:	Artikel
Sprache:	eng
Schlagworte:	3-D image processing Depth of field Displays Distribution functions Formalism Image analysis Imaging Integrals Lenses Microoptics Multiple perspective imaging Optical arrays Optical imaging Performance analysis Pupils Sensor arrays Three dimensional Three dimensional displays three-dimensional (3-D) image acquisition Wigner distribution
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container_title	Journal of display technology
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creator	Furlan, W.D. Martinez-Corral, M. Javidi, B. Saavedra, G.
description	Integral imaging is a promising technology for 3-D TV and 3-D display. In this paper, a theoretical analysis of 3-D integral imaging systems is performed in the frame of the Wigner distribution formalism. It is shown that the entire intensity distribution in the pick-up image plane of these systems can be obtained from a single 2-D Wigner distribution function of a single lenslet pupil. This result reveals the Wigner distribution function as a powerful tool for analysis of 3-D integral imaging systems with different pupil functions. As an example, the extension of the depth of field of an integral imaging system with lenslets having amplitude modulation (central obscuration) is proposed
doi_str_mv	10.1109/JDT.2006.874508
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In this paper, a theoretical analysis of 3-D integral imaging systems is performed in the frame of the Wigner distribution formalism. It is shown that the entire intensity distribution in the pick-up image plane of these systems can be obtained from a single 2-D Wigner distribution function of a single lenslet pupil. This result reveals the Wigner distribution function as a powerful tool for analysis of 3-D integral imaging systems with different pupil functions. As an example, the extension of the depth of field of an integral imaging system with lenslets having amplitude modulation (central obscuration) is proposed</abstract><cop>New York</cop><pub>IEEE</pub><doi>10.1109/JDT.2006.874508</doi><tpages>6</tpages></addata></record>
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subjects	3-D image processing Depth of field Displays Distribution functions Formalism Image analysis Imaging Integrals Lenses Microoptics Multiple perspective imaging Optical arrays Optical imaging Performance analysis Pupils Sensor arrays Three dimensional Three dimensional displays three-dimensional (3-D) image acquisition Wigner distribution
title	Analysis of 3-D integral imaging displays using the Wigner distribution
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