Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with extreme accuracy and throughput. The aim of this paper is to develop a data-driven feedforward controller that addresses input nonlinearities, which are common in typical applications such as semiconductor back-end equipment. The developed method consists of parametric inverse-model feedforward that is optimized for tracking error reduction by exploiting ideas from iterative learning control. Results on a simulated set-up indicate improved performance over existing identification methods for systems with nonlinearities at the input
For mechatronic motion systems, the performance increases significantly if, besides feedback control...
Unknown nonlinear dynamics can limit the performance of model-based feedforward control. The aim of ...
This paper considers model-based feedforward for motion systems. The proposed feedforward controller...
Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with...
Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with...
Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with...
The increasing demands on throughput and accuracy of semiconductor manufacturing equipment necessita...
Growing demands in the semiconductor industry result in the need for enhanced performance of lithogr...
Feedforward control can significantly enhance the performance of motion systems through compensation...
Feedforward control is essential to achieving good tracking performance in positioning systems. The ...
Feedforward control enables high performance for industrial motion systems that perform nonrepeating...
Learning from data of past tasks can substantially improve the accuracy of mechatronic systems. Ofte...
For mechatronic motion systems, the performance increases significantly if, besides feedback control...
Unknown nonlinear dynamics can limit the performance of model-based feedforward control. The aim of ...
This paper considers model-based feedforward for motion systems. The proposed feedforward controller...
Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with...
Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with...
Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with...
The increasing demands on throughput and accuracy of semiconductor manufacturing equipment necessita...
Growing demands in the semiconductor industry result in the need for enhanced performance of lithogr...
Feedforward control can significantly enhance the performance of motion systems through compensation...
Feedforward control is essential to achieving good tracking performance in positioning systems. The ...
Feedforward control enables high performance for industrial motion systems that perform nonrepeating...
Learning from data of past tasks can substantially improve the accuracy of mechatronic systems. Ofte...
For mechatronic motion systems, the performance increases significantly if, besides feedback control...
Unknown nonlinear dynamics can limit the performance of model-based feedforward control. The aim of ...
This paper considers model-based feedforward for motion systems. The proposed feedforward controller...