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An investigation into model extrapolation and stability in the system identification of a nonlinear structure
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S. Marchesiello ,
G. Gatti ,
P. J. P. Gonçalves ,
Alexander Shaw ,
M. J. Brennan
Nonlinear Dynamics, Volume: 111
Swansea University Author:
Alexander Shaw
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DOI (Published version): 10.1007/s11071-023-08770-7
Abstract
Estimating a nonlinear model from experimental measurements of a vibrating structure remains a challenge, despite huge progress in recent years. A major issue is that the dynamical behaviour of a nonlinear structure strongly depends on the magnitude of the displacement response. Thus, the validity o...
| Published in: | Nonlinear Dynamics |
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| ISSN: | 0924-090X 1573-269X |
| Published: |
Springer Science and Business Media LLC
2023
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| Online Access: |
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| URI: | https://cronfa.swan.ac.uk/Record/cronfa63999 |
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| Abstract: |
Estimating a nonlinear model from experimental measurements of a vibrating structure remains a challenge, despite huge progress in recent years. A major issue is that the dynamical behaviour of a nonlinear structure strongly depends on the magnitude of the displacement response. Thus, the validity of an identified model is generally limited to a certain range of motion. Also, outside this range, the stability of the solutions predicted by the model are not guaranteed. This raises the question as to how a nonlinear model derived using data from relatively low amplitude excitation can be used to predict the dynamical behaviour for higher amplitude excitation. This paper focuses on this problem, investigating the extrapolation capabilities of data-driven nonlinear state-space models based on a subspace approach. The experimental vibrating structure consists of a cantilever beam in which magnets are used to generate strong geometric nonlinearity. The beam is driven by an electrodynamic shaker using several levels of broadband random noise. Acceleration data from the beam tip are used to derive nonlinear state-space models for the structure. It is shown that model predictions errors generally tend to increase when extrapolating towards higher excitation levels. Furthermore, the validity of the estimated nonlinear models become poor for very strong nonlinear behaviour. Linearised models are also estimated to have a complete view of the performance of each candidate model. |
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| Keywords: |
Nonlinear system identification, Extrapolation, Interpolation, Stability, Data-driven |
| College: |
Faculty of Science and Engineering |
| Funders: |
Open access funding provided by Politecnico di Torino within the CRUI-CARE Agreement. |