Yuanhang Hou scite author profile

This article presents a design method for the three-dimensional trajectory tracking control of an underactuated autonomous underwater vehicle with unknown current disturbances. To simplify the complexity of the controller and avoid the singular problem induced by initial state constraints, a novel nonlinear backstepping technique based on virtual control variables is employed to design the kinematics and dynamics controllers. The control law is developed by building virtual errors, which can solve the problem of differential explosion in the traditional backstepping. Specifically, an ocean current observer based on the kinematics model is proposed to estimate unknown current disturbances, where the estimation is integrated into the autonomous underwater vehicle kinematics and dynamics equations. The convergence of tracking errors and system stability are proven by using Lyapunov stable theory. Finally, the simulation studies were provided to illustrate the effectiveness and good performance of the above trajectory tracking strategy.

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Three-dimensional path following control of underactuated autonomous underwater vehicle based on damping backstepping

Liang

Hou

et al. 2017

International Journal of Advanced Robotic Systems

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This article addresses the problem of three-dimensional path following control for underactuated autonomous underwater vehicles in the presence of ocean current. Firstly, three-dimensional path following error model was established based on virtual guidance method. The control law is developed by building virtual velocity errors and backstepping method, which can simplify the virtual control input and avoid the singular problem induced by initial state constraints. Considering the curvature and torsion characteristics of the three-dimensional desired path, the approaching angle is introduced to guarantee fast convergence of error. Nonlinear damping term is introduced to offset the effects of dynamic uncertainties and external disturbances. The controller stability was proved by Lyapunov stable theory. Finally, simulations were conducted and the results indicate the effectiveness and robustness to parameter uncertainties and external disturbances of the proposed approach.

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Finite-time unknown observer based coordinated path-following control of unmanned underwater vehicles

Liang

Hou

et al. 2021

Journal of the Franklin Institute

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Finite-time sideslip observer-based synchronized path-following control of multiple unmanned underwater vehicles

Liang

Hou

et al. 2020

Ocean Engineering

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Yuanhang Hou

Distributed coordinated tracking control of multiple unmanned surface vehicles under complex marine environments

Three-dimensional trajectory tracking control of an underactuated autonomous underwater vehicle based on ocean current observer

Three-dimensional path following control of underactuated autonomous underwater vehicle based on damping backstepping

Finite-time unknown observer based coordinated path-following control of unmanned underwater vehicles

Finite-time sideslip observer-based synchronized path-following control of multiple unmanned underwater vehicles

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