Journal ArticleDOI
Adaptive non-singular integral terminal sliding mode tracking control for autonomous underwater vehicles
Lei Qiao,Weidong Zhang +1 more
TLDR
The designed ANITSMC of AUVs avoids the requirement of the prior knowledge of the lumped system uncertainty bounds, provides higher tracking accuracy than the existing globally finite-time stable tracking control (GFTSTC), and offers faster convergence rate and better robustness against dynamic uncertainties and time-varying external disturbances than the adaptive proportional-integral sliding mode control.Abstract:
This study proposes an adaptive non-singular integral terminal sliding mode control (ANITSMC) scheme for trajectory tracking of autonomous underwater vehicles (AUVs) with dynamic uncertainties and time-varying external disturbances. The ANITSMC is first proposed for a first-order uncertain non-linear dynamic system to eliminate the singularity problem in conventional terminal sliding mode control (TSMC) and avoid the requirement of the bound information of the lumped system uncertainty. The time taken to reach the equilibrium point from any initial error is guaranteed to be finite. The proposed ANITSMC is then applied to trajectory tracking control of AUVs. It guarantees that the velocity tracking errors locally converge to zero in finite time and after that the position tracking errors locally converge to zero exponentially. The designed ANITSMC of AUVs avoids the requirement of the prior knowledge of the lumped system uncertainty bounds as opposite to the existing globally finite-time stable tracking control (GFTSTC), provides higher tracking accuracy than the existing GFTSTC and adaptive non-singular TSMC (ANTSMC) and offers faster convergence rate and better robustness against dynamic uncertainties and time-varying external disturbances than the adaptive proportional-integral sliding mode control (APISMC). Comparative simulation results are presented to validate the superiority of the ANITSMC over the APISMC.read more
Citations
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Journal ArticleDOI
Double-Loop Structure Integral Sliding Mode Control for UUV Trajectory Tracking
TL;DR: To solve the problem of trajectory tracking control for the underactuated unmanned underwater vehicle (UUV) in external current disturbance, a back-stepping sliding mode control method with double-loop structure is proposed.
Journal ArticleDOI
A novel path-following control algorithm for surface vessels based on global course constraint and nonlinear feedback technology
TL;DR: A novel path-following control algorithm for surface vessels based on global course constraint (GCC) for the first time, designed using the closed-loop gain shaping algorithm (CGSA) and the nonlinear feedback technology.
Journal ArticleDOI
Autonomous Underwater Vehicles and Field of View in Underwater Operations
Isaac Segovia Ramírez,Pedro José Bernalte Sánchez,Mayorkinos Papaelias,Fausto Pedro García Márquez +3 more
TL;DR: This approach considers the field of view and the operational requirements as a fundamental input in the development of the trajectory in the autonomous guidance system, providing more accurate modelling compared with traditional formulations of the positioning system.
Journal ArticleDOI
Adaptive nonsingular fast terminal sliding mode control for underwater manipulator robotics with asymmetric saturation actuators
TL;DR: An adaptive nonsingular fast terminal sliding mode control (ANFTSMC) is proposed for underwater manipulator robotics with asymmetric actuator saturations and unknown time-varying (TV) external disturbances via the Lyapunov theory.
Journal ArticleDOI
Barrier Lyapunov Function-Based Sliding Mode Control for BWB Aircraft With Mismatched Disturbances and Output Constraints
TL;DR: In order to pursue high-precision attitude tracking regarded as output tracking errors constraints before disturbance observer tracking errors converge to a small prescribed range, the barrier Lyapunov function is designed to constrain the sliding mode variables before states reach the sliding modes surface.
References
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Book
Applied Nonlinear Control
TL;DR: Covers in a progressive fashion a number of analysis tools and design techniques directly applicable to nonlinear control problems in high performance systems (in aerospace, robotics and automotive areas).
Journal ArticleDOI
Continuous finite-time control for robotic manipulators with terminal sliding modes
TL;DR: A continuous finite-time control scheme for rigid robotic manipulators is proposed using a new form of terminal sliding modes using the Lyapunov stability theory, and theoretical analysis and simulation results show that faster and high-precision tracking performance is obtained.
Journal ArticleDOI
Brief Non-singular terminal sliding mode control of rigid manipulators
Yong Feng,Xinghuo Yu,Zhihong Man +2 more
TL;DR: This paper presents a global non-singular terminal sliding mode controller for rigid manipulators to enable the elimination of the singularity problem associated with conventional terminal slide mode control.
Journal ArticleDOI
Continuous finite-time stabilization of the translational and rotational double integrators
TL;DR: A class of bounded continuous time-invariant finite-time stabilizing feedback laws is given for the double integrator because Lyapunov theory is used to prove finite- time convergence.
Journal ArticleDOI
A robust MIMO terminal sliding mode control scheme for rigid robotic manipulators
TL;DR: A robust MIMO terminal sliding mode technique and a few structural properties of rigid robotic manipulators are developed so that the output tracking error can converge to zero in a finite time, and strong robustness with respect to large uncertain dynamics can be guaranteed.