Compensation of manipulator nonlinear dynamics, which is typical of model-based control schemes, has been shown to give tracking performance improvements not only for direct-drive robots but also for gear-drive robots. This paper addresses the problem of robust design of linear independent joint feedback controllers in order to contrast imperfect dynamic modeling and disturbance effects. A new scheme that makes use of additional acceleration feedback is proposed and compared with the classical position + velocity feedback scheme, so as to provide robustness to disturbances at very low expense. Further, it is shown how linear feedforward compensation confers enhanced tracking capabilities to the schemes in the case of good model accuracy. Si...
In this paper, disturbance rejection of DC motor PID trajectory control systems is enhanced for inde...
This paper presents the first input-output robust control design for the trajectory following proble...
International audienceAbstract The control of industrial robot manipulators presents a difficult pro...
Compensation of manipulator nonlinear dynamics, which is typical of model-based control schemes, has...
The dynamic model of a robot manipulator is described by a set of nonlinear, highly coupled differen...
Independent joint control for robots is enhanced to suppress the dynamic couplings by incorporating ...
Simple linear joint controllers are still used in typical industrial robotic systems. The use of the...
This paper presents the first input-output robust control design for the trajectory following proble...
This paper is concerned with independent joint control of industrial robots. Despite the fact that a...
International audienceThe control of industrial robot manipulators presents a difficult problem for ...
This paper presents the first input-output robust control design for the trajectory following proble...
Experimental evaluations have demonstrated the effect of dynamic compensation on the trajectory trac...
A new methodology to design an optimal state feedback controlled to solve problems mainly caused by ...
We promote the idea of an experimentally supported control design as a successful way to achieve acc...
The problem of robot manipulator controller design in the presence of joint flexibility is addressed...
In this paper, disturbance rejection of DC motor PID trajectory control systems is enhanced for inde...
This paper presents the first input-output robust control design for the trajectory following proble...
International audienceAbstract The control of industrial robot manipulators presents a difficult pro...
Compensation of manipulator nonlinear dynamics, which is typical of model-based control schemes, has...
The dynamic model of a robot manipulator is described by a set of nonlinear, highly coupled differen...
Independent joint control for robots is enhanced to suppress the dynamic couplings by incorporating ...
Simple linear joint controllers are still used in typical industrial robotic systems. The use of the...
This paper presents the first input-output robust control design for the trajectory following proble...
This paper is concerned with independent joint control of industrial robots. Despite the fact that a...
International audienceThe control of industrial robot manipulators presents a difficult problem for ...
This paper presents the first input-output robust control design for the trajectory following proble...
Experimental evaluations have demonstrated the effect of dynamic compensation on the trajectory trac...
A new methodology to design an optimal state feedback controlled to solve problems mainly caused by ...
We promote the idea of an experimentally supported control design as a successful way to achieve acc...
The problem of robot manipulator controller design in the presence of joint flexibility is addressed...
In this paper, disturbance rejection of DC motor PID trajectory control systems is enhanced for inde...
This paper presents the first input-output robust control design for the trajectory following proble...
International audienceAbstract The control of industrial robot manipulators presents a difficult pro...