Automatic uncoupling of massive dynamic strains induced by vehicle- and temperature-loads for monitoring of operating bridges

•Auto-EMD method of strain uncoupling is created via fusion of EMD, HMS, and GMM.•Auto-EMD realizes automatic real-time uncoupling of massive dynamic strains of bridges.•Features and merits of proposed methods are elucidated via 3D numerical simulation.•Engineering applications: uncoupling of dynami...

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Published inMechanical systems and signal processing Vol. 166; p. 108332
Main Authors Li, Shuai, Xu, Hao, Zhang, Xin, Cao, Maosen, Sumarac, Dragoslav, Novák, Drahomír
Format Journal Article
LanguageEnglish
Published Berlin Elsevier Ltd 01.03.2022
Elsevier BV
Subjects
Bridge engineering
Bridge loads
Clustering
Data acquisition
Empirical mode decomposition
Gaussian mixture model clustering
Highway bridges
Hilbert marginal spectrum
Noise measurement
Numerical models
Probabilistic models
Real time
Robustness (mathematics)
Strain
Strain uncoupling
Structural health monitoring
Temperature effect
Temperature effect
Bridge engineering
Empirical mode decomposition
Hilbert marginal spectrum
Strain uncoupling
Gaussian mixture model clustering
Online AccessGet full text
ISSN0888-3270
1096-1216
DOI10.1016/j.ymssp.2021.108332

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Abstract •Auto-EMD method of strain uncoupling is created via fusion of EMD, HMS, and GMM.•Auto-EMD realizes automatic real-time uncoupling of massive dynamic strains of bridges.•Features and merits of proposed methods are elucidated via 3D numerical simulation.•Engineering applications: uncoupling of dynamic strains of Sutong Yangtze River Bridge. The massive dynamic strain of operating bridges, measured by a structural health monitoring (SHM) system, is naturally the coupling of different strain components associated with various sources, among which vehicle- and temperature-loads are the major contributors to strain components. Real-time uncoupling of vehicle- and temperature-induced strains is considerably needed when processing massy dynamic strain data acquired by SHM systems for monitoring of bridges relying on specific strain components. Currently, the empirical mode decomposition (EMD) is a typical method to uncouple the vehicle- and temperature-induced strains. Nevertheless, this method is capable of uncoupling these strains in a non-real-time manner due to involvement of manual intervention for setting certain parameter values in implementing the method. The key to real-time monitoring is to achieve uncoupling in an automatic way. This study proposes an enhanced EMD method, termed Auto-EMD method, based on a progressive utilization of EMD, Hilbert marginal spectrum, and Gaussian mixture model clustering. The Auto-EMD method embodies the predominant feature of automatically uncoupling of vehicle- and temperature-induced strains of operating bridges. The effectiveness of the proposed method is verified by numerical models of bridges subject to both vehicle- and temperature-loads, and the robustness to measurement noise is also demonstrated. Furthermore, the applicability of the proposed method in engineering practice is validated using dynamic strain data captured from the Sutong Yangtze River Highway Bridge. The results show that the proposed method can uncouple in real time the temperature- and vehicle-induced strains in a superior intelligent mode compared to that of the existing EMD. The Auto-EMD method provides a viable paradigm of uncoupling massive dynamic strain data for SHM applications of operating bridges.
AbstractList The massive dynamic strain of operating bridges, measured by a structural health monitoring (SHM) system, is naturally the coupling of different strain components associated with various sources, among which vehicle- and temperature-loads are the major contributors to strain components. Real-time uncoupling of vehicle- and temperature-induced strains is considerably needed when processing massy dynamic strain data acquired by SHM systems for monitoring of bridges relying on specific strain components. Currently, the empirical mode decomposition (EMD) is a typical method to uncouple the vehicle- and temperature-induced strains. Nevertheless, this method is capable of uncoupling these strains in a non-real-time manner due to involvement of manual intervention for setting certain parameter values in implementing the method. The key to real-time monitoring is to achieve uncoupling in an automatic way. This study proposes an enhanced EMD method, termed Auto-EMD method, based on a progressive utilization of EMD, Hilbert marginal spectrum, and Gaussian mixture model clustering. The Auto-EMD method embodies the predominant feature of automatically uncoupling of vehicle- and temperature-induced strains of operating bridges. The effectiveness of the proposed method is verified by numerical models of bridges subject to both vehicle- and temperature-loads, and the robustness to measurement noise is also demonstrated. Furthermore, the applicability of the proposed method in engineering practice is validated using dynamic strain data captured from the Sutong Yangtze River Highway Bridge. The results show that the proposed method can uncouple in real time the temperature- and vehicle-induced strains in a superior intelligent mode compared to that of the existing EMD. The Auto-EMD method provides a viable paradigm of uncoupling massive dynamic strain data for SHM applications of operating bridges.
•Auto-EMD method of strain uncoupling is created via fusion of EMD, HMS, and GMM.•Auto-EMD realizes automatic real-time uncoupling of massive dynamic strains of bridges.•Features and merits of proposed methods are elucidated via 3D numerical simulation.•Engineering applications: uncoupling of dynamic strains of Sutong Yangtze River Bridge. The massive dynamic strain of operating bridges, measured by a structural health monitoring (SHM) system, is naturally the coupling of different strain components associated with various sources, among which vehicle- and temperature-loads are the major contributors to strain components. Real-time uncoupling of vehicle- and temperature-induced strains is considerably needed when processing massy dynamic strain data acquired by SHM systems for monitoring of bridges relying on specific strain components. Currently, the empirical mode decomposition (EMD) is a typical method to uncouple the vehicle- and temperature-induced strains. Nevertheless, this method is capable of uncoupling these strains in a non-real-time manner due to involvement of manual intervention for setting certain parameter values in implementing the method. The key to real-time monitoring is to achieve uncoupling in an automatic way. This study proposes an enhanced EMD method, termed Auto-EMD method, based on a progressive utilization of EMD, Hilbert marginal spectrum, and Gaussian mixture model clustering. The Auto-EMD method embodies the predominant feature of automatically uncoupling of vehicle- and temperature-induced strains of operating bridges. The effectiveness of the proposed method is verified by numerical models of bridges subject to both vehicle- and temperature-loads, and the robustness to measurement noise is also demonstrated. Furthermore, the applicability of the proposed method in engineering practice is validated using dynamic strain data captured from the Sutong Yangtze River Highway Bridge. The results show that the proposed method can uncouple in real time the temperature- and vehicle-induced strains in a superior intelligent mode compared to that of the existing EMD. The Auto-EMD method provides a viable paradigm of uncoupling massive dynamic strain data for SHM applications of operating bridges.
ArticleNumber 108332
Author Zhang, Xin
Cao, Maosen
Novák, Drahomír
Xu, Hao
Li, Shuai
Sumarac, Dragoslav
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  surname: Li
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  organization: Department of Engineering Mechanics, Hohai University, Nanjing 210098, China
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  givenname: Dragoslav
  surname: Sumarac
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  givenname: Drahomír
  surname: Novák
  fullname: Novák, Drahomír
  organization: Faculty of Civil Engineering, Brno University of Technology, Brno 60200, Czech Republic
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Keywords Temperature effect
Bridge engineering
Empirical mode decomposition
Hilbert marginal spectrum
Strain uncoupling
Gaussian mixture model clustering
Language English
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Snippet •Auto-EMD method of strain uncoupling is created via fusion of EMD, HMS, and GMM.•Auto-EMD realizes automatic real-time uncoupling of massive dynamic strains...
The massive dynamic strain of operating bridges, measured by a structural health monitoring (SHM) system, is naturally the coupling of different strain...
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SubjectTerms Bridge engineering
Bridge loads
Clustering
Data acquisition
Empirical mode decomposition
Gaussian mixture model clustering
Highway bridges
Hilbert marginal spectrum
Noise measurement
Numerical models
Probabilistic models
Real time
Robustness (mathematics)
Strain
Strain uncoupling
Structural health monitoring
Temperature effect
Title Automatic uncoupling of massive dynamic strains induced by vehicle- and temperature-loads for monitoring of operating bridges
URI https://dx.doi.org/10.1016/j.ymssp.2021.108332
https://www.proquest.com/docview/2620963285
Volume 166
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