Depth of field expansion method for integral imaging based on diffractive optical element and CNN

Zhou, Ruyi; Wei, Chenxiao; Ma, Haowen; Cao, Shuo; Ahmad, Munzza; Li, Chao; Li, Jingnan; Sun, Yutong; Wang, Yongtian; Liu, Juan

doi:10.1364/oe.503056

Cited by 5 publications

(1 citation statement)

References 25 publications

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“…An integral imaging display presents true three-dimensional (3D) images. [3][4][5][6][7][8][9][10][11] It was used to accomplish a dual-view integral imaging display. 12 Two sets of elemental images are alternately presented on one screen.…”

Section: Introductionmentioning

confidence: 99%

Dual-view one-dimensional integral imaging display based on compound parallax barrier

Ye,

Chen,

Fan

et al. 2024

Opt. Eng.

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The optimal viewing distance limits the movement range of the observers. We report a dual-view one-dimensional integral imaging display based on a compound parallax barrier. The elemental images I and II are displayed on the left and right of an organic light-emitting diode, respectively. The sub-polarizers I and II polarize the light rays emitted from the elemental images I and II, respectively. The compound parallax barrier consists of three kinds of parallax barriers. Two invariable parallax barriers are in the middle of the compound parallax barrier. The other parallax barriers are on the left and right of the compound parallax barrier and are denoted as variable parallax barriers I and II, respectively. The pitches of the variable parallax barriers I and II are variable. The invariable parallax barriers determine the widths of the primary viewing zones I and II. The observers with polarizer glasses I only watch three-dimensional (3D) image I, and those with polarizer glasses II only watch 3D image II. The optimal viewing distances I and II are easily adjusted by changing the pitches of the variable parallax barriers I and II, respectively.

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Section: Introductionmentioning

confidence: 99%

Dual-view one-dimensional integral imaging display based on compound parallax barrier

Ye,

Chen,

Fan

et al. 2024

Opt. Eng.

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Ultrathin metasurface for super multi-view 3D display with linear and circular polarization control

Ahmad,

Li,

et al. 2024

Displays

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Design of Ultrathin Metasurface for Multiview 3D Display Based on Look-Up-Table Method

Ahmad,

Li,

Zhou

et al. 2024

IEEE Photonics J.

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Multiview display has attention owing to its smooth motion parallax, visual discomfort alleviation, and wide depth of focus. Nevertheless, its applications are limited because of the freedom to design ultrathin display systems. This paper proposes a novel method to design the system freely by using ultrathin metasurface in conjunction with a flat panel to reduce the system's complexity. We demonstrate ultrathin metasurface for red (637nm), green (532nm), and blue (457nm) wavelengths by using the look-up table method, and the subpixel of the metasurface are mapped according to the pixel arrangements of the LCD panel. The proposed 3D multiview display system produces 8 views at the optimal distance of 1000mm from the LCD screen. Numerical simulation is implemented to verify the effectiveness of proposed method and the results show that it can achieve a multiview 3D display with high quality. The thickness of metasurface is 2µm. The proposed metasurface for multiview display has great potential to underpin the development meta-optics-based operations in the field of integrated optics and imaging

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Depth of field expansion method for integral imaging based on diffractive optical element and CNN

Cited by 5 publications

References 25 publications

Dual-view one-dimensional integral imaging display based on compound parallax barrier

Dual-view one-dimensional integral imaging display based on compound parallax barrier

Ultrathin metasurface for super multi-view 3D display with linear and circular polarization control

Design of Ultrathin Metasurface for Multiview 3D Display Based on Look-Up-Table Method

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