光学学报, 2017, 37 (12): 1222001, 网络出版: 2018-09-06
MEMS激光扫描视网膜投影显示系统设计 下载: 1509次
Design of MEMS Laser Scanning Retinal Projection Display System
光学设计 头戴显示器 视网膜投影显示 辐辏聚焦矛盾 折反式光学系统 optical design head-mounted display retinal projection display vergence-accommodation conflict catadioptric optical system
摘要
视网膜投影显示(RPD)是头戴显示器(HMD)领域的一个研究热点,能够克服传统HMD辐辏聚焦矛盾(VAC)。为了使RPD小型便携化,以微机电系统(MEMS)扫描镜作为空间光调制器(SLM)设计制造了折反式激光RPD系统。首先,介绍了辐辏聚焦矛盾,分析了RPD的基本原理。通过传统的RPD光路结构,实验验证了以MEMS激光扫描投影作为图像源的麦克斯韦观察法原理的可行性,分析并解决了黑斑问题。接着,完成了RPD系统的光学设计,分析评价了系统的性能。最后,制造出小型便携式的原型机,原型机瞳距可调,视场角为30°(H)×22°(V),无畸变,并通过实验对其显示效果进行了验证。
Abstract
Retinal projection display (RPD) is one of the research hotspots in the field of head-mounted display (HMD), it can overcome the vergence-accommodation conflict (VAC) of the traditional HMD. In order to make the RPD small and portable, a catadioptric laser RPD system, which uses a micro-electromechanical system (MEMS) scanning mirror as the spatial light modulator (SLM), is designed and fabricated. Firstly, the vergence-accommodation conflict is introduced and the basic principle of RPD is analyzed. Then the feasibility of Maxwellian view principle that uses a MEMS laser scanning projection as the image source is experimentally verified by the traditional RPD optical structure. And the black speckle problem is analyzed and solved. The optical design of the RPD system is finished, and the performance of the system is analyzed and evaluated. Finally, the small portable prototype is fabricated, whose interpupillary distance is adjustable, with a viewing angle of 30°(H)×22°(V) and distortion-free. Display performance of the prototype is demonstrated through experiments.
林俊国, 丛强, 许晨, 程德文, 王涌天. MEMS激光扫描视网膜投影显示系统设计[J]. 光学学报, 2017, 37(12): 1222001. Junguo Lin, Qiang Cong, Chen Xu, Dewen Cheng, Yongtian Wang. Design of MEMS Laser Scanning Retinal Projection Display System[J]. Acta Optica Sinica, 2017, 37(12): 1222001.