Abstract

Vergence-accommodation-conflict-free super multi-view (SMV) display based on more than one near-eye pinhole group for each pupil of the viewer is developed in this paper. Two-dimensionally arranged pinholes of a group correspond to different subscreens of the display screen, with perspective views projected by each subscreen through a corresponding pinhole splicing into an image of enlarged field of view (FOV). By sequentially switching on/off different pinhole groups, more than one mosaic image is projected to each pupil of the viewer. Adjacent pinholes of a group are endowed with different timing-polarizing characteristics to generate an effective noise-free region for each pupil. In the experiment, four groups of ${{3}} \times {{3}}$ pinholes are configured for a proof-of-concept SMV display on a 240 Hz display screen, with a diagonal FOV of 55 deg and a depth of field reaching 1.2 m.

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