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Application of hybrid robotic systems in crop harvesting: Kinematic and dynamic analysis.

Authors :
Zahedi, A.
Shafei, A.M.
Shamsi, M.
Source :
Computers & Electronics in Agriculture. Jun2023, Vol. 209, pN.PAG-N.PAG. 1p.
Publication Year :
2023

Abstract

• Dynamic modeling of hybrid robots has been presented for agricultural purposes. • An innovative method has been used to divide the system into several open chains. • Dynamic couplings between all sub-structures have been considered. • All the steps for systematic derivation are presented in computational algorithms. • A relatively complicated hybrid robotic system with 15 D.O.F has been simulated. Harvesting of agricultural crops, especially when the ripe products have to be picked one by one, has always been a major concern of farmers and growers. Consequently, the use of robots and the mechanization of harvesting operations have been considered as the effective means of tackling such challenges. In the present research, the use of hybrid robots (which combine open-loop and closed-loop manipulators) has been proposed for this purpose; because these robots help reduce the size of the workforce and thus slash the harvesting costs, and they also boost the speed and accuracy of harvesting operations. However, using this type of robots without paying attention to some important factors (e.g., using motors of optimal power at the actuated joints of a robot and choosing appropriate lengths for robot links) can have a substantial adverse effect on the manufacturing cost, working space and the effective functioning of such robots. So the main focus of this paper is on the kinematic and dynamic analysis of hybrid robotic systems. The main advantage of this research over similar works is the generality by which it describes the mechanical behavior of these robots; so that by using the recursive algorithms presented in this paper, all kinds of robots in the hybrid class can be analyzed. However, due to the complexity in the analysis of such systems, a hybrid robot consisting of three closed loops and one open loop was considered in this paper as a sample case study, so that we could explain, visually and graphically, all the steps involved in deriving its motion equations. The simulation results for this robotic system demonstrate the efficacy of the proposed method in the kinematic and dynamic analysis of hybrid robots, as efficient and functional crop harvesting equipment. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
01681699
Volume :
209
Database :
Academic Search Index
Journal :
Computers & Electronics in Agriculture
Publication Type :
Academic Journal
Accession number :
163636786
Full Text :
https://doi.org/10.1016/j.compag.2023.107724