Output-only modal identification based on the variational mode decomposition (VMD) framework

This paper proposes a novel modal identification variational mode decomposition (MIVMD) for output-only modal identification (OMI). The proposed MIVMD is more direct and elegant than most existing VMD-related OMI works that repeatedly use the conventional VMD to each channel of multivariate vibratio...

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Bibliographic Details
Published in:Journal of sound and vibration 2022-03, Vol.522, p.116668, Article 116668
Main Authors: Liu, Shuaishuai, Zhao, Rui, Yu, Kaiping, Zheng, Bowen, Liao, Baopeng
Format: Article
Language:English
Subjects:
Decomposition
Modal identification
Modal response
Modal superposition principle
Mode superposition method
Multipliers
Multivariate analysis
Narrowband
Optimization
Output-only modal identification
Resonant frequencies
Signal processing
Time-varying system
Variational mode decomposition
Vibration
Wideband mode
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Summary:This paper proposes a novel modal identification variational mode decomposition (MIVMD) for output-only modal identification (OMI). The proposed MIVMD is more direct and elegant than most existing VMD-related OMI works that repeatedly use the conventional VMD to each channel of multivariate vibration signals and need post-processing to extract mode shapes. Firstly, OMI is expressed as a constrained variational problem by using the modal superposition equation. Secondly, as in VMD, the squared L2-norm of the gradient of the modal response is employed to evaluate its bandwidth. Then, the quadratic penalty term and Lagrangian multipliers are used to render the problem unconstrained. Finally, the alternate direction method of multipliers (ADMM) is utilized to solve this unconstrained optimization problem. The results demonstrate that the proposed MIVMD can concurrently identify natural frequencies, mode shapes, and modal responses from multivariate signals without multiple decompositions and post-processing. Because VMD-based methods are restricted to decompose narrowband modes, a short-time counterpart of MIVMD (ST-MIVMD), which can identify time-varying systems involving wideband modes or closely-spaced modes, is also presented. In the end, a series of numerical and experimental examples are performed to verify the effectiveness and advantages of the proposed method in addressing the OMI problem. •A novel variational OMI method based on modal superposition and VMD framework.•Better convergence and computational efficiency on multi-sensor vibration analysis.•Unlike other VMD-based methods, the new method can directly extract mode shapes.•Good performance on time-varying OMI involving closely-spaced or wideband modes.
ISSN:0022-460X
1095-8568
DOI:10.1016/j.jsv.2021.116668