This paper presents a method to improve the path tracking accuracy of an industrial robot without replacing the standard industrial controller. By calculating off-line an appropriate trajectory pre-compensation, the effects of the nonlinear dynamics are compensated. This is realized by filtering the desired trajectory with the inverse dynamic model of the robot and its velocity controller. This compensation is applied as a velocity feed-forward in the standard industrial controller avoiding the need for a torque control interface. The presented method is experimentally validated on a KUKA IR 361 industrial robot. The results show clearly improved path tracking accuracy on circular trajectories.status: publishe
This paper considers the problem of robot motion control and suggests a systematic procedure that ca...
A method in an industrial robot for increasing the accuracy in the movements of the robot, where a t...
Experimental evaluations have demonstrated the effect of dynamic compensation on the trajectory trac...
This paper presents a cascaded methodology for enhancing the path accuracy of industrial robots by u...
Simple linear joint controllers are still used in typical industrial robotic systems. The use of the...
Improving the dynamic accuracy of industrial robots by trajectory pre-compensatio
accuracy, inertial navigation. Industrial robots require a high path accuracy for demand-ing continu...
In this work a feedforward control approach based on SINDYc (Sparse Identification of Nonlinear Dyna...
In the current industry, industrial robots are gaining more and more ground to classical positioning...
This thesis presents practical methods for planning and control to improve the motion performance of...
Robot replaces manual labor all over the world every day. The demand for robots is extremely high in...
Sensor-based trajectory generation of industrial robots can be seen as the task of, first, adaptatio...
Standard industrial controllers of robot arms define constraints on the velocity, the acceleration, ...
Industrial Robots (IR) are currently employed in several production areas as they enable flexible au...
Industrial robots generally exhibit poor path accuracy and thus cannot satisfy many manufacturing re...
This paper considers the problem of robot motion control and suggests a systematic procedure that ca...
A method in an industrial robot for increasing the accuracy in the movements of the robot, where a t...
Experimental evaluations have demonstrated the effect of dynamic compensation on the trajectory trac...
This paper presents a cascaded methodology for enhancing the path accuracy of industrial robots by u...
Simple linear joint controllers are still used in typical industrial robotic systems. The use of the...
Improving the dynamic accuracy of industrial robots by trajectory pre-compensatio
accuracy, inertial navigation. Industrial robots require a high path accuracy for demand-ing continu...
In this work a feedforward control approach based on SINDYc (Sparse Identification of Nonlinear Dyna...
In the current industry, industrial robots are gaining more and more ground to classical positioning...
This thesis presents practical methods for planning and control to improve the motion performance of...
Robot replaces manual labor all over the world every day. The demand for robots is extremely high in...
Sensor-based trajectory generation of industrial robots can be seen as the task of, first, adaptatio...
Standard industrial controllers of robot arms define constraints on the velocity, the acceleration, ...
Industrial Robots (IR) are currently employed in several production areas as they enable flexible au...
Industrial robots generally exhibit poor path accuracy and thus cannot satisfy many manufacturing re...
This paper considers the problem of robot motion control and suggests a systematic procedure that ca...
A method in an industrial robot for increasing the accuracy in the movements of the robot, where a t...
Experimental evaluations have demonstrated the effect of dynamic compensation on the trajectory trac...