Laser & Optoelectronics Progress, Volume. 59, Issue 20, 2011015(2022)
Head-Mounted Super Multi-View Three-Dimensional Display with Enlarged Field of View
Fig. 1. Classification of technical paths for effectively overcoming VAC problems
Fig. 2. FoV expansion of multiple near-eye apertures. (a) Apertures without polarizing characteristics; (b) apertures with polarizing characteristics
Fig. 3. Schematic of working states of the right eye monocular display system during four time-frames in each time period t-t+Δt along the y direction. (a) During the first time-frame t-t+Δt/3; (b) during the second time-frame t+Δt/3-t+2Δt/3; (c) during the third time-frame t+2Δt/3-t+Δt; (d) ENFR during each time period t-t+Δt
Fig. 4. Experimental design. (a) Proof-of-concept binocular display system; (b) aperture array design; (c) photo of virtual image
Fig. 5. Experimentally captured photos for verifying the FoV enlargement. (a) Only aperture A33 being turned on; (b) only apertures A32 and A33 being turned on; (c) only apertures A31, A32, and A33 being turned on; (d) only apertures A21, A22, and A23 being turned on; (e) all the apertures being turned on; (f) camera's aperture being out of ENFR
Fig. 6. Experimentally captured photos when camera being focused at different depths. (a) Focusing at 450 mm; (b) focusing at 500 mm; (c) focusing at 550 mm
|
Get Citation
Copy Citation Text
Qiu Ye, Lilin Liu, Chengliang Lai, Haikun Huang, Yanbin Xie, Dongdong Teng. Head-Mounted Super Multi-View Three-Dimensional Display with Enlarged Field of View[J]. Laser & Optoelectronics Progress, 2022, 59(20): 2011015
Category: Imaging Systems
Received: Jul. 7, 2022
Accepted: Aug. 25, 2022
Published Online: Oct. 26, 2022
The Author Email: Teng Dongdong (tengdd@mail.sysu.edu.cn)