Acta Photonica Sinica, Volume. 54, Issue 4, 0406005(2025)

Vehicle-induced Modal Monitoring of Bridges Using Partially Distributed FBG Strain Sensor Arrays

Zhenhui DUAN1,2、*, Faxiang ZHANG1,2, Shaodong JIANG1,2, Zhihui SUN1,2, Zhaoying LIU1,2, and Yongxu SHEN1,2
Author Affiliations
  • 1Key Laboratory of Computing Power Network and Information Security,Ministry of Education,Shandong Computer Science Center(National Supercomputer Center in Jinan),Qilu University of Technology(Shandong Academy of Sciences),Jinan 250013,China
  • 2Shandong Provincial Key Laboratory of Computer Networks,Shandong Fundamental Research Center for Computer Science,Jinan 250014,China
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    References(30)

    [1] KALIZHANOVA A, KUNELBAYEV M, KOZBAKOVA A. Bridge vibration analysis using fiber-optic Bragg sensors with an inclined grid[J]. IEEE Instrumentation & Measurement Magazine, 27, 43-48(2024).

    [2] BAKHSHANDEH M. Bridge health monitoring: a review[J]. International Journal of Structural and Construction Engineering, 18, 57-70(2024).

    [3] GEETHA M N, SINCHANA V, PRIYA S P S et al. A review on IoT based bridge monitoring systems[J]. International Journal of Research in Engineering, Science and Management, 7, 37-41(2024).

    [4] LI J, WEN F, CHEN J et al. Experimental study of bridge expansion joint damage based on natural frequency[J]. Sensors, 23, 6437(2023).

    [5] KOHM M, STEMPNIEWSKI L, STARK A. Influence of vehicle traffic on modal-based bridge monitoring[J]. Journal of Civil Structural Health Monitoring, 13, 219-234(2023).

    [6] XU L, HUI Y, YANG Q et al. Modeling and modal analysis of suspension bridge based on continual formula method[J]. Mechanical Systems and Signal Processing, 162, 107855(2022).

    [7] GRIMMELSMAN K A, ZOLGHADRI N. Experimental evaluation of low-cost accelerometers for dynamic characterization of bridges[C], 145-152(2020).

    [8] XIONG C, LU H, ZHU J. Operational modal analysis of bridge structures with data from GNSS/accelerometer measurements[J]. Sensors, 17, 436(2017).

    [9] ZHANG Z, LIU S, WEI Y et al. Structural health monitoring for bridge crane based on low temperature-sensitivity FBG sensors[J]. Frontiers in Physics, 9, 678263(2021).

    [10] SAYANTAIN L, NANDIMI B, PALAS B et al. Optimum placement of long gauge FBG sensor in reinforced concrete bridge: a case study[J]. Journal of Physics Conference Series, 2090, 012162(2021).

    [11] TINGER W, GUOWEI L, SHENGGUI F et al. Recent progress of fiber-optic sensors for the structural health monitoring of civil infrastructure[J]. Sensors, 20, 201-224(2020).

    [12] JIAN Z, YONGDING T, CAIQIANG Y et al. Vibration and deformation monitoring of a long-span rigid-frame bridge with distributed long-gauge sensors[J]. Journal of Aerospace Engineering, 30, 101-130(2017).

    [13] VAN DER KOOI K, HOULT N A, LE H et al. Monitoring an in-service railway bridge with a distributed fiber optic strain sensing system[J]. Journal of Bridge Engineering, 23, 05018007(2018).

    [14] KOK-SING L, MUHAMMAD K A Z, ZHI-CHAO O et al. Vibration mode analysis for a suspension bridge by using low-frequency cantilever-based FBG accelerometer array[J]. IEEE Transactions on Instrumentation and Measurement, 70, 1-8(2021).

    [15] OSKOUI E A, TAYLOR T, ANSARI F. Reference-free dynamic distributed monitoring of damage in multispan bridges[J]. Journal of Structural Engineering, 147, 04020292(2021).

    [16] DIMITRIOS A, EDWIN P B R, STIJIN F et al. Vibration-based monitoring of an FRP footbridge with embedded fiber-Bragg gratings: influence of temperature vs. damage[J]. Composite Structures, 287, 115295-115295(2022).

    [17] LIANGLANG C, ALFREDO C, EMANUELE Z et al. Dynamic monitoring of a masonry arch rail bridge using a distributed fiber optic sensing system[J]. Journal of Civil Structural Health Monitoring, 14, 1075-1090(2024).

    [18] YANG Ming, XU Hongwei. Application of fiber Bragg grating sensing technology and physical model in bridge detection[J]. Results in Physics, 54, 107058(2023).

    [19] Qiuming NAN, LU Jiuling, RAO Zhisheng. Distributed strain measurement method of bridge based on weak FBG sensing array[J]. 3rd International Conference on Internet of Things and Smart City (IoTSC 2023)(2023).

    [20] YANG, JINGYU W, MOHAN W et al. Fast demodulation of fiber Bragg grating wavelength from low-resolution spectral measurements using Buneman frequency estimation[J]. Journal of Lightwave Technology, 38, 5142-5148(2020).

    [21] HAO X, YH L, JC D et al. Novel formula for determining bridge damping ratio from two wheels of a scanning vehicle by wavelet transform[J]. Mechanical Systems and Signal Processing, 208, 111026(2024).

    [22] JIANXIAO M, XUN S, HAO W et al. Identification of closely spaced modes of a long-span suspension bridge based on bayesian inference[J]. International Journal of Structural Stability and Dynamics, 23, 194-235(2023).

    [23] YANG B C, XU F Z, ZHAO Y et al. Complete ensemble empirical mode decomposition and wavelet algorithm denoising method for bridge monitoring signals[J]. Buildings, 14, 2056(2024).

    [24] HANGYU H, SUIER W, CHUNXIAO W et al. Research on stress detection technology for suspended permanent-magnet maglev track box girder based on FBG and GWO-VMD[J]. Railway Signaling & Communication Engineering, 20, 152-177(2023).

    [25] ANTONIO A, FRANCESCO M B, LORENZO B et al. Automated OMA through SSI-COV algorithm of a warren truss railway bridge exploiting free decay response[C], 514, 600-608(2024).

    [26] SHARIF N M, MOHAMMED A A, IYAD A D et al. Recent advances in grey wolf optimizer, its versions and applications: review[J]. IEEE Access, 1(2023).

    [27] URSZULA N, BEN D P, DIMITRIOS A et al. Identification of modal strains in concrete beams at sub-microstrain amplitude excitation using fibre Bragg grating sensors mounted on a strain-amplifying transducer[J]. Structural Health Monitoring, 20, 1221-1230(2021).

    [28] LIU P, HAN X, ZHANG W et al. An GWO-VMD-wavelet algorithm for PDH error signal noise reduction of FBG strain sensor[C], 12557, 1255702(2023).

    [29] MUDAHEMUKA E, MIYAGI M, SHIN R et al. Estimating bridge natural frequencies based on modal analysis of vehicle-bridge synchronized vibration data[J]. Sensors, 24, 1060(2024).

    [30] JIAN Xudong, XIA Ye, SUN Limin. An indirect method for bridge mode shapes identification based on wavelet analysis[J]. Structural Control & Health Monitoring, 27, 2630(2020).

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    Zhenhui DUAN, Faxiang ZHANG, Shaodong JIANG, Zhihui SUN, Zhaoying LIU, Yongxu SHEN. Vehicle-induced Modal Monitoring of Bridges Using Partially Distributed FBG Strain Sensor Arrays[J]. Acta Photonica Sinica, 2025, 54(4): 0406005

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    Paper Information

    Category: Fiber Optics and Optical Communications

    Received: Sep. 25, 2024

    Accepted: Nov. 27, 2024

    Published Online: May. 15, 2025

    The Author Email: Zhenhui DUAN (10431220503@stu.qlu.edu.cn)

    DOI:10.3788/gzxb20255404.0406005

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