The accuracy and computational efficiency of the Loewner framework for the system identification of mechanical systems
Date published
2023-06-20
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Publisher
MDPI
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Article
ISSN
2226-4310
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Citation
Dessena G, Civera M, Ignatyev DI, et al., (2023) The accuracy and computational efficiency of the Loewner framework for the system identification of mechanical systems, Aerospace, Volume 10, Issue 6, June 2023, Article Number 571
Abstract
The Loewner framework has recently been proposed for the system identification of mechanical systems, mitigating the limitations of current frequency domain fitting processes for the extraction of modal parameters. In this work, the Loewner framework computational performance, in terms of the elapsed time till identification, is assessed. This is investigated on a hybrid, numerical and experimental dataset against two well-established system identification methods (least-squares complex exponential, LSCE, and subspace state space system identification, N4SID). Good results are achieved, in terms of better accuracy than LSCE and better computational performance than N4SID.
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Github
Keywords
Loewner matrix, Loewner framework, system identification, frequency response functions, modal analysis, experimental modal analysis, structural dynamics, tangential interpolation, damage detection, structural health monitoring
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Attribution 4.0 International
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Engineering and Physical Sciences Research Council (EPSRC): 2277626