Model-Based Control of a Hexapod with Linear Direct Drives

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autorschaft

  • Berend Denkena
  • Christian Holz
  • H. Abdellatif

Organisationseinheiten

Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Seiten (von - bis)463-472
Seitenumfang10
FachzeitschriftJournal of Computer Integrated Manufacturing
Jahrgang19
Ausgabenummer5
PublikationsstatusVeröffentlicht - 2006

Abstract

To fulfil the increasing demands on accuracy and dynamics of modern machine tools a highly dynamic hexapod design has been developed at the Institute of Production Engineering and Machine Tools (IFW). This handling and processing machine PaLiDA allows very high dynamics, owing to the combination of a parallel kinematics design with linear direct drives as struts variable in lengths. The hexapod is operated by a single-joint control, based on the linear direct drives, that leads to a stable and robust handling but lacks dynamic accuracy. To raise the precision of motion, a model-based feedforward control is applied to calculate the rigid body and friction forces. This feedforward control is added to any applied independent drive controller and thereby reduces the tracking error significantly. Furthermore the pose-dependent mass matrix is considered in order to decouple the dynamics of the struts. This linearization allows operating the complex parallel structure with single-joint controllers in contrast to the implemented control. Furthermore the consideration of the diagonal elements of the mass matrix allows an adaptation of the PID controller's parameters within the workspace.

Zitieren

Model-Based Control of a Hexapod with Linear Direct Drives. / Denkena, Berend; Holz, Christian; Abdellatif, H.
in: Journal of Computer Integrated Manufacturing, Jahrgang 19, Nr. 5, 2006, S. 463-472.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Denkena, B, Holz, C & Abdellatif, H 2006, 'Model-Based Control of a Hexapod with Linear Direct Drives', Journal of Computer Integrated Manufacturing, Jg. 19, Nr. 5, S. 463-472.
Denkena, B., Holz, C., & Abdellatif, H. (2006). Model-Based Control of a Hexapod with Linear Direct Drives. Journal of Computer Integrated Manufacturing, 19(5), 463-472.
Denkena B, Holz C, Abdellatif H. Model-Based Control of a Hexapod with Linear Direct Drives. Journal of Computer Integrated Manufacturing. 2006;19(5):463-472.
Denkena, Berend ; Holz, Christian ; Abdellatif, H. / Model-Based Control of a Hexapod with Linear Direct Drives. in: Journal of Computer Integrated Manufacturing. 2006 ; Jahrgang 19, Nr. 5. S. 463-472.
Download
@article{d56c576f881b414f9fc7478623cbd45d,
title = "Model-Based Control of a Hexapod with Linear Direct Drives",
abstract = "To fulfil the increasing demands on accuracy and dynamics of modern machine tools a highly dynamic hexapod design has been developed at the Institute of Production Engineering and Machine Tools (IFW). This handling and processing machine PaLiDA allows very high dynamics, owing to the combination of a parallel kinematics design with linear direct drives as struts variable in lengths. The hexapod is operated by a single-joint control, based on the linear direct drives, that leads to a stable and robust handling but lacks dynamic accuracy. To raise the precision of motion, a model-based feedforward control is applied to calculate the rigid body and friction forces. This feedforward control is added to any applied independent drive controller and thereby reduces the tracking error significantly. Furthermore the pose-dependent mass matrix is considered in order to decouple the dynamics of the struts. This linearization allows operating the complex parallel structure with single-joint controllers in contrast to the implemented control. Furthermore the consideration of the diagonal elements of the mass matrix allows an adaptation of the PID controller's parameters within the workspace.",
author = "Berend Denkena and Christian Holz and H. Abdellatif",
note = "Funding information: This research project on the application of parallel kinematics in production is funded by the German Research Foundation (DFG).",
year = "2006",
language = "English",
volume = "19",
pages = "463--472",
number = "5",

}

Download

TY - JOUR

T1 - Model-Based Control of a Hexapod with Linear Direct Drives

AU - Denkena, Berend

AU - Holz, Christian

AU - Abdellatif, H.

N1 - Funding information: This research project on the application of parallel kinematics in production is funded by the German Research Foundation (DFG).

PY - 2006

Y1 - 2006

N2 - To fulfil the increasing demands on accuracy and dynamics of modern machine tools a highly dynamic hexapod design has been developed at the Institute of Production Engineering and Machine Tools (IFW). This handling and processing machine PaLiDA allows very high dynamics, owing to the combination of a parallel kinematics design with linear direct drives as struts variable in lengths. The hexapod is operated by a single-joint control, based on the linear direct drives, that leads to a stable and robust handling but lacks dynamic accuracy. To raise the precision of motion, a model-based feedforward control is applied to calculate the rigid body and friction forces. This feedforward control is added to any applied independent drive controller and thereby reduces the tracking error significantly. Furthermore the pose-dependent mass matrix is considered in order to decouple the dynamics of the struts. This linearization allows operating the complex parallel structure with single-joint controllers in contrast to the implemented control. Furthermore the consideration of the diagonal elements of the mass matrix allows an adaptation of the PID controller's parameters within the workspace.

AB - To fulfil the increasing demands on accuracy and dynamics of modern machine tools a highly dynamic hexapod design has been developed at the Institute of Production Engineering and Machine Tools (IFW). This handling and processing machine PaLiDA allows very high dynamics, owing to the combination of a parallel kinematics design with linear direct drives as struts variable in lengths. The hexapod is operated by a single-joint control, based on the linear direct drives, that leads to a stable and robust handling but lacks dynamic accuracy. To raise the precision of motion, a model-based feedforward control is applied to calculate the rigid body and friction forces. This feedforward control is added to any applied independent drive controller and thereby reduces the tracking error significantly. Furthermore the pose-dependent mass matrix is considered in order to decouple the dynamics of the struts. This linearization allows operating the complex parallel structure with single-joint controllers in contrast to the implemented control. Furthermore the consideration of the diagonal elements of the mass matrix allows an adaptation of the PID controller's parameters within the workspace.

M3 - Article

VL - 19

SP - 463

EP - 472

JO - Journal of Computer Integrated Manufacturing

JF - Journal of Computer Integrated Manufacturing

IS - 5

ER -