Open AccessMonocular 3D see-through head-mounted display via complex amplitude modulation
Author(s) -
Qiankun Gao,
Juan Liu,
Jiawei Han,
Xin Li
Publication year - 2016
Publication title -
optics express
Language(s) - Uncategorized
Resource type - Journals
SCImago Journal Rank - 1.394
H-Index - 271
ISSN - 1094-4087
DOI - 10.1364/oe.24.017372
Subject(s) - holographic display , optics , stereoscopy , computer science , stereo display , observer (physics) , amplitude , computer vision , holography , optical head mounted display , wavefront , monocular , artificial intelligence , spatial light modulator , amplitude modulation , modulation (music) , depth perception , physics , frequency modulation , acoustics , bandwidth (computing) , perception , computer network , quantum mechanics , neuroscience , biology
The complex amplitude modulation (CAM) technique is applied to the design of the monocular three-dimensional see-through head-mounted display (3D-STHMD) for the first time. Two amplitude holograms are obtained by analytically dividing the wavefront of the 3D object to the real and the imaginary distributions, and then double amplitude-only spatial light modulators (A-SLMs) are employed to reconstruct the 3D images in real-time. Since the CAM technique can inherently present true 3D images to the human eye, the designed CAM-STHMD system avoids the accommodation-convergence conflict of the conventional stereoscopic see-through displays. The optical experiments further demonstrated that the proposed system has continuous and wide depth cues, which enables the observer free of eye fatigue problem. The dynamic display ability is also tested in the experiments and the results showed the possibility of true 3D interactive display.