Digital Twin of a Tribology Test Bench: The Adjoint Gradient Computation for Parameter Identification

Karin Nachbagauer; Philipp Eichmeir; Martin Jech; Georg Vorlaufer

Digital Twin of a Tribology Test Bench: The Adjoint Gradient Computation for Parameter Identification

Karin Nachbagauer
, Philipp Eichmeir
, Martin Jech
, Georg Vorlaufer

Research Center Wels

Publikation: Beitrag in Buch/Bericht/Tagungsband › Konferenzbeitrag › Begutachtung

Abstract

This work discusses the application of an optimization algorithm
to determine the parameters for the system dynamics of a tribometer.
To determine the parameters, an optimization algorithm is used that
compares a simulation signal with a measurement signal from the real
test bench. The optimization problem is solved using an indirect method
in which the gradient of a cost function is computed with respect to
a parameter set. To reduce the computational effort for the gradient
determination, the adjoint gradient method is introduced. The method
presented in this work avoids the numerical gradient calculation and can
be used for the iterative determination of optimal parameters. These parameters form the basis for a digital twin of such a tribometer, e.g. to
investigate the coupling between the friction in the model contact and
the vibrations caused by the experimental setup.

Originalsprache	Englisch (Amerika)
Titel	Proceedings of the ISIEA 2024
Untertitel	3rd International Symposium on Industrial Engineering and Automation
Erscheinungsort	Bozen
Seitenumfang	2
Band	3
Publikationsstatus	Veröffentlicht - 18 Juni 2024

Zugriff auf Dokument

https://isiea.events.unibz.it/wp-content/uploads/2024/10/Book-of-Abstracts-2024.pdf

Zitieren

Nachbagauer, K., Eichmeir, P., Jech, M., & Vorlaufer, G. (2024). Digital Twin of a Tribology Test Bench: The Adjoint Gradient Computation for Parameter Identification. in Proceedings of the ISIEA 2024 : 3rd International Symposium on Industrial Engineering and Automation (Band 3). Artikel 123. https://isiea.events.unibz.it/wp-content/uploads/2024/10/Book-of-Abstracts-2024.pdf

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title = "Digital Twin of a Tribology Test Bench: The Adjoint Gradient Computation for Parameter Identification",

abstract = "This work discusses the application of an optimization algorithm to determine the parameters for the system dynamics of a tribometer. To determine the parameters, an optimization algorithm is used that compares a simulation signal with a measurement signal from the real test bench. The optimization problem is solved using an indirect method in which the gradient of a cost function is computed with respect to a parameter set. To reduce the computational effort for the gradient determination, the adjoint gradient method is introduced. The method presented in this work avoids the numerical gradient calculation and can be used for the iterative determination of optimal parameters. These parameters form the basis for a digital twin of such a tribometer, e.g. to investigate the coupling between the friction in the model contact and the vibrations caused by the experimental setup.",

author = "Karin Nachbagauer and Philipp Eichmeir and Martin Jech and Georg Vorlaufer",

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Nachbagauer, K , Eichmeir, P, Jech, M & Vorlaufer, G 2024, Digital Twin of a Tribology Test Bench: The Adjoint Gradient Computation for Parameter Identification. in Proceedings of the ISIEA 2024 : 3rd International Symposium on Industrial Engineering and Automation. Bd. 3, 123, Bozen. <https://isiea.events.unibz.it/wp-content/uploads/2024/10/Book-of-Abstracts-2024.pdf>

Digital Twin of a Tribology Test Bench: The Adjoint Gradient Computation for Parameter Identification. / Nachbagauer, Karin ; Eichmeir, Philipp; Jech, Martin et al.
Proceedings of the ISIEA 2024 : 3rd International Symposium on Industrial Engineering and Automation. Band 3 Bozen, 2024. 123.

Publikation: Beitrag in Buch/Bericht/Tagungsband › Konferenzbeitrag › Begutachtung

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PY - 2024/6/18

Y1 - 2024/6/18

N2 - This work discusses the application of an optimization algorithm to determine the parameters for the system dynamics of a tribometer. To determine the parameters, an optimization algorithm is used that compares a simulation signal with a measurement signal from the real test bench. The optimization problem is solved using an indirect method in which the gradient of a cost function is computed with respect to a parameter set. To reduce the computational effort for the gradient determination, the adjoint gradient method is introduced. The method presented in this work avoids the numerical gradient calculation and can be used for the iterative determination of optimal parameters. These parameters form the basis for a digital twin of such a tribometer, e.g. to investigate the coupling between the friction in the model contact and the vibrations caused by the experimental setup.

AB - This work discusses the application of an optimization algorithm to determine the parameters for the system dynamics of a tribometer. To determine the parameters, an optimization algorithm is used that compares a simulation signal with a measurement signal from the real test bench. The optimization problem is solved using an indirect method in which the gradient of a cost function is computed with respect to a parameter set. To reduce the computational effort for the gradient determination, the adjoint gradient method is introduced. The method presented in this work avoids the numerical gradient calculation and can be used for the iterative determination of optimal parameters. These parameters form the basis for a digital twin of such a tribometer, e.g. to investigate the coupling between the friction in the model contact and the vibrations caused by the experimental setup.

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