This article presents a learning robust controller for high-quality position tracking control of robot manipulators. A basic time-delay estimator is adopted to effectively approximate the system dynamics. A low-level control layer is structured from the control error as an indirect control objective using new nonlinear sliding-mode synthetization. To realize the control objective with desired transient time, a robust sliding mode control signal is then designed based on the obtained estimation results in a high-level control layer. To promptly suppress unpredictable disturbances, adaptation ability is integrated to the controller using two-level gain-learning laws. Reaching gains and sliding gain are automatically tuned for asymptotic contr...
The role of modern control techniques has been instrumental in today’s robotic applications because ...
A systematic way to combine adaptive control and sliding mode control (SMC) for trajectory tracking ...
The paper proposes a new control scheme for nonlinear robotic systems. The basis of the scheme is an...
A robust learning control (RLC) scheme is developed for robotic manipulators by a synthesis of learn...
This paper proposes an adaptive sliding mode controller which combines adaptive control and sliding ...
A robust learning control (RLC) scheme is developed for robotic manipulators by a synthesis of learn...
Abstract—Time-delay control has been verified as a simple and robust controller for robot manipulato...
This study aims to provide a robust trajectory tracking controller which guarantees the prescribed p...
Thanks to its simplicity and robustness, time delay control (TDC) has been recognized as a simple an...
Control of robotic systems is vital due to wide range of their applications because this system is m...
A novel robot controller is proposed, borrowing ideas from sliding mode and adaptive control. It is ...
A time delay estimation based general framework for trajectory tracking control of robot manipulator...
Abstract: In this paper a New RBF Neural Network based Sliding Mode Adaptive Controller (NNNSMAC) fo...
In this paper, a novel adaptive robust controller is presented for high-accuracy tracking control of...
A sliding mode control is developed for nonlinear manipulator systems. An improved version of the ex...
The role of modern control techniques has been instrumental in today’s robotic applications because ...
A systematic way to combine adaptive control and sliding mode control (SMC) for trajectory tracking ...
The paper proposes a new control scheme for nonlinear robotic systems. The basis of the scheme is an...
A robust learning control (RLC) scheme is developed for robotic manipulators by a synthesis of learn...
This paper proposes an adaptive sliding mode controller which combines adaptive control and sliding ...
A robust learning control (RLC) scheme is developed for robotic manipulators by a synthesis of learn...
Abstract—Time-delay control has been verified as a simple and robust controller for robot manipulato...
This study aims to provide a robust trajectory tracking controller which guarantees the prescribed p...
Thanks to its simplicity and robustness, time delay control (TDC) has been recognized as a simple an...
Control of robotic systems is vital due to wide range of their applications because this system is m...
A novel robot controller is proposed, borrowing ideas from sliding mode and adaptive control. It is ...
A time delay estimation based general framework for trajectory tracking control of robot manipulator...
Abstract: In this paper a New RBF Neural Network based Sliding Mode Adaptive Controller (NNNSMAC) fo...
In this paper, a novel adaptive robust controller is presented for high-accuracy tracking control of...
A sliding mode control is developed for nonlinear manipulator systems. An improved version of the ex...
The role of modern control techniques has been instrumental in today’s robotic applications because ...
A systematic way to combine adaptive control and sliding mode control (SMC) for trajectory tracking ...
The paper proposes a new control scheme for nonlinear robotic systems. The basis of the scheme is an...