Litcius/Paper detail

Empirical Transfer Function Estimation With Differential Filtering and Its Application to Fine Positioning Control of Galvano Scanner

Yoshihiro Maeda, Makoto Iwasaki

2022IEEE Transactions on Industrial Electronics13 citationsDOIOpen Access PDF

Abstract

Fast and precise point-to-point (PTP) positioning control is a critical technology for improving the throughput and product quality of industrial machines. This study aims to investigate the frequency response function (FRF) estimation method with differential filtering (ETFE-Diff: empirical transfer function estimation with differential filtering) that uses the input and output signals of PTP motion during processing operation and to apply ETFE-Diff to a feedforward (FF) compensation adjustment. In this study, the principle of ETFE-Diff for FRF estimation was clarified, compared to the existing FRF estimation methods, i.e., empirical transfer function estimation and local rational modeling. Moreover, the effectiveness of ETFE-Diff for FF compensation adjustment in improving positioning accuracy of a galvano scanner as an industrial servo system was experimentally demonstrated.

Topics & Concepts

Transfer functionControl theory (sociology)Feed forwardFrequency responseCompensation (psychology)Computer scienceEngineeringControl engineeringArtificial intelligenceControl (management)PsychologyElectrical engineeringPsychoanalysisIterative Learning Control SystemsControl Systems and IdentificationControl Systems in Engineering