A frequency domain approach for parameter identification in multibody dynamics

Stefan Oberpeilsteiner; Thomas Lauss; Wolfgang Steiner; Karin Nachbagauer

doi:10.1007/s11044-017-9596-1

A frequency domain approach for parameter identification in multibody dynamics

Stefan Oberpeilsteiner, Thomas Lauss, Wolfgang Steiner, Karin Nachbagauer

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

The adjoint method shows an efficient way to incorporate inverse dynamics to engineering multibody applications, as, e.g., parameter identification. In case of the identification of parameters in oscillating multibody systems, a combination of Fourier analysis and the adjoint method is an obvious and promising approach. The present paper shows the adjoint method including adjoint Fourier coefficients for the parameter identification of the amplitude response of oscillations. Two examples show the potential and efficiency of the proposed method in multibody dynamics.

Original language	English
Pages (from-to)	175-191
Number of pages	17
Journal	Multibody System Dynamics
Volume	43
Issue number	2
DOIs	https://doi.org/10.1007/s11044-017-9596-1
State	Published - 1 Jun 2018
Externally published	Yes

Keywords

Adjoint system
Engine orders
Fourieranalysis
Frequency domain
Multibody dynamics
Optimization
Order analysis
Parameter identification
Window functions

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10.1007/s11044-017-9596-1

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abstract = "The adjoint method shows an efficient way to incorporate inverse dynamics to engineering multibody applications, as, e.g., parameter identification. In case of the identification of parameters in oscillating multibody systems, a combination of Fourier analysis and the adjoint method is an obvious and promising approach. The present paper shows the adjoint method including adjoint Fourier coefficients for the parameter identification of the amplitude response of oscillations. Two examples show the potential and efficiency of the proposed method in multibody dynamics.",

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author = "Stefan Oberpeilsteiner and Thomas Lauss and Wolfgang Steiner and Karin Nachbagauer",

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AU - Oberpeilsteiner, Stefan

AU - Lauss, Thomas

AU - Steiner, Wolfgang

AU - Nachbagauer, Karin

PY - 2018/6/1

Y1 - 2018/6/1

N2 - The adjoint method shows an efficient way to incorporate inverse dynamics to engineering multibody applications, as, e.g., parameter identification. In case of the identification of parameters in oscillating multibody systems, a combination of Fourier analysis and the adjoint method is an obvious and promising approach. The present paper shows the adjoint method including adjoint Fourier coefficients for the parameter identification of the amplitude response of oscillations. Two examples show the potential and efficiency of the proposed method in multibody dynamics.

AB - The adjoint method shows an efficient way to incorporate inverse dynamics to engineering multibody applications, as, e.g., parameter identification. In case of the identification of parameters in oscillating multibody systems, a combination of Fourier analysis and the adjoint method is an obvious and promising approach. The present paper shows the adjoint method including adjoint Fourier coefficients for the parameter identification of the amplitude response of oscillations. Two examples show the potential and efficiency of the proposed method in multibody dynamics.

KW - Adjoint system

KW - Engine orders

KW - Fourieranalysis

KW - Frequency domain

KW - Multibody dynamics

KW - Optimization

KW - Order analysis

KW - Parameter identification

KW - Window functions

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SP - 175

EP - 191

JO - Multibody System Dynamics

JF - Multibody System Dynamics

IS - 2

ER -

A frequency domain approach for parameter identification in multibody dynamics

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Keywords

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