Evaluation of the Hilbert Huang transformation of transient signals for bridge condition assessment

The assessment of bridge condition from vibration measurements has generally been determined via the monitoring of modal parameters determined though adaptations of the standard Fast Fourier Transform (FFT) or other stationary time-series based transformations. However, the nonstationary nature of m...

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Hauptverfasser:	Moughty, John James, Casas Rius, Joan Ramon
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Bridges Enginyeria civil Inspection Manteniment i reparació Materials i estructures Ponts Tipologies estructurals Àrees temàtiques de la UPC
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creator	Moughty, John James Casas Rius, Joan Ramon
description	The assessment of bridge condition from vibration measurements has generally been determined via the monitoring of modal parameters determined though adaptations of the standard Fast Fourier Transform (FFT) or other stationary time-series based transformations. However, the nonstationary nature of measured vibration signals from damaged structures can limit the quality of frequency content information estimated by such methods. The Hilbert–Huang Transform’s (HHT) ability to decompose non-stationary measured vibration data into a time-frequency-energy representation allows signal variations to be identified sooner than other stationary-based transformations, thus potentially allowing early detection of damage. The present study uses data obtained from a progressive damage test conducted on a real bridge subjected to excitation from a double axle passing vehicle as a test subject. Decomposed vibration signals from the HHT and associated marginal spectrums are assessed to determine structural condition for various damage states and different locations along the bridge. Peer Reviewed
doi_str_mv	10.1201/9781315210469-348
format	Conference Proceeding
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However, the nonstationary nature of measured vibration signals from damaged structures can limit the quality of frequency content information estimated by such methods. The Hilbert–Huang Transform’s (HHT) ability to decompose non-stationary measured vibration data into a time-frequency-energy representation allows signal variations to be identified sooner than other stationary-based transformations, thus potentially allowing early detection of damage. The present study uses data obtained from a progressive damage test conducted on a real bridge subjected to excitation from a double axle passing vehicle as a test subject. Decomposed vibration signals from the HHT and associated marginal spectrums are assessed to determine structural condition for various damage states and different locations along the bridge. 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identifier	ISBN: 1138629375
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subjects	Bridges Enginyeria civil Inspection Manteniment i reparació Materials i estructures Ponts Tipologies estructurals Àrees temàtiques de la UPC
title	Evaluation of the Hilbert Huang transformation of transient signals for bridge condition assessment
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