基于激光点云的三维虚拟果园构建方法  被引量：1

作　　者：冯涵 张浩 王梓 江世界 刘伟洪 周凌卉 王亚雄[2] 康峰[2] 刘星星 郑永军[1,3] FENG Han;ZHANG Hao;WANG Zi;JIANG Shijie;LIU Weihong;ZHOU Linghui;WANG Yaxiong;KANG Feng;LIU Xingxing;ZHENG Yongjun(College of Engineering,China Agricultural University,Beijing 100083,China;College of Engineering,Beijing Forestry University,Beijing 100083,China;Modern Agricultural Equipment and Facilities Engineering Research Center,Beijing 100083,China)

机构地区：[1]中国农业大学工学院,北京100083 [2]北京林业大学工学院,北京100083 [3]现代农业装备与设施教育部工程研究中心,北京100083

出　　处：《智慧农业（中英文）》2022年第3期12-23,共12页Smart Agriculture

基　　金：烟台市校地融合发展项目(2021XDRHXMPT29);国家重点研发计划项目(2018YFD0700603)。

摘　　要：针对果园管理数字化程度低、构建方法较为单一等问题,本研究提出了一种基于激光点云的三维虚拟果园构建方法。首先采用手持式三维点云采集设备(3D-BOX)结合即时定位与地图构建-激光测距与测绘(Simultaneous Localization and Mapping-Lidar Odometry and Mapping,SLAM-LOAM)算法获取果园点云数据集;然后通过统计滤波算法完成点云数据离群点与噪声点的去除,并结合布料模拟算法(Cloth Simula⁃tion Filtering,CSF)与DBSCAN(Density-Based Spatial Clustering of Applications with Noise)聚类算法,实现地面去除与果树聚类分割,进而使用VoxelGrid滤波器降采样;最后利用Unity3D引擎,构建虚拟果园漫游场景,将作业机械的实时GPS(Global Positioning System)数据从WGS-84坐标系转换为高斯投影平面坐标系,并通过LineRenderer显示实时轨迹,实现作业机械运动轨迹控制与作业轨迹的可视化展示。为验证虚拟果园构建方法的有效性,在海棠果园与芒果园开展果园构建方法测试。结果表明,所提出的点云数据处理方法对海棠果树与芒果树聚类分割的准确率分别达到了95.3%与98.2%;通过与实际芒果园的果树行距、株距对比,虚拟芒果园的平均行间误差约为3.5%,平均株间误差约为6.6%。并且将Unity3D构建出的虚拟果园与实际果园相比,该方法能够有效复现果园三维实际情况,得到了较好的可视化效果,为果园的数字化建模与管理提供了一种技术方案。To solve the problems of low level of digitalization of orchard management and relatively single construction method,a three-dimensional virtual orchard construction method based on laser point cloud was proposed in this research.First,the hand-held 3D point cloud acquistion equipment(3D-BOX)combined with the lidar odometry and mapping(SLAM-LOAM)algorithm was used to complete the acquisition of the point cloud data set of orchard;then the outliers and noise points of the point cloud data were removed by using the statistical filtering algorithm,which was based on the K-neighbor distance statistical method.To achieve this,a distance threshold model for removing noise points was established.When a discrete point exceeded,it would be marked as an outlier,and the point was separated from the point cloud dataset to achieve the effect of discrete point filtering.The VoxelGrid filter was used for down sampling,the cloth simulation filtering(CSF)cloth simulation algorithm was used to calculate the distance between the cloth grid points and the corresponding laser point cloud,and the distinction between ground points and non-ground points was achieved by dividing the distance threshold,and when combined with the density-based spatial clustering of applications with noise(DBSCAN)clustering algorithm,ground removal and cluster segmentation of orchard were realized;finally,the Unity3D engine was used to build a virtual orchard roaming scene,and convert the real-time GPS data of the operating equipment from the WGS-84 coordinate system to the Gauss projection plane coordinate system through Gaussian projection forward calculation.The real-time trajectory of the equipment was displayed through the LineRenderer,which realized the visual display of the motion trajectory control and operation trajectory of the working machine.In order to verify the effectiveness of the virtual orchard construction method,the test of orchard construction method was carried out in the Begonia fruit and the mango orchard.The results showed that the

关 键 词：虚拟果园 点云处理 UNITY3D 轨迹可视化 激光雷达 SLAM-LOAM 

分 类 号：S66[农业科学—果树学] TN958.98[农业科学—园艺学]