光学头戴式显示器
杂散光
对比度(视觉)
背光
对比度
光路
计算机科学
虚拟现实
镜头(地质)
液晶显示器
极化(电化学)
菲涅耳透镜
虚拟映像
材料科学
光学
计算机视觉
人工智能
物理
物理化学
化学
作者
Lei Xiao,Pengxia Liang,Qian Wu,Fang Cheng,Lin Li,Feiyan Zhou,Yanping Ding,Xiaochuan Chen
摘要
Abstract Folded optical path designs have been widely applied in Virtual Reality (Pancake VR) displays in recent years. Compared with the traditional straight‐through and Fresnel optical path design, the Pancake design has obvious advantages in smaller size and clearer virtual image. However, the Pancake optical path uses polarization devices to fold the optical path and, light undergoes multiple refractions and reflections between lens groups, thus inevitably introducing stray light. This stray light greatly reduces the contrast ratio even if taking high‐contrasting Mini‐LED backlight LCD as panel, and seriously affects the user experience. In this paper, we first analyze the causes of stray light in the Pancake design and then propose an effective optical design method. In addition, an effective process scheme for improving image contrast is proposed by analyzing the impact of lens and tube reflectivity. Further, a prototype of the Pancake VR optical module is successfully implemented with low stray light and high contrast ratio.
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