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Research Article

Bridge damage analysis under joint environmental and operational variability

Rick M. Delgadilloa Department of Civil Engineering, Universidad Peruana de Ciencias Aplicadas (UPC), Lima, PeruCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-9763-1938
ORCID Icon,
Fernando J. Tenelemab Department of Civil and Environmental Engineering, Technical University of Catalonia (BarcelonaTech), Barcelona, Spain
&
Joan R. Casasb Department of Civil and Environmental Engineering, Technical University of Catalonia (BarcelonaTech), Barcelona, SpainORCID Iconhttps://orcid.org/0000-0003-4473-4308
ORCID Icon
Received 16 Feb 2023, Accepted 12 Jul 2023, Published online: 04 Aug 2023
 
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Abstract

One of the main challenges for bridge damage identification using monitoring data is to acquire sensitive damage features but insensitive to operational and environmental effects as well as noise. Specifically, the temperature as part of environmental variability can mask structural damages in bridges. Principal Component Analysis (PCA) has been applied here as a well-known and robust technique for removing environmental variability and obtain damage-sensitive indices. As a first aim, PCA is used considering only ambient vibrations and the natural frequencies are considered as damage indicators. As a second objective, PCA in conjunction with Hilbert Huang Transform (HHT) and Variational Mode Decomposition (VMD) are applied to eliminate the environmental influence in transient vibrations due to traffic. The combined methodology is applied to the case of a numerical benchmark by using the Instantaneous Phase Difference (IPD) as novel vibration damage feature in the case of non-stationary vibrations. The results show that the proposed strategy to use the non-stationary vibration due to traffic instead of ambient vibration seems a promising tool for damage identification and, therefore, its capabilities in real bridge applications are worth exploring further when experimental data from real bridges will become available.

Acknowledgements

The authors thank Prof. Eleni Chatzi, ETH Zurich, for giving us the data as well as documentation from the numerical bridge utilized in the case study, and the Dirección de Investigación de la Universidad Peruana de Ciencias Aplicadas for the support provided for the realization of this research work through the UPC-EXPOST-2023-1 incentive.

Disclosure statement

No potential conflict of interest was reported by the author(s).

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