合并分割块的点云语义分割方法

Point cloud semantic segmentation method based on segmented blocks merging

  • 摘要: 随着激光雷达等三维点云获取工具的快速发展,点云的语义信息在计算机视觉、智能驾驶、遥感测绘、智慧城市等领域更具重要意义。针对基于分割块特征匹配的点云语义分割方法无法处理过分割和欠分割点云块、行道树和杆状物的语义分割精度低等问题,提出了一种基于分割块合并策略的行道树和杆状物点云语义分割方法,该方法可对聚类分割后感兴趣的分割块进行合并,通过计算其多维几何特征实现对合并后的物体分类,并使用插值优化算法对分割结果进行优化,最终实现城市道路环境下行道树和杆状物的语义分割。实验结果表明,所提方法可将城市道路环境下的行道树、杆状物等点云数据的召回率和语义分割精度平均提升至89.9%以上。基于分割块合并的语义分割方法,可以很好地解决城市道路下行道树和杆状物语义分割精度低等问题,该方法对于三维场景感知等问题的研究具有重要意义。

     

    Abstract: With the rapid development of three-dimensional point cloud acquisition tools such as Light Detection And Ranging (LiDAR), the semantic information of point clouds has become more and more important in computer vision, intelligent driving, remote sensing mapping and smart cities. Aiming at the limitations of the point cloud semantic segmentation method based on segmented block feature matching, such as cannot handle the over-segmentation and under-segmentation, the semantic segmentation accuracy of street trees and rods is low, a point cloud semantic segmentation method of street trees and rods based on the segmented blocks merging strategy was proposed, which could merge interested segmented blocks after density-based spatial clustering of applications with noise (DBSCAN) clustering segmentation, and the merged objects were classified by calculating their multi-dimensional geometric features, then the semantic segmentation results were optimized by the interpolation optimization algorithm, and finally the semantic segmentation of street trees and rods in the urban road environment was realized. The experimental results show that the method proposed can improve the recall rate and semantic segmentation accuracy of point cloud data such as street trees and rods in an urban road environment to more than 89.9%. The semantic segmentation method based on segmentation merging can well solve the problem of low accuracy of semantic segmentation of street trees and rods under urban roads. This method is of great significance for the research of three-dimensional scene perception and other problems.

     

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