Iterative Parameter Optimization for Multiple Switching Control Applied to a Precision Stage for Microfabrication

Iterative Parameter Optimization for Multiple Switching Control Applied to a Precision Stage for Microfabrication

This paper proposes an iteration procedure to derive optimal parameters for a multiple switching control architecture. Control design is usually a compromise between various performance requirements; therefore, switching between multiple controllers that achieve a particular performance under differ...

Full description

Bibliographic Details
Main Authors: Fu-Cheng Wang, Jun-Fu Lu, Tien-Tung Chung, Jia-Yush Yen
Format: Article
Language:English
Published: MDPI AG 2021-08-01
Series:Machines
Subjects:
switching control
iterative parameter tuning
robust control
precision positioning
PZT stage
two-photon polymerization
Online Access:https://www.mdpi.com/2075-1702/9/8/153
id doaj-32d18bc08c05413092e4de7fd39cb97e
record_format Article
spelling doaj-32d18bc08c05413092e4de7fd39cb97e2021-08-26T13:59:34ZengMDPI AGMachines2075-17022021-08-01915315310.3390/machines9080153Iterative Parameter Optimization for Multiple Switching Control Applied to a Precision Stage for MicrofabricationFu-Cheng Wang0Jun-Fu Lu1Tien-Tung Chung2Jia-Yush Yen3Department of Mechanical Engineering, National Taiwan University, Taipei 10617, TaiwanDepartment of Mechanical Engineering, National Taiwan University, Taipei 10617, TaiwanDepartment of Mechanical Engineering, National Taiwan University, Taipei 10617, TaiwanDepartment of Mechanical Engineering, National Taiwan University, Taipei 10617, TaiwanThis paper proposes an iteration procedure to derive optimal parameters for a multiple switching control architecture. Control design is usually a compromise between various performance requirements; therefore, switching between multiple controllers that achieve a particular performance under different conditions can potentially improve the overall system behavior. In this paper, we consider a control-switching mechanism that can automatically switch controllers based on the prediction of future responses, and we develop an iteration procedure that can optimize the mechanism parameters, such as the number of controllers and the prediction horizon. We then implement the proposed mechanism in a long-stroke precision stage, and demonstrate the effectiveness of switching robust control with simulations and experiments. Lastly, we integrate the stage with a two-photon polymerization system to fabricate microlenses. The optical properties confirm that the proposed iterative parameter optimization procedure is effective in improving the performance of microfabrication employing multiple switching control.https://www.mdpi.com/2075-1702/9/8/153switching controliterative parameter tuningrobust controlprecision positioningPZT stagetwo-photon polymerization
collection DOAJ
language English
format Article
sources DOAJ
author Fu-Cheng Wang
Jun-Fu Lu
Tien-Tung Chung
Jia-Yush Yen
spellingShingle Fu-Cheng Wang
Jun-Fu Lu
Tien-Tung Chung
Jia-Yush Yen
Iterative Parameter Optimization for Multiple Switching Control Applied to a Precision Stage for Microfabrication
Machines
switching control
iterative parameter tuning
robust control
precision positioning
PZT stage
two-photon polymerization
author_facet Fu-Cheng Wang
Jun-Fu Lu
Tien-Tung Chung
Jia-Yush Yen
author_sort Fu-Cheng Wang
title Iterative Parameter Optimization for Multiple Switching Control Applied to a Precision Stage for Microfabrication
title_short Iterative Parameter Optimization for Multiple Switching Control Applied to a Precision Stage for Microfabrication
title_full Iterative Parameter Optimization for Multiple Switching Control Applied to a Precision Stage for Microfabrication
title_fullStr Iterative Parameter Optimization for Multiple Switching Control Applied to a Precision Stage for Microfabrication
title_full_unstemmed Iterative Parameter Optimization for Multiple Switching Control Applied to a Precision Stage for Microfabrication
title_sort iterative parameter optimization for multiple switching control applied to a precision stage for microfabrication
publisher MDPI AG
series Machines
issn 2075-1702
publishDate 2021-08-01
description This paper proposes an iteration procedure to derive optimal parameters for a multiple switching control architecture. Control design is usually a compromise between various performance requirements; therefore, switching between multiple controllers that achieve a particular performance under different conditions can potentially improve the overall system behavior. In this paper, we consider a control-switching mechanism that can automatically switch controllers based on the prediction of future responses, and we develop an iteration procedure that can optimize the mechanism parameters, such as the number of controllers and the prediction horizon. We then implement the proposed mechanism in a long-stroke precision stage, and demonstrate the effectiveness of switching robust control with simulations and experiments. Lastly, we integrate the stage with a two-photon polymerization system to fabricate microlenses. The optical properties confirm that the proposed iterative parameter optimization procedure is effective in improving the performance of microfabrication employing multiple switching control.
topic switching control
iterative parameter tuning
robust control
precision positioning
PZT stage
two-photon polymerization
url https://www.mdpi.com/2075-1702/9/8/153
work_keys_str_mv AT fuchengwang iterativeparameteroptimizationformultipleswitchingcontrolappliedtoaprecisionstageformicrofabrication
AT junfulu iterativeparameteroptimizationformultipleswitchingcontrolappliedtoaprecisionstageformicrofabrication
AT tientungchung iterativeparameteroptimizationformultipleswitchingcontrolappliedtoaprecisionstageformicrofabrication
AT jiayushyen iterativeparameteroptimizationformultipleswitchingcontrolappliedtoaprecisionstageformicrofabrication
_version_ 1721192022429138944

Similar Items