Deformation Control in Rest-to-Rest Motion of Mechanisms with Flexible Links

Deformation Control in Rest-to-Rest Motion of Mechanisms with Flexible Links

This paper develops and validates experimentally a feedback strategy for the reduction of the link deformations in rest-to-rest motion of mechanisms with flexible links, named Delayed Reference Control (DRC). The technique takes advantage of the inertial coupling between rigid-body motion and elasti...

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Main Authors: Roberto Caracciolo, Dario Richiedei, Alberto Trevisani
Format: Article
Language:English
Published: Hindawi Limited 2018-01-01
Series:Shock and Vibration
Online Access:http://dx.doi.org/10.1155/2018/9016028
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spelling doaj-bcf32e101fa142639dd787e7809c33812020-11-24T23:09:06ZengHindawi LimitedShock and Vibration1070-96221875-92032018-01-01201810.1155/2018/90160289016028Deformation Control in Rest-to-Rest Motion of Mechanisms with Flexible LinksRoberto Caracciolo0Dario Richiedei1Alberto Trevisani2Dipartimento di Tecnica e Gestione dei Sistemi Industriali (DTG), Università degli Studi di Padova, Padova, ItalyDipartimento di Tecnica e Gestione dei Sistemi Industriali (DTG), Università degli Studi di Padova, Padova, ItalyDipartimento di Tecnica e Gestione dei Sistemi Industriali (DTG), Università degli Studi di Padova, Padova, ItalyThis paper develops and validates experimentally a feedback strategy for the reduction of the link deformations in rest-to-rest motion of mechanisms with flexible links, named Delayed Reference Control (DRC). The technique takes advantage of the inertial coupling between rigid-body motion and elastic motion to control the undesired link deformations by shifting in time the position reference through an action reference parameter. The action reference parameter is computed on the fly based on the sensed strains by solving analytically an optimization problem. An outer control loop is closed to compute the references for the position controllers of each actuator, which can be thought of as the inner control loop. The resulting multiloop architecture of the DRC is a relevant advantage over several traditional feedback controllers: DRC can be implemented by just adding an outer control loop to standard position controllers. A validation of the proposed control strategy is provided by applying the DRC to the real-time control of a four-bar linkage.http://dx.doi.org/10.1155/2018/9016028
collection DOAJ
language English
format Article
sources DOAJ
author Roberto Caracciolo
Dario Richiedei
Alberto Trevisani
spellingShingle Roberto Caracciolo
Dario Richiedei
Alberto Trevisani
Deformation Control in Rest-to-Rest Motion of Mechanisms with Flexible Links
Shock and Vibration
author_facet Roberto Caracciolo
Dario Richiedei
Alberto Trevisani
author_sort Roberto Caracciolo
title Deformation Control in Rest-to-Rest Motion of Mechanisms with Flexible Links
title_short Deformation Control in Rest-to-Rest Motion of Mechanisms with Flexible Links
title_full Deformation Control in Rest-to-Rest Motion of Mechanisms with Flexible Links
title_fullStr Deformation Control in Rest-to-Rest Motion of Mechanisms with Flexible Links
title_full_unstemmed Deformation Control in Rest-to-Rest Motion of Mechanisms with Flexible Links
title_sort deformation control in rest-to-rest motion of mechanisms with flexible links
publisher Hindawi Limited
series Shock and Vibration
issn 1070-9622
1875-9203
publishDate 2018-01-01
description This paper develops and validates experimentally a feedback strategy for the reduction of the link deformations in rest-to-rest motion of mechanisms with flexible links, named Delayed Reference Control (DRC). The technique takes advantage of the inertial coupling between rigid-body motion and elastic motion to control the undesired link deformations by shifting in time the position reference through an action reference parameter. The action reference parameter is computed on the fly based on the sensed strains by solving analytically an optimization problem. An outer control loop is closed to compute the references for the position controllers of each actuator, which can be thought of as the inner control loop. The resulting multiloop architecture of the DRC is a relevant advantage over several traditional feedback controllers: DRC can be implemented by just adding an outer control loop to standard position controllers. A validation of the proposed control strategy is provided by applying the DRC to the real-time control of a four-bar linkage.
url http://dx.doi.org/10.1155/2018/9016028
work_keys_str_mv AT robertocaracciolo deformationcontrolinresttorestmotionofmechanismswithflexiblelinks
AT dariorichiedei deformationcontrolinresttorestmotionofmechanismswithflexiblelinks
AT albertotrevisani deformationcontrolinresttorestmotionofmechanismswithflexiblelinks
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