Cascaded Design for Finite-Time Trajectory Tracking Control of an Underactuated Surface Vehicle
This paper discusses the cascaded design for finitetime trajectory tracking control of an underactuated unmanned surface vehicle (USV). The tracking error dynamics is established with the guidance of a virtual reference vehicle, and transformed into a new cascaded structure, so the control of the ov...
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| Published in | 2022 8th International Conference on Control Science and Systems Engineering (ICCSSE) pp. 131 - 135 |
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| Main Authors | , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
14.07.2022
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| Subjects | |
| Online Access | Get full text |
| DOI | 10.1109/ICCSSE55346.2022.10079737 |
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| Abstract | This paper discusses the cascaded design for finitetime trajectory tracking control of an underactuated unmanned surface vehicle (USV). The tracking error dynamics is established with the guidance of a virtual reference vehicle, and transformed into a new cascaded structure, so the control of the overall system can be equivalent to stabilization of two interconnected subsystems separately, which can facilitate the control design by verifying the properties of the interconnection instead of iterative constructing Lyapunov functions for the whole system. The nonsingular fast terminal sliding mode (NFTSM) method is applied to stabilize the kinematic and dynamic subsystems in the present of model uncertainties, which can drive the states to the origin in finite time and avoid the possible singularity during the control phase. The stability of the cascaded system is guaranteed by verifying the satisfaction of the sufficient conditions. Numerical simulation results are provided to demonstrate the effectiveness of the proposed cascaded design. |
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| AbstractList | This paper discusses the cascaded design for finitetime trajectory tracking control of an underactuated unmanned surface vehicle (USV). The tracking error dynamics is established with the guidance of a virtual reference vehicle, and transformed into a new cascaded structure, so the control of the overall system can be equivalent to stabilization of two interconnected subsystems separately, which can facilitate the control design by verifying the properties of the interconnection instead of iterative constructing Lyapunov functions for the whole system. The nonsingular fast terminal sliding mode (NFTSM) method is applied to stabilize the kinematic and dynamic subsystems in the present of model uncertainties, which can drive the states to the origin in finite time and avoid the possible singularity during the control phase. The stability of the cascaded system is guaranteed by verifying the satisfaction of the sufficient conditions. Numerical simulation results are provided to demonstrate the effectiveness of the proposed cascaded design. |
| Author | Chen, Ziyin Ge, Shuzhi Sam |
| Author_xml | – sequence: 1 givenname: Ziyin surname: Chen fullname: Chen, Ziyin email: chenziyinheu@163.com organization: Beijing Institute of Space Mechanics & Electricity,Department of Control Engineering,Beijing,P.R.,China – sequence: 2 givenname: Shuzhi Sam surname: Ge fullname: Ge, Shuzhi Sam email: samge@nus.edu.sg organization: National University of Singapore,Department of Electrical & Computer Engineering,Singapore,Singapore |
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| Snippet | This paper discusses the cascaded design for finitetime trajectory tracking control of an underactuated unmanned surface vehicle (USV). The tracking error... |
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| StartPage | 131 |
| SubjectTerms | cascaded system finite-time control nonsingular fast terminal sliding mode (NFTSM) Simulation Stability analysis Sufficient conditions Trajectory Trajectory tracking Uncertainty underactuated unmanned surface vehicle (USV) Vehicle dynamics |
| Title | Cascaded Design for Finite-Time Trajectory Tracking Control of an Underactuated Surface Vehicle |
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