Progress Overview of Capturing Method for Integral 3-D Imaging Displays

An integral 3-D technique provides a 3-D spatial image viewable from varying positions without the use of special light sources or viewing glasses. Therefore, this technique shows promise for diverse applications in various fields, including 3-D television broadcasting, advertising, and medical diag...

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Veröffentlicht in:	Proceedings of the IEEE 2017-05, Vol.105 (5), p.837-849
Hauptverfasser:	Arai, Jun, Nakasu, Eisuke, Yamashita, Takayuki, Hiura, Hitoshi, Miura, Masato, Nakamura, Tomohiro, Funatsu, Ryohei
Format:	Artikel
Sprache:	eng
Schlagworte:	High resolution Image capturing image displays Image processing Image reconstruction Image resolution integral imaging Integrals IP networks Lenses Light sources Metal oxides Parallax Sensor arrays Spatial data Three dimensional imaging three-dimensional 3-D television Three-dimensional displays
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creator	Arai, Jun Nakasu, Eisuke Yamashita, Takayuki Hiura, Hitoshi Miura, Masato Nakamura, Tomohiro Funatsu, Ryohei
description	An integral 3-D technique provides a 3-D spatial image viewable from varying positions without the use of special light sources or viewing glasses. Therefore, this technique shows promise for diverse applications in various fields, including 3-D television broadcasting, advertising, and medical diagnostics. However, there are problems in capturing and displaying large amounts of information in realizing practical integral imaging devices. This paper overviews integral 3-D capturing methods and analyzes integral 3-D imaging technology at its capturing and displaying stages. To overcome the resolution problem, it also introduces our recent work for capturing high-resolution integral imaging information. The introduced device consists of a multiple-lens array and a complementary metal-oxide-semiconductor image sensor with a circuit patterned using multiple exposures. This device can capture depth-controlled spatial information by introducing additional optics. Two types of optics for depth control are applied to the capturing device: one functions as a convex lens to control and compress a relatively large object space and the other functions as an afocal lens array that controls a relatively small object space without any distortion in the depthwise direction. Experimental results of spatial information capturing and 3-D image displays confirm that the method produces 3-D images having an appropriate motion parallax. The presented method is scalable; thus, this technique offers possibilities for developing advanced high-resolution integral 3-D imaging devices.
doi_str_mv	10.1109/JPROC.2017.2652541
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Therefore, this technique shows promise for diverse applications in various fields, including 3-D television broadcasting, advertising, and medical diagnostics. However, there are problems in capturing and displaying large amounts of information in realizing practical integral imaging devices. This paper overviews integral 3-D capturing methods and analyzes integral 3-D imaging technology at its capturing and displaying stages. To overcome the resolution problem, it also introduces our recent work for capturing high-resolution integral imaging information. The introduced device consists of a multiple-lens array and a complementary metal-oxide-semiconductor image sensor with a circuit patterned using multiple exposures. This device can capture depth-controlled spatial information by introducing additional optics. Two types of optics for depth control are applied to the capturing device: one functions as a convex lens to control and compress a relatively large object space and the other functions as an afocal lens array that controls a relatively small object space without any distortion in the depthwise direction. Experimental results of spatial information capturing and 3-D image displays confirm that the method produces 3-D images having an appropriate motion parallax. 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Two types of optics for depth control are applied to the capturing device: one functions as a convex lens to control and compress a relatively large object space and the other functions as an afocal lens array that controls a relatively small object space without any distortion in the depthwise direction. Experimental results of spatial information capturing and 3-D image displays confirm that the method produces 3-D images having an appropriate motion parallax. 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Therefore, this technique shows promise for diverse applications in various fields, including 3-D television broadcasting, advertising, and medical diagnostics. However, there are problems in capturing and displaying large amounts of information in realizing practical integral imaging devices. This paper overviews integral 3-D capturing methods and analyzes integral 3-D imaging technology at its capturing and displaying stages. To overcome the resolution problem, it also introduces our recent work for capturing high-resolution integral imaging information. The introduced device consists of a multiple-lens array and a complementary metal-oxide-semiconductor image sensor with a circuit patterned using multiple exposures. This device can capture depth-controlled spatial information by introducing additional optics. 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subjects	High resolution Image capturing image displays Image processing Image reconstruction Image resolution integral imaging Integrals IP networks Lenses Light sources Metal oxides Parallax Sensor arrays Spatial data Three dimensional imaging three-dimensional 3-D television Three-dimensional displays
title	Progress Overview of Capturing Method for Integral 3-D Imaging Displays
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