To solve the problems of model uncertainties, dynamic coupling, and external disturbances, a modified linear active disturbance rejection controller (MLADRC) is proposed for the trajectory tracking control of robot manipulators. In the computer simulation, MLADRC is compared to the proportional-derivative (PD) controller and the regular linear active disturbance rejection controller (LADRC) for performance tests. Multiple uncertain factors such as friction, parameter perturbation, and external disturbance are sequentially added to the system to simulate an actual robot manipulator system. Besides, a two-degree-of-freedom (2-DOF) manipulator is constructed to verify the control performance of the MLADRC. Compared with the regular LADRC, MLAD...
Linear active disturbance rejection control (LADRC) algorithm is proposed to realize accurate trajec...
This paper develops a new method to control uncertain robot manipulators by using only position meas...
A robust control method which can overcome the disturbances and parameter uncertainties of a robot m...
This work investigates the issue of a hybrid trajectory tracking control algorithm (HTCA) for robot ...
This paper presents a practical verification of an Active Disturbance Rejection Control (ADRC) metho...
A quadrotor is a typical multiple-input multiple-output (MIMO), underactuated, strong coupled nonlin...
In order to better track the planned trajectory of Delta high-speed parallel robot, this paper propo...
The principal problem is the control of a nonlinear system with uncertainty. We will consider a robo...
This paper presents a novel trajectory tracking method for robot arms with uncertainties in paramete...
The conventional adaptive control algorithm has a very high real-time requirement for six degrees-of...
In this paper, disturbance rejection of DC motor PID trajectory control systems is enhanced for inde...
Disturbance from luminance variation in the identification of visual sensors causes instability in t...
A new digital control solution to motion control problems is proposed. It is based on a unique activ...
In this paper, we propose a robust controller for the tracking of robot motion. This controller is a...
The tracking problem is considered for robot manipulators with unknown parameters and dynamic fricti...
Linear active disturbance rejection control (LADRC) algorithm is proposed to realize accurate trajec...
This paper develops a new method to control uncertain robot manipulators by using only position meas...
A robust control method which can overcome the disturbances and parameter uncertainties of a robot m...
This work investigates the issue of a hybrid trajectory tracking control algorithm (HTCA) for robot ...
This paper presents a practical verification of an Active Disturbance Rejection Control (ADRC) metho...
A quadrotor is a typical multiple-input multiple-output (MIMO), underactuated, strong coupled nonlin...
In order to better track the planned trajectory of Delta high-speed parallel robot, this paper propo...
The principal problem is the control of a nonlinear system with uncertainty. We will consider a robo...
This paper presents a novel trajectory tracking method for robot arms with uncertainties in paramete...
The conventional adaptive control algorithm has a very high real-time requirement for six degrees-of...
In this paper, disturbance rejection of DC motor PID trajectory control systems is enhanced for inde...
Disturbance from luminance variation in the identification of visual sensors causes instability in t...
A new digital control solution to motion control problems is proposed. It is based on a unique activ...
In this paper, we propose a robust controller for the tracking of robot motion. This controller is a...
The tracking problem is considered for robot manipulators with unknown parameters and dynamic fricti...
Linear active disturbance rejection control (LADRC) algorithm is proposed to realize accurate trajec...
This paper develops a new method to control uncertain robot manipulators by using only position meas...
A robust control method which can overcome the disturbances and parameter uncertainties of a robot m...