A coupled bend-twist deformation monitoring method based on inclination measurement and rational cubic spline fitting

A coupled bend-twist deformation monitoring method based on inclination measurement and rational cubic spline fitting

•A novel parametric curve fitting function with an adjustable parameter k is introduced.•A coupled bend-twist deformation monitoring algorithm based on two-time interpolation fitting and one-time coordinate transformation is developed.•A prototype system that can eliminate the requirement of externa...

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Veröffentlicht in:Mechanical systems and signal processing 2021-01, Vol.147, p.107084, Article 107084
Hauptverfasser: Yu, Haoyu, Chen, Xiaolong, Ren, Mengyuan, Yin, Likang, Wu, Qian, Zhan, Jinsong, Liu, Qiang
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Coordinate transformations
Coupled bend-twist deformation
Deflection monitoring
Deformation effects
Internet of Things
Interpolation
Monitoring
Parameters
Parametric curve fitting
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container_start_page 107084
container_title Mechanical systems and signal processing
container_volume 147
creator Yu, Haoyu
Chen, Xiaolong
Ren, Mengyuan
Yin, Likang
Wu, Qian
Zhan, Jinsong
Liu, Qiang
description •A novel parametric curve fitting function with an adjustable parameter k is introduced.•A coupled bend-twist deformation monitoring algorithm based on two-time interpolation fitting and one-time coordinate transformation is developed.•A prototype system that can eliminate the requirement of external excitation and a large number of sensors, but keeps high robustness and the potential in full scene applications of deformation monitoring is proposed. Presented in this paper is a method for coupled bend-twist deformation monitoring of large-scale structures. A novel rational cubic spline fitting function with an adjustable parameter k is introduced. A coupled bend-twist deformation monitoring algorithm based on two-time interpolation fitting and one-time coordinate transformation is developed. A prototype monitoring system with several sensing and sink nodes, following the architecture of the IoT techniques, is constructed. The system together with the fitting algorithm can eliminate the requirement of external excitation and a large number of sensors, but keeps high robustness and the potential in full scene applications. Experimental testing has shown a 5% or better accuracy of the system under seven measurement inputs, which is consistent with theoretical simulation. The value law of the adjustment parameter k is revealed by both theoretical analysis and experiments. The effectiveness of the proposed method for coupled bend-twist deformation monitoring of large-scale structures on industrial sites has been proven by application testing. This study provides a potential solution for full scene monitoring of structures’ deformation.
doi_str_mv 10.1016/j.ymssp.2020.107084
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Presented in this paper is a method for coupled bend-twist deformation monitoring of large-scale structures. A novel rational cubic spline fitting function with an adjustable parameter k is introduced. A coupled bend-twist deformation monitoring algorithm based on two-time interpolation fitting and one-time coordinate transformation is developed. A prototype monitoring system with several sensing and sink nodes, following the architecture of the IoT techniques, is constructed. The system together with the fitting algorithm can eliminate the requirement of external excitation and a large number of sensors, but keeps high robustness and the potential in full scene applications. Experimental testing has shown a 5% or better accuracy of the system under seven measurement inputs, which is consistent with theoretical simulation. The value law of the adjustment parameter k is revealed by both theoretical analysis and experiments. The effectiveness of the proposed method for coupled bend-twist deformation monitoring of large-scale structures on industrial sites has been proven by application testing. 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Presented in this paper is a method for coupled bend-twist deformation monitoring of large-scale structures. A novel rational cubic spline fitting function with an adjustable parameter k is introduced. A coupled bend-twist deformation monitoring algorithm based on two-time interpolation fitting and one-time coordinate transformation is developed. A prototype monitoring system with several sensing and sink nodes, following the architecture of the IoT techniques, is constructed. The system together with the fitting algorithm can eliminate the requirement of external excitation and a large number of sensors, but keeps high robustness and the potential in full scene applications. Experimental testing has shown a 5% or better accuracy of the system under seven measurement inputs, which is consistent with theoretical simulation. The value law of the adjustment parameter k is revealed by both theoretical analysis and experiments. 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Presented in this paper is a method for coupled bend-twist deformation monitoring of large-scale structures. A novel rational cubic spline fitting function with an adjustable parameter k is introduced. A coupled bend-twist deformation monitoring algorithm based on two-time interpolation fitting and one-time coordinate transformation is developed. A prototype monitoring system with several sensing and sink nodes, following the architecture of the IoT techniques, is constructed. The system together with the fitting algorithm can eliminate the requirement of external excitation and a large number of sensors, but keeps high robustness and the potential in full scene applications. Experimental testing has shown a 5% or better accuracy of the system under seven measurement inputs, which is consistent with theoretical simulation. The value law of the adjustment parameter k is revealed by both theoretical analysis and experiments. 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subjects Algorithms
Coordinate transformations
Coupled bend-twist deformation
Deflection monitoring
Deformation effects
Internet of Things
Interpolation
Monitoring
Parameters
Parametric curve fitting
title A coupled bend-twist deformation monitoring method based on inclination measurement and rational cubic spline fitting
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