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An energy-efficient adaptive course control system for ocean surface ships
Chen, C.; Tello Ruiz, M.Á.; Delefortrie, G.; Vantorre, M.; Lataire, E. (2019). An energy-efficient adaptive course control system for ocean surface ships, in: 11th International Workshop on Ship and Marine Hydrodynamics, Hamburg, Germany, September 22-25, 2019. pp. [1-10]
In: (2019). 11th International Workshop on Ship and Marine Hydrodynamics, Hamburg, Germany, September 22-25, 2019. [S.n.]: [s.l.]. , meer

Beschikbaar in  Auteurs 
Documenttype: Congresbijdrage

Auteurs  Top 
  • Changyuan, C.
  • Tello Ruiz, M.Á., meer
  • Delefortrie, G., meer
  • Vantorre, M., meer
  • Lataire, E.

Abstract
    In order to improve the performance and the energy efficiency (rudder actions) of the ship control system in presence of changing environmental conditions and system uncertainty, this paper develops a novel adaptive fuzzy-PID course controller with a dynamic compensator and a nonlinear feedback for the autonomous surface ship. Firstly, an adaptive PID control strategy, whose control parameters are real-time adjusted by the fuzzy system, is designed to achieve the optimal control effect and the robust performance. Then, considering the uncertainty and unpredictable external disturbances, the Least Square Support Vector Machines (LSSVM) approach is employed to online identify and suppress the disturbances for the purpose of compensating the Fuzzy-PID controller. Furthermore, the nonlinear feedback is added in the control law to deal with the control inputs, and then the whole control system is named as “NFPL”. The effectiveness and quality of the designed controller are investigated in the numerical simulations. Results demonstrate good adaptability and robust performance of the designed control system in spite of the existence of the timevarying environmental disturbance, and the advantages in the reduction of the settling time and rudder energy consumption as well as fast response are also verified.

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