In this paper, adaptive iterative learning control (AILC) of uncertain robot manipulators in task space is considered for trajectory tracking in an iterative operation mode. The control scheme incluces a PD controller with a gain switching technique plus a learning feedforward term, is exploited to predict the desired actuator torque. By using Lyapunov method, an adaptive iterative learning control scheme is presented for robotic system with both structured and unstructured uncertainty, and the overall stability of the closed-loop system in the iterative domain is established. The validity of the scheme is confirmed through a numerical simulation
A robust learning control (RLC) scheme is developed for robotic manipulators by a synthesis of learn...
Robotic manipulators and Unmanned Aerial Vehicles (UAVs) have been used to execute some repeatable a...
International audienceTo solve the trajectory tracking problem for rigid robot manipulators subject ...
This paper aims at the trajectory tracking problem of robot manipulators performing repetitive tasks...
Two important properties of industrial tasks performed by robot manipulators, namely, periodicity (i...
This work presents an iterative learning control (ILC) algorithm to enhance the feedforward control ...
A new iterative learning control scheme is applied to the trajectory tracking of robot manipulators....
Tatlicioglu, Enver/0000-0001-5623-9975WOS: 000434052200004Two important properties of industrial tas...
Abstract: In this paper, an adaptive iterative learning control algorithm for robotic manipulators ...
This paper proposes an adaptive iterative learning control strategy integrated with saturation-based...
In this paper a nonlinear learning control design is introduced for trajectory tracking of robot man...
Many manipulators at work in factories today repeat their motions over and over in cycles and if the...
An adaptive learning control scheme is presented for uncertain robotic systems that is capable of tr...
In this paper, a learning controller for robot manipulators is developed. The controller is proven t...
A robust learning control (RLC) scheme is developed for robotic manipulators by a synthesis of learn...
A robust learning control (RLC) scheme is developed for robotic manipulators by a synthesis of learn...
Robotic manipulators and Unmanned Aerial Vehicles (UAVs) have been used to execute some repeatable a...
International audienceTo solve the trajectory tracking problem for rigid robot manipulators subject ...
This paper aims at the trajectory tracking problem of robot manipulators performing repetitive tasks...
Two important properties of industrial tasks performed by robot manipulators, namely, periodicity (i...
This work presents an iterative learning control (ILC) algorithm to enhance the feedforward control ...
A new iterative learning control scheme is applied to the trajectory tracking of robot manipulators....
Tatlicioglu, Enver/0000-0001-5623-9975WOS: 000434052200004Two important properties of industrial tas...
Abstract: In this paper, an adaptive iterative learning control algorithm for robotic manipulators ...
This paper proposes an adaptive iterative learning control strategy integrated with saturation-based...
In this paper a nonlinear learning control design is introduced for trajectory tracking of robot man...
Many manipulators at work in factories today repeat their motions over and over in cycles and if the...
An adaptive learning control scheme is presented for uncertain robotic systems that is capable of tr...
In this paper, a learning controller for robot manipulators is developed. The controller is proven t...
A robust learning control (RLC) scheme is developed for robotic manipulators by a synthesis of learn...
A robust learning control (RLC) scheme is developed for robotic manipulators by a synthesis of learn...
Robotic manipulators and Unmanned Aerial Vehicles (UAVs) have been used to execute some repeatable a...
International audienceTo solve the trajectory tracking problem for rigid robot manipulators subject ...