Improved damage identification in bridge structures subject to moving loads: Numerical and experimental studies

This paper proposes a damage identification approach in bridge structures under moving vehicular loads without knowledge of the vehicle properties and the time-histories of moving interaction forces. The dynamic response reconstruction technique in wavelet domain is developed for a structure subject...

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Published in	International journal of mechanical sciences Vol. 74; pp. 99 - 111
Main Authors	Li, Jun, Law, S.S., Hao, Hong
Format	Journal Article
Language	English
Published	Elsevier Ltd 01.09.2013
Subjects	Bridge structure Damage identification Moving loads Response reconstruction Transmissibility Wavelet Wavelet Damage identification Bridge structure Transmissibility Response reconstruction Moving loads
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Abstract	This paper proposes a damage identification approach in bridge structures under moving vehicular loads without knowledge of the vehicle properties and the time-histories of moving interaction forces. The dynamic response reconstruction technique in wavelet domain is developed for a structure subject to moving vehicular loads. The transmissibility matrix between two sets of time-domain response vectors from the structure is formulated using the unit impulse response function in the wavelet domain with the moving loads at different locations. Measured acceleration responses of the structure in the damaged state are required for the identification, and the damage identification procedure is conducted without knowledge of the time-histories of the moving loads. A dynamic response sensitivity-based method is used for the structural damage identification, and local damage is modeled as a change in the elemental stiffness factors. The adaptive Tikhonov regularization technique is adopted to improve the identification results when noise effect is included in the measurements. Numerical studies on a three-dimensional box-section girder are conducted to illustrate the effectiveness and performance of the proposed approach, and the simulated damage can be effectively identified even with 10% noise in the measurements. The proposed method is also found capable to identify the damage zone with an approximate estimation of the damage extent when under the influence of initial model errors of the structure. Experimental studies on a Tee-section prestressed concrete beam subject to a moving vehicle are preformed to validate the proposed approach. Identification results from the experimental test data show that the damage locations can be identified with a reasonable estimate of the damage extent. •An improved method of damage detection with moving loads with knowledge of locations only.•This is accomplished with transmissibility matrix between two sets of responses.•Experimental verification with a bonded prestressed concrete beam in the laboratory is provided.
AbstractList	This paper proposes a damage identification approach in bridge structures under moving vehicular loads without knowledge of the vehicle properties and the time-histories of moving interaction forces. The dynamic response reconstruction technique in wavelet domain is developed for a structure subject to moving vehicular loads. The transmissibility matrix between two sets of time-domain response vectors from the structure is formulated using the unit impulse response function in the wavelet domain with the moving loads at different locations. Measured acceleration responses of the structure in the damaged state are required for the identification, and the damage identification procedure is conducted without knowledge of the time-histories of the moving loads. A dynamic response sensitivity-based method is used for the structural damage identification, and local damage is modeled as a change in the elemental stiffness factors. The adaptive Tikhonov regularization technique is adopted to improve the identification results when noise effect is included in the measurements. Numerical studies on a three-dimensional box-section girder are conducted to illustrate the effectiveness and performance of the proposed approach, and the simulated damage can be effectively identified even with 10% noise in the measurements. The proposed method is also found capable to identify the damage zone with an approximate estimation of the damage extent when under the influence of initial model errors of the structure. Experimental studies on a Tee-section prestressed concrete beam subject to a moving vehicle are preformed to validate the proposed approach. Identification results from the experimental test data show that the damage locations can be identified with a reasonable estimate of the damage extent. •An improved method of damage detection with moving loads with knowledge of locations only.•This is accomplished with transmissibility matrix between two sets of responses.•Experimental verification with a bonded prestressed concrete beam in the laboratory is provided.
Author	Li, Jun Hao, Hong Law, S.S.
Author_xml	– sequence: 1 givenname: Jun surname: Li fullname: Li, Jun organization: Department of Civil and Environmental Engineering, The Hong Kong Polytechnic University, Hunghom, Kowloon, Hong Kong, People's Republic of China – sequence: 2 givenname: S.S. surname: Law fullname: Law, S.S. email: cesslaw@polyu.edu.hk organization: Department of Civil and Environmental Engineering, The Hong Kong Polytechnic University, Hunghom, Kowloon, Hong Kong, People's Republic of China – sequence: 3 givenname: Hong surname: Hao fullname: Hao, Hong organization: School of Civil and Resource Engineering, The University of Western Australia, 35 Stirling Highway, Crawley, WA 6009, Australia
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Keywords	Wavelet Damage identification Bridge structure Transmissibility Response reconstruction Moving loads
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Snippet	This paper proposes a damage identification approach in bridge structures under moving vehicular loads without knowledge of the vehicle properties and the...
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SubjectTerms	Bridge structure Damage identification Moving loads Response reconstruction Transmissibility Wavelet
Title	Improved damage identification in bridge structures subject to moving loads: Numerical and experimental studies
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