Evaluation of robustness against external vibrations for long-range MEMS lidar with one-dimensional resonant micromirror

Journal of Optical Microsystems Pub Date : 2022-01-01 DOI:10.1117/1.JOM.2.1.011007

H. W. Yoo, David Brunner, M. Macho, L. Niedermueller, Angel Jurado Devesa, Leonhard Kormann, G. Schitter

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引用次数: 2

Abstract

Abstract. We describe the verification of a long-range one-dimensional (1D) scanning micro-electro-mechanical systems (MEMS) lidar specifically considering the robustness against external vibration influences. The 1D scanning MEMS lidar exploits a multichannel horizontal line laser to scan the scene vertically for a 10 deg × 11 deg horizontal and vertical field of view at a frame rate of up to 29 Hz. To evaluate the robustness against vibrations, a vibration evaluation setup is developed to apply a wideband vibration based on the automotive standard LV124. The vibration tests are performed in three conditions open loop without control and two phase-locked loops (PLLs) with default and high gain settings. The test results demonstrate that vibration can cause wobbly distortion along the scan angle in the open loop case and the PLLs can suppress effectively this influence in the mean and standard deviation of the standard point to surface error up to 69.3% and 90.0%, respectively. This verifies the benefits of the MEMS mirror control, ensuring stable point cloud measurements under vibrations in harsh automotive environments.

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一维谐振微镜远程MEMS激光雷达抗外部振动鲁棒性评价

摘要我们描述了远程一维(1D)扫描微机电系统(MEMS)激光雷达的验证，特别考虑了对外部振动影响的鲁棒性。1D扫描MEMS激光雷达利用多通道水平线激光以高达29 Hz的帧速率垂直扫描场景，获得10度× 11度的水平和垂直视场。为了评估其抗振动的稳健性，开发了一套基于汽车标准LV124的宽带振动评估装置。振动测试在三种条件下进行无控制开环和两个锁相环(锁相环)具有默认和高增益设置。实验结果表明，在开环情况下，振动会引起扫描角方向上的摆动畸变，锁相环可以有效地抑制这种影响，标准点面误差的平均值和标准差分别达到69.3%和90.0%。这验证了MEMS反射镜控制的优势，确保在恶劣的汽车环境中振动下稳定的点云测量。

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来源期刊

Journal of Optical Microsystems

CiteScore

0.60

自引率

0.00%

发文量