Research on 2D Laser Automatic Navigation Control for Standardized Orchard

With the increase of labor cost and the development of agricultural mechanization, standardized orchards suitable for autonomous operations of agricultural machinery will be a future development trend of the fruit-planting industry. For field-planting processes of standardized orchards, autonomous n...

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Bibliographic Details
Published in:Applied sciences 2020-04, Vol.10 (8), p.2763
Main Authors: Zhang, Shuo, Guo, Chengyang, Gao, Zening, Sugirbay, Adilet, Chen, Jun, Chen, Yu
Format: Article
Language:English
Subjects:
2D-laser automatic navigation
Accuracy
adaptive pure tracking control algorithm
Agricultural development
Agricultural equipment
Agricultural management
Agriculture
Agronomy
Algorithms
Autonomous navigation
Cameras
Clustering
Collinearity
Computer simulation
Control theory
Controllers
Design
Euclidean geometry
Experiments
Farm machinery
Field tests
filtering and noise reduction
Fruit trees
Fruits
laser point cloud data processing
Lasers
Mechanization
Navigation
Navigation systems
Noise
Orchards
Researchers
Row spacing
Sensors
standardized orchard
Vehicles
Vision systems
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Summary:With the increase of labor cost and the development of agricultural mechanization, standardized orchards suitable for autonomous operations of agricultural machinery will be a future development trend of the fruit-planting industry. For field-planting processes of standardized orchards, autonomous navigation of orchard vehicles in complex environments is the foundation of mechanized and intelligent field operations. In order to realize autonomous driving and path-tracking of vehicles in complex standardized orchards that involve much noise and interference between rows of fruit trees, an automatic navigation system was designed for orchard vehicles, based on 2D lasers. First, considering the agronomic requirements for orchard planting such as plant spacing, row spacing and trunk diameter, different filtering thresholds were established to eliminate discrete points of 2D laser point cloud data effectively. Euclidean clustering algorithm and the important geometric theorems of three points collinearity was used to extract the central feature points of the trunk, as the same time, navigation path was fitted based on the least square method. Secondly, an automatic navigation control algorithm was designed, and the fuzzy control was used to realize the dynamic adjustment of the apparent distance of the pure pursuit model. Finally, the reliability of the proposed approach was verified by simulation using MATLAB/Simulink, and field tests were carried out based on electric agricultural vehicle. Experimental results show that the method proposed in this study can effectively improve the precision of automatic navigation in complex orchard environment and realize the autonomous operation of orchard vehicles.
ISSN:2076-3417
2076-3417
DOI:10.3390/app10082763