基于光斑特征和曲线拟合的激光主动对准算法

2023 8th International Conference on Automation, Control and Robotics Engineering (CACRE) Pub Date : 2023-07-01 DOI:10.1109/CACRE58689.2023.10208536

Fuchun Liu, Zeyong Liu, Xiangyang Li, Dong Jiang

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引用次数: 0

摘要

本文讨论了制造固态激光雷达系统中的主动对准问题，重点研究了视觉激光自动准直平台中的图像处理和对准算法。通过提取激光光斑图像的特征，采用非线性离散优化方法确定激光发射器的最佳位置，使激光束发散角最小。为了克服夫琅和费衍射图尺寸提取不准确的问题，采用高斯滤波、自适应阈值和基于距离变换的圆拟合来估计光斑尺寸。主动对齐算法采用改进的爬坡、遗传和曲线拟合算法实现。实验对比表明，基于曲线拟合的主动对齐算法具有更好的效率和稳定性，平均调整次数为29.35次，方差为97.50次。

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Laser Active Alignment Algorithm based on Spot Features and Curve Fitting

This paper addresses the active alignment problem in manufacturing solid-state LiDAR systems and focuses on image processing and alignment algorithms within a visual laser auto-collimation platform. By extracting features from laser spot images, a non-linear discrete optimization is applied to determine the optimal position of the laser emitter, minimizing the laser beam divergence angle. To overcome the challenge of inaccurate size extraction of Fraunhofer diffraction patterns, Gaussian filtering, adaptive thresholding, and circle fitting based on distance transformation are employed to estimate the spot size. Active alignment algorithms are implemented using improved hill climbing, genetic, and curve fitting algorithms. Experimental comparisons demonstrate that the curve fitting-based active alignment algorithm achieves better efficiency and stability, with an average adjustment count of 29.35 and a variance of 97.50.

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2023 8th International Conference on Automation, Control and Robotics Engineering (CACRE)

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