三维重建技术是机器视觉中最热门的研究方向之一，在无人驾驶和数字化加工与生产等领域得到了广泛的应用。传统的三维重建方法包括深度相机和多线激光扫描仪，但是通过深度相机获得的点云存在着信息不完整和不精确的问题，而多线激光扫描仪成本高，阻碍了该项技术的应用和研究。为解决上述问题，提出了一种基于转动式二维激光扫描仪的三维重建方法。首先，用步进电机带动二维激光扫描仪旋转运动来获取三维点云数据。然后，用多传感器融合的方法对激光扫描仪的位置进行标定，采用坐标系变换完成点云数据的匹配。最后，对采集得到的点云数据进行了滤波和精简处理。实验结果表明：相较于深度相机/IMU数据融合的重建方法，平均误差降低了0.93 mm，为4.24 mm；精度达到了毫米级别，误差率也控制在了2%以内；整套设备的成本相较于多线激光扫描仪大大降低。本文方法基本满足保留物体的外形特征、高精度和成本低的要求。

3D reconstruction technology is one of the most popular research directions in machine vision, and has been widely used in the fields of unmanned driving and digital processing and production. Traditional 3D reconstruction methods include depth cameras and multi-line laser scanners, but the point clouds obtained by depth cameras have incomplete and inaccurate information, and the high cost of multi-line laser scanners hinders their application and research. To solve these problems, a three-dimensional reconstruction method based on a rotating two-dimensional laser scanner was proposed. First, a stepper motor was used to rotate a 2D laser scanner to obtain 3D point cloud data. Then, the position of the laser scanner was calibrated by multi-sensor fusion, and the point cloud data was matched by transforming the coordinate system. Finally, the collected point cloud data were filtered and simplified. The experimental results show that compared with depth camera/IMU data fusion, the reconstruction method’s average error of the proposed method is reduced by 0.93 mm, and it is 4.24 mm, the accuracy has reached the millimeter level, and the error rate is also controlled within 2%. The cost of the whole set of equipment is also greatly reduced compared to the multi-line laser scanner. It basically meets the requirements of high precision and low cost and retaining the shape characteristics of the object.