Feedforward control enables high performance of a motion system. Recently, algorithms have been proposed that eliminate bias errors in tuning the parameters of a feedforward controller. The aim of this paper is to develop a new algorithm that combines unbiased parameter estimates with optimal accuracy in terms of variance. A simulation study is presented to illustrate the poor accuracy properties of pre-existing algorithms compared to the proposed approach. Experimental results obtained on an industrial nanopositioning system confirm the practical relevance of the proposed method.</p
Abstract Feedforward control has been widely used to improve the tracking performance of precision m...
Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with...
Sampled-data control requires both on-sample and intersample performance in high-precision mechatron...
Feedforward control enables high performance of a motion system. Recently, algorithms have been prop...
Feedforward control can significantly enhance the performance of motion systems through compensation...
Growing demands in the semiconductor industry result in the need for enhanced performance of lithogr...
Feedforward control can significantly improve the performance of industrial motion systems through c...
This paper considers model-based feedforward for motion systems. The proposed feedforward controller...
Toward improved performance of fast and nanoaccurate motion systems an iterative tuning procedure fo...
Mechatronic systems have increasingly stringent performance requirements for motion control, leadin...
Abstract Feedforward control has been widely used to improve the tracking performance of precision m...
Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with...
Sampled-data control requires both on-sample and intersample performance in high-precision mechatron...
Feedforward control enables high performance of a motion system. Recently, algorithms have been prop...
Feedforward control can significantly enhance the performance of motion systems through compensation...
Growing demands in the semiconductor industry result in the need for enhanced performance of lithogr...
Feedforward control can significantly improve the performance of industrial motion systems through c...
This paper considers model-based feedforward for motion systems. The proposed feedforward controller...
Toward improved performance of fast and nanoaccurate motion systems an iterative tuning procedure fo...
Mechatronic systems have increasingly stringent performance requirements for motion control, leadin...
Abstract Feedforward control has been widely used to improve the tracking performance of precision m...
Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with...
Sampled-data control requires both on-sample and intersample performance in high-precision mechatron...