Your search keyword '"Yuquan Xia"' showing total 2 results

1. Global saturated velocity‐free finite‐time control for attitude tracking of spacecraft

Author

Yuquan Xia and Yuxin Su

Subjects

Lyapunov stability, 0209 industrial biotechnology, Control and Optimization, Spacecraft, Computer science, business.industry, 02 engineering and technology, Stability (probability), Computer Science Applications, Human-Computer Interaction, Attitude control, 020901 industrial engineering & automation, Exponential stability, Control and Systems Engineering, Control theory, Bounded function, A priori and a posteriori, Electrical and Electronic Engineering, Actuator, business

Abstract

This study investigates the problem of global finite-time attitude tracking for spacecraft subject to actuator constraints and attitude measurements only. A velocity-free saturated hybrid proportional-derivative (PD) plus spacecraft dynamics (PD+) control is proposed. Benefiting from the hybrid control technique, the unwinding phenomenon is completely avoided and the global stability is achieved. Lyapunov stability theory and homogeneous method are employed to show global finite-time tracking. Advantages of the proposed control include simple and intuitive structure and the absence of velocity measurements, and thus it is ready to implement. An additive feature is that the proposed control is explicitly upper bounded and hence it can assure that actuator constraints will not be violated by selecting the control gains a priori. Simulations are performed to illustrate the effectiveness and improved performance of the proposed approach.

Published

2019

2. Continuous finite-time control for uncertain robot manipulators with integral sliding mode.

Author

Liyin Zhang, Linzhi Liu, Zeng Wang, and Yuquan Xia

Subjects

ROBOTS, SLIDING mode control, LYAPUNOV stability, DEGREES of freedom, CONTROL theory (Engineering)

Abstract

This study investigates a continuous sliding mode tracking problem for robot manipulators under the presence of parametric uncertainty and external disturbances. A chattering-free integral terminal sliding mode control scheme is first proposed by integrating an integral terminal sliding surface with an observer. Lypaunov stability theory is employed to prove the global finite-time tracking of robotic system. The appealing advantages of the proposed controller are that it is easy to implement with the continuous sliding mode control featuring chattering-free, fast transient and high steady-state tracking precision. Extensive simulations on two degree of freedoms (DOFs) are presented to demonstrate the effectiveness and improved performance of the proposed approach. [ABSTRACT FROM AUTHOR]

Published

2018