Atle Aalerud, J. Dybedal, Erind Ujkani, G. Hovland
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引用次数: 7
摘要
本文提出了一种用于对尺寸为10 m × 15 m × 5 m的较大工业机器人环境进行测绘和实时监控的系统架构。六个具有嵌入式计算能力和局部处理3D点云的传感器节点被放置在靠近天花板的位置。系统架构和数据处理基于机器人操作系统(ROS)和点云库(PCL)。使用的3D传感器是微软Xbox One的Kinect,点云数据收集频率为20hz。提出了一种利用反射面进行手动标定的新方法。使用的传感器的指定量程为0.8 m ~ 4.2 m,而本文使用的深度数据可达9 m。尽管只使用了6个传感器,而且Kinect传感器的操作也超出了规定的范围,但与徕卡激光测距仪相比,其精度基准显示,在最终的3D点云中,精度达到10毫米或更高。
Industrial Environment Mapping Using Distributed Static 3D Sensor Nodes
This paper presents a system architecture for mapping and real-time monitoring of a relatively large industrial robotic environment of size 10 m × 15 m × 5 m. Six sensor nodes with embedded computing power and local processing of the 3D point clouds are placed close to the ceiling. The system architecture and data processing is based on the Robot Operating System (ROS) and the Point Cloud Library (PCL). The 3D sensors used are the Microsoft Kinect for Xbox One and point cloud data is collected at 20 Hz. A new manual calibration procedure is developed using reflective planes. The specified range of the used sensor is 0.8 m to 4.2 m, while depth data up to 9 m is used in this paper. Despite the fact that only six sensors are used and that the Kinect sensors are operated beyond the specified range, a benchmark of the accuracy compared with a Leica laser distance meter demonstrates an accuracy of 10 mm or better in the final 3D point cloud.
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