Tree identification and canopy information measurement based on mobile robot
Aiming at the problem that manual measurement of nursery canopy parameters was time-consuming and labor-intensive,and fruit tree canopy parameters could not be quickly extracted,a tree canopy information extraction method based on environmental point cloud recognition algorithm was proposed in this paper.Firstly,the LiDAR-IMU tightly coupled odometer was used for point cloud correction and feature point extraction,and the rotation constraint was used to solve the Z-axis migration problem in the construction map to complete the environment reconstruction of the measurement area.After the point cloud map was transferred to the background workstation,European clustering and 3D-FV-DNNs algorithm were used to segment and identify the tree point cloud.Finally,after finding the first main branch,the canopy volume was modeled by cubic voxel method,and the canopy area parameters were extracted by two-dimensional raster method.The test showed that the mapping algorithm adopted in this paper could reconstruct the complete orchard environment with high accuracy.The Bet value of P-R curve obtained by the nursery recognition method based on DNN deep learning classifier was 0.0 64 1 and 0.099 9 higher than that obtained by SVM and RF classifier.In addition,R2 and RMSE of crown volume and area were 0.746 77 and 0.697 8,0.097 54 and 0.076 77,respectively.The results showed that the canopy parameters measured by the proposed algorithm were strongly correlated with the manual measurements,which provided important support for the fine management of orchards.
mobile robotpoint cloud environment mapdeep learningpoint cloud recognitioncanopy parameters
万方数据
维普
