Nonlinear modal identification through a nonlinear frequency response surface

Jip van Tiggelen; Marcel Ellenbroek; Dario Di Maio

doi:10.1016/j.ymssp.2025.113571

Nonlinear modal identification through a nonlinear frequency response surface

Jip van Tiggelen^*
, Marcel Ellenbroek
, Dario Di Maio

^*Corresponding author for this work

Applied Mechanics & Data Analysis

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

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Abstract

This paper presents a novel method for nonlinear modal identification using a nonlinear frequency response surface (NFRS). The approach involves sampling an experimental NFRS through constant-excitation voltage stepped sine testing, eliminating the need for a dedicated controller for testing. By extracting quasi-linear constant-response frequency response functions from the NFRS, linear modal techniques can be employed to determine equivalent modal parameters for various response amplitudes. The method’s performance is evaluated against existing techniques using two experimental benchmark structures, demonstrating its effectiveness in identifying nonlinear modal parameters.

Original language	English
Article number	113571
Number of pages	19
Journal	Mechanical systems and signal processing
Volume	241
Early online date	6 Nov 2025
DOIs	https://doi.org/10.1016/j.ymssp.2025.113571
Publication status	Published - Dec 2025

Keywords

UT-Hybrid-D
Frequency Response Functions
Weakly nonlinear systems
Modal analysis
Forced vibrations
nonlinear system identification

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10.1016/j.ymssp.2025.113571Licence: CC BY

ArticleFinal published version, 4.64 MBLicence: CC BY

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title = "Nonlinear modal identification through a nonlinear frequency response surface",

abstract = "This paper presents a novel method for nonlinear modal identification using a nonlinear frequency response surface (NFRS). The approach involves sampling an experimental NFRS through constant-excitation voltage stepped sine testing, eliminating the need for a dedicated controller for testing. By extracting quasi-linear constant-response frequency response functions from the NFRS, linear modal techniques can be employed to determine equivalent modal parameters for various response amplitudes. The method{\textquoteright}s performance is evaluated against existing techniques using two experimental benchmark structures, demonstrating its effectiveness in identifying nonlinear modal parameters.",

keywords = "UT-Hybrid-D, Frequency Response Functions, Weakly nonlinear systems, Modal analysis, Forced vibrations, nonlinear system identification",

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AU - Di Maio, Dario

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N2 - This paper presents a novel method for nonlinear modal identification using a nonlinear frequency response surface (NFRS). The approach involves sampling an experimental NFRS through constant-excitation voltage stepped sine testing, eliminating the need for a dedicated controller for testing. By extracting quasi-linear constant-response frequency response functions from the NFRS, linear modal techniques can be employed to determine equivalent modal parameters for various response amplitudes. The method’s performance is evaluated against existing techniques using two experimental benchmark structures, demonstrating its effectiveness in identifying nonlinear modal parameters.

AB - This paper presents a novel method for nonlinear modal identification using a nonlinear frequency response surface (NFRS). The approach involves sampling an experimental NFRS through constant-excitation voltage stepped sine testing, eliminating the need for a dedicated controller for testing. By extracting quasi-linear constant-response frequency response functions from the NFRS, linear modal techniques can be employed to determine equivalent modal parameters for various response amplitudes. The method’s performance is evaluated against existing techniques using two experimental benchmark structures, demonstrating its effectiveness in identifying nonlinear modal parameters.

KW - UT-Hybrid-D

KW - Frequency Response Functions

KW - Weakly nonlinear systems

KW - Modal analysis

KW - Forced vibrations

KW - nonlinear system identification

UR - https://www.scopus.com/pages/publications/105020805775

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VL - 241

JO - Mechanical systems and signal processing

JF - Mechanical systems and signal processing

M1 - 113571

ER -

Nonlinear modal identification through a nonlinear frequency response surface

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