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2025 | OriginalPaper | Buchkapitel

Different Displacement Reduction Spaces for the Use in Admittance-Based TPA Methods

verfasst von : Domen Ocepek, Francesco Trainotti, Gregor Čepon, Daniel J. Rixen, Miha Boltežar

Erschienen in: Dynamic Substructures, Vol. 4

Verlag: Springer Nature Switzerland

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Abstract

When determining critical paths for transmission of sound and vibration in assembled products, transfer path analysis (TPA) is a reliable and effective tool. TPA represents a source with a set of forces that replicate the operational responses. The indirect determination of the forces at the interface is commonly performed using an inverse procedure; however, admittance-based TPA methods are often strongly influenced by imperfect measurements. Given that the condition number of the transfer path admittance is high, this can lead to severe error amplification in the equivalent (also known as blocked) forces. In order to overcome this problem, regularization techniques such as singular value truncation or Tikhonov regularization are usually suggested. These techniques generally improve the accuracy of the determined interface forces but provide little insight into what is the actual source of errors.
In this chapter, we investigate the benefits of projecting measured displacements into various representative subspaces in the scope of admittance-based TPA methods. In particular, a comparative investigation of three established reduction bases using singular, physical, and interface deflection modes is conducted. The definition of the reduced subspace using different sets of modes assures only dynamic information, which is relevant and dominant for the measured configuration, is retained after the reduction. Hence, badly observed dynamic, commonly dominated by measurement errors, is effectively filtered out. The main point of interest of this study is the effect of projecting measured displacements to the reduced domain on the transferability of the equivalent forces. The feasibility of all approaches is supported by an experimental case study, which can guide the reader in selecting a suitable approach for their specific needs.

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Fußnoten
1
An explicit dependency on the frequency is omitted to improve the readability of the notation, as will be the case for the remainder of the chapter.
 
2
The selection of m is left to the user and can be facilitated by a graphical presentation of singular values with respect to the frequency, see, for instance, Complex Mode Indicator Function (CMIF) [13].
 
3
Evaluated at indicator DoFs \({\mathbf {u}}_4\).
 
4
In this way, the response of a passive substructure can be evaluated across the entire frequency range of interest.
 
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Metadaten
Titel
Different Displacement Reduction Spaces for the Use in Admittance-Based TPA Methods
verfasst von
Domen Ocepek
Francesco Trainotti
Gregor Čepon
Daniel J. Rixen
Miha Boltežar
Copyright-Jahr
2025
DOI
https://doi.org/10.1007/978-3-031-68897-3_8