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Composite trajectory tracking control for under-actuated crane systems with matched and mismatched disturbances: Theory and implementation

Authors
Nguyen, Ngo PhongKim, YoonsooOh, HyondongMoon, Jun
Issue Date
Mar-2025
Publisher
Academic Press
Keywords
Feedback linearization; Super-twisting algorithm; Trajectory tracking; Under-actuated cranes; Uniformly ultimately bounded; Variable control gain
Citation
Mechanical Systems and Signal Processing, v.226, pp 1 - 24
Pages
24
Indexed
SCIE
SCOPUS
Journal Title
Mechanical Systems and Signal Processing
Volume
226
Start Page
1
End Page
24
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/206404
DOI
10.1016/j.ymssp.2025.112337
ISSN
0888-3270
1096-1216
Abstract
Gantry cranes have been extensively deployed across various industries as powerful transportation equipment. However, their under-actuated nature often leads to conflicting performance aspects, i.e., high-speed, accurate trolley positioning and payload swing angle suppression. Additionally, during operation, these systems may be affected by internal and external disturbances, both matched and mismatched, making robust control a significant challenge. Hence, enhancing operational efficiency and robustness in crane control remains crucial for improving overall productivity. To tackle these issues, we propose composite trajectory tracking control (CTTC) designed to improve both precision and robustness in such systems. Our approach employs the feedback linearization-based super-twisting sliding-mode technique. First, we transform the crane system into its normal form using feedback linearization and coordinate transformation techniques. Next, we develop a generalized variable gain super-twisting sliding-mode algorithm with a coupled sliding surface, to effectively handle various disturbances while ensuring continuous control actions. The proposed CTTC guarantees uniformly ultimately bounded tracking and regulation errors without requiring any approximation operations during control design and analysis. Theoretical and practical investigations in simulation environment and experimental platform confirm the superiority of the proposed CTTC, showcasing improved performance metrics in trajectory tracking and disturbance rejection across diverse transportation tasks. Overall, the proposed CTTC ensures robust performance over a wide operational range.
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