In this paper, a robust adaptive hybrid control approach based on a combination of super-twisting and non-singular terminal sliding mode control (STNSMC) approaches for vibration and attitude control of a flexible spacecraft with fully coupled dynamic is developed. The proposed adaptation law eliminates the need for bounds knowledge of external disturbances and uncertainties. Then an ST-based NSMC generates a continuous control signal to reject the Chattering phenomenon, the non-singular terminal switching control law with the ability to generate continuous control commands to eliminate the chattering phenomenon. Moreover, finite-time convergence is achieved, and the singularity problem has been avoided. The overall stability of the system ...
In this paper, a novel adaptive control approach for Unmanned Aerial Manipulators (UAMs) is proposed...
To achieve the high accuracy attitude stabilization, by utilizing finite-time control technique, a n...
AbstractA relative position and attitude coupled controller is proposed for rendezvous and docking b...
A design of a robust attitude control system for flexible spacecraft is proposed in this paper, sinc...
Abstract: This paper is concerned with the development of a control system for rotational maneuver a...
Two finite-time controllers without unwinding for the attitude tracking control of the spacecraft ar...
The problem of attitude tracking for a flexible spacecraft is studied in this paper. A finite-time s...
A robust adaptive constrained control scheme is proposed for flexible spacecraft attitude maneuver a...
A flexible spacecraft is a kind of complex systems consisting of rigid bodies and flexible appendage...
The robust optimal attitude control problem for a flexible spacecraft is considered. Two optimal sli...
The attitude control has been recognized as one of the most important research topics for spacecraft...
In this paper, a new approach for vibration control of flexible spacecraft during attitude maneuveri...
The robust finite-time control for a flexible spacecraft attitude maneuver in the absence and presen...
An improved sliding mode control (SMC) strategy for the attitude control problem of a nonlinear spac...
This study addresses the challenge of attitude tracking control for a rigid-flexible spacecraft with...
In this paper, a novel adaptive control approach for Unmanned Aerial Manipulators (UAMs) is proposed...
To achieve the high accuracy attitude stabilization, by utilizing finite-time control technique, a n...
AbstractA relative position and attitude coupled controller is proposed for rendezvous and docking b...
A design of a robust attitude control system for flexible spacecraft is proposed in this paper, sinc...
Abstract: This paper is concerned with the development of a control system for rotational maneuver a...
Two finite-time controllers without unwinding for the attitude tracking control of the spacecraft ar...
The problem of attitude tracking for a flexible spacecraft is studied in this paper. A finite-time s...
A robust adaptive constrained control scheme is proposed for flexible spacecraft attitude maneuver a...
A flexible spacecraft is a kind of complex systems consisting of rigid bodies and flexible appendage...
The robust optimal attitude control problem for a flexible spacecraft is considered. Two optimal sli...
The attitude control has been recognized as one of the most important research topics for spacecraft...
In this paper, a new approach for vibration control of flexible spacecraft during attitude maneuveri...
The robust finite-time control for a flexible spacecraft attitude maneuver in the absence and presen...
An improved sliding mode control (SMC) strategy for the attitude control problem of a nonlinear spac...
This study addresses the challenge of attitude tracking control for a rigid-flexible spacecraft with...
In this paper, a novel adaptive control approach for Unmanned Aerial Manipulators (UAMs) is proposed...
To achieve the high accuracy attitude stabilization, by utilizing finite-time control technique, a n...
AbstractA relative position and attitude coupled controller is proposed for rendezvous and docking b...