FMCW LiDAR-based ranging system application to VR optical measurement

Bing Dai, Yongyan Xie, Jiajing Wu, Yingjie Peng
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Abstract

VR installation and detection tasks require the ranging system to combine a high accuracy with a large depth of field and to collect reflection peaks from multiple reflective surfaces. Currently, there is no corresponding device to assist VR optical assembly detection, including tilt, eccentricity, and spacing of lens assembly. To fill this gap, this study applied the FMCW lidar-based ranging system to VR optical testing. Through nonlinear correction and introducing an axicon lens in the optical system, a high-precision FMCW ranging system with a 20 mm depth of field was obtained. The ranging accuracy and ranging resolution of the system could reach 1.3 μm and 14.3 μm, respectively, and the planes of the three glass layers could be simultaneously measured. The proposed system application made it possible to perform the installation and adjustment detection of the multi-lens optical system of VR.
基于FMCW激光雷达的测距系统在VR光学测量中的应用
VR安装和检测任务要求测距系统结合高精度和大景深,并从多个反射面收集反射峰。目前,还没有相应的设备来辅助VR光学组件检测,包括镜头组件的倾斜、偏心和间距。为了填补这一空白,本研究将基于FMCW激光雷达的测距系统应用于VR光学测试。通过非线性校正,在光学系统中引入轴突透镜,得到了20 mm景深的高精度FMCW测距系统。该系统的测距精度和测距分辨率分别达到1.3 μm和14.3 μm,可同时测量三层玻璃的平面。所提出的系统应用使VR多镜头光学系统的安装和调整检测成为可能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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