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Swing Suppression and Accurate Positioning Control for Underactuated Offshore Crane Systems Suffering From Disturbances
Tong Yang, Ning Sun, He Chen and Yongchun Fang, "Swing Suppression and Accurate Positioning Control for Underactuated Offshore Crane Systems Suffering From Disturbances," IEEE/CAA J. Autom. Sinica, vol. 7, no. 3, pp. 892-900, May 2020. doi: 10.1109/JAS.2020.1003162
Authors:Tong Yang  Ning Sun  He Chen  Yongchun Fang
Abstract:Offshore cranes are widely applied to transfer large-scale cargoes and it is challenging to develop effective control for them with sea wave disturbances. However, most existing controllers can only yield ultimate uniform boundedness or asymptotical stability results for the system’s equilibrium point, and the state variables’ convergence time cannot be theoretically guaranteed. To address these problems, a nonlinear sliding mode-based controller is suggested to accurately drive the boom/rope to their desired positions. Simultaneously, payload swing can be eliminated rapidly with sea waves. As we know, this paper firstly presents a controller by introducing error-related bounded functions into a sliding surface, which can realize boom/rope positioning within a finite time, and both controller design and analysis based on the nonlinear dynamics are implemented without any linearization manipulations. Moreover, the stability analysis is theoretically ensured with the Lyapunov method. Finally, we employ some experiments to validate the effectiveness of the proposed controller. 
Keywords:Boom/rope positioning   offshore cranes   swing elimination   underactuated systems
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