Neural Observer and Adaptive Fractional-Order Backstepping Fast-Terminal Sliding-Mode Control of RTG Cranes

Neural Observer and Adaptive Fractional-Order Backstepping Fast-Terminal Sliding-Mode Control of RTG Cranes

Using three actuators, in this article, we construct a control system for rubber-tired gantry (RTG) cranes to track three actuated outputs and stabilize two unactuated outputs. The controller is designed by utilizing the fast-terminal sliding mode, fractional calculus, and backstepping. Considering...

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Veröffentlicht in:IEEE transactions on industrial electronics (1982) 2021-01, Vol.68 (1), p.434-442
1. Verfasser: Tuan, Le Anh
Format: Artikel
Sprache:eng
Schlagworte:
Actuators
Adaptive control
Bandwidth
Control systems design
Experimentation
Fast-terminal sliding mode
Fractional calculus
Gantry cranes
Interference
Mittag–Leffler stability
neural adaptation mechanism
Neural networks
neural observer
Parameter estimation
Parameter uncertainty
Picture archiving and communication systems
Radar
Radio frequency
rubber-tired gantry (RTG) cranes
Sensors
Signal to noise ratio
Sliding mode control
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Beschreibung
Zusammenfassung:Using three actuators, in this article, we construct a control system for rubber-tired gantry (RTG) cranes to track three actuated outputs and stabilize two unactuated outputs. The controller is designed by utilizing the fast-terminal sliding mode, fractional calculus, and backstepping. Considering that RTG cranes encounter with uncertainties and random winds, an adaptive mechanism is constituted using neural networks to estimate uncertain parameters and unknown winds. A neural observer that reduces the number of sensors by half is also proposed for approximating feedback velocities. By applying these advanced techniques, the control system is endowed with adaptive and robust features. The quality and effectiveness of the control system are investigated by simulation and experimentation.
ISSN:0278-0046
1557-9948
DOI:10.1109/TIE.2019.2962450