@article{ref1,
title="LCD-based digital eyeglass for modulating spatial-angular information",
journal="Optics express",
year="2015",
author="Bian, Zichao and Liao, Jun and Guo, Kaikai and Heng, Xin and Zheng, Guoan",
volume="23",
number="9",
pages="11813-11818",
abstract="Using programmable aperture to modulate spatial-angular information of light field is well-known in computational photography and microscopy. Inspired by this concept, we report a digital eyeglass design that adaptively modulates light field entering human eyes. The main hardware includes a transparent liquid crystal display (LCD) and a mini-camera. The device analyzes the spatial-angular information of the camera image in real time and subsequently sends a command to form a certain pattern on the LCD. We show that, the eyeglass prototype can adaptively reduce light transmission from bright sources by ~80% and retain transparency to other dim objects meanwhile. One application of the reported device is to reduce discomforting glare caused by vehicle headlamps. To this end, we report the preliminary result of using the reported device in a road test. The reported device may also find applications in military operations (sniper scope), laser counter measure, STEM education, and enhancing visual contrast for visually impaired patients and elderly people with low vision.<p /> <p>Language: en</p>",
language="en",
issn="1094-4087",
doi="",
url="http://dx.doi.org/"
}