Robust Trajectory Tracking Control for Fully Actuated Marine Surface Vehicle

Del-Rio-Rivera, Francisco; Ramirez-Rivera, Victor M.; Donaire, Alejandro; Ferguson, Joel

Robust Trajectory Tracking Control for Fully Actuated Marine Surface Vehicle

journal contribution

posted on 2025-05-10, 18:54 authored by Francisco Del-Rio-Rivera, Victor M. Ramirez-Rivera, Alejandro DonaireAlejandro Donaire, Joel Ferguson

In this paper we present a robust trajectory tracking control for a fully actuated marine surface vehicle. The tracking controller is obtained using a port-Hamiltonian model of the marine craft and includes an integral action to compensate for constant disturbances. The proposed approach adds damping into both the position and integrator coordinates, leading to input-to-state stability with respect to time-varying disturbances. We exemplify this controller with a simulation for an unmanned surface vehicle subjected to constant and time-varying wind disturbances. The tracking controller rejects the disturbances achieving global exponential stability for constant disturbances and input state stability for time-varying disturbances.

History

Journal title

IEEE Access

Volume

8

Issue

2 December 2020

Pagination

223897-223904

Publisher

Institute of Electrical and Electronics Engineers (IEEE)

Language

en, English

College/Research Centre

College of Engineering, Science and Environment

School

School of Engineering

Rights statement

This work is licensed under a Creative Commons Attribution 4.0 License. For more information, see https://creativecommons.org/licenses/by/4.0/

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Keywords

input-to-state stability integral control marine craft port-Hamiltonian systems trajectory tracking

Licence

CC BY 4.0

Robust Trajectory Tracking Control for Fully Actuated Marine Surface Vehicle

History

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