Dual-view 3D displays based on integral imaging

Qiong-Hua Wang; Huan Deng; Fei Wu

doi:10.1117/12.2205244

7 March 2016 Dual-view 3D displays based on integral imaging

Qiong-Hua Wang, Huan Deng, Fei Wu

Proceedings Volume 9770, Advances in Display Technologies VI; 97700C (2016) https://doi.org/10.1117/12.2205244
Event: SPIE OPTO, 2016, San Francisco, California, United States

Abstract

We propose three dual-view integral imaging (DVII) three-dimensional (3D) displays. In the spatial-multiplexed DVII 3D display, each elemental image (EI) is cut into a left and right sub-EIs, and they are refracted to the left and right viewing zones by the corresponding micro-lens array (MLA). Different 3D images are reconstructed in the left and right viewing zones, and the viewing angle is decreased. In the DVII 3D display using polarizer parallax barriers, a polarizer parallax barrier is used in front of both the display panel and the MLA. The polarizer parallax barrier consists of two parts with perpendicular polarization directions. The elemental image array (EIA) is cut to left and right parts. The lights emitted from the left part are modulated by the left MLA and reconstruct a 3D image in the right viewing zone, whereas the lights emitted from the right part reconstruct another 3D image in the left viewing zone. The 3D resolution is decreased. In the time-multiplexed DVII 3D display, an orthogonal polarizer array is attached onto both the display panel and the MLA. The orthogonal polarizer array consists of horizontal and vertical polarizer units and the polarization directions of the adjacent units are orthogonal. In State 1, each EI is reconstructed by its corresponding micro-lens, whereas in State 2, each EI is reconstructed by its adjacent micro-lens. 3D images 1 and 2 are reconstructed alternately with a refresh rate up to 120HZ. The viewing angle and 3D resolution are the same as the conventional II 3D display.

Citation Download Citation

Qiong-Hua Wang, Huan Deng, and Fei Wu "Dual-view 3D displays based on integral imaging", Proc. SPIE 9770, Advances in Display Technologies VI, 97700C (7 March 2016); https://doi.org/10.1117/12.2205244

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