Add to ORKGThis article investigates the robust adaptive learning control for space robots with target capturing. Based on the momentum conservation theory, the impact dynamics is constructed to derive the relationship of generalized velocity in the pre-impact and post-impact phase. Considering the nonlinear dynamics with contact impact, the robust control using nonsingular terminal sliding mode (NTSM) and fast NTSM is designed to achieve the fast realization of the desired states. Furthermore, for the unknown dynamics of the combination system after capturing a target, the adaptive learning control is developed based on neural network and disturbance observer. Through the serial-parallel estimation model, the prediction error is constructed for the u...
AbsZruct-This paper presents a nonlinear compensator using neural networks for trajectory control of...
Space manipulators could promote space exploration by assisting astronauts in space missions. Hence,...
Abstract: In this paper, a controller for robot manipulators is proposed to guarantee the track-ing ...
The trajectory tracking problems of a class of space robot manipulators with parameters and non-para...
Abstract: In this paper a New RBF Neural Network based Sliding Mode Adaptive Controller (NNNSMAC) fo...
The trajectory tracking problems of a class of space robot manipulators with parameters and non-para...
Trajectory tracking control problems of the free-floating space robot are considered by the paper, b...
As are considered, the body posture is controlled and position cannot control, space manipulator sys...
This paper briefly discusses about the Robust Controller based on Adaptive Sliding Mode Technique wi...
Aiming at addressing the problem that the joints are easily destroyed by the impact torque during th...
An adaptive neural network controller is brought forward by the paper to solve trajectory tracking p...
Although adaptive control for robotic manipulators has been widely studied, most of them require the...
The extreme nonlinearity of robotic systems renders the control design step harder. The consideratio...
The extreme nonlinearity of robotic systems renders the control design step harder. The consideratio...
Contact force control for Unmanned Aerial Manipulators (UAMs) is a challenging issue today. This pap...
AbsZruct-This paper presents a nonlinear compensator using neural networks for trajectory control of...
Space manipulators could promote space exploration by assisting astronauts in space missions. Hence,...
Abstract: In this paper, a controller for robot manipulators is proposed to guarantee the track-ing ...
The trajectory tracking problems of a class of space robot manipulators with parameters and non-para...
Abstract: In this paper a New RBF Neural Network based Sliding Mode Adaptive Controller (NNNSMAC) fo...
The trajectory tracking problems of a class of space robot manipulators with parameters and non-para...
Trajectory tracking control problems of the free-floating space robot are considered by the paper, b...
As are considered, the body posture is controlled and position cannot control, space manipulator sys...
This paper briefly discusses about the Robust Controller based on Adaptive Sliding Mode Technique wi...
Aiming at addressing the problem that the joints are easily destroyed by the impact torque during th...
An adaptive neural network controller is brought forward by the paper to solve trajectory tracking p...
Although adaptive control for robotic manipulators has been widely studied, most of them require the...
The extreme nonlinearity of robotic systems renders the control design step harder. The consideratio...
The extreme nonlinearity of robotic systems renders the control design step harder. The consideratio...
Contact force control for Unmanned Aerial Manipulators (UAMs) is a challenging issue today. This pap...
AbsZruct-This paper presents a nonlinear compensator using neural networks for trajectory control of...
Space manipulators could promote space exploration by assisting astronauts in space missions. Hence,...
Abstract: In this paper, a controller for robot manipulators is proposed to guarantee the track-ing ...