• Journal of Applied Optics
  • Vol. 45, Issue 4, 812 (2024)
Lishan MA1, Yu LIU1, Fei SHEN1, Wei HE1..., Shibin LIU1 and Baoan YE2,*|Show fewer author(s)
Author Affiliations
  • 1Guoluo Power Supply Company, State Grid Qinghai Electric Power Company, Guoluo 813500, China
  • 2Wuhan Kangpu Evergreen Software Technology Co.,Ltd., Wuhan 430000, China
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    DOI: 10.5768/JAO202445.0403007 Cite this Article
    Lishan MA, Yu LIU, Fei SHEN, Wei HE, Shibin LIU, Baoan YE. Low-noise ice galloping monitoring of OPGW lines based on reference sensors[J]. Journal of Applied Optics, 2024, 45(4): 812 Copy Citation Text show less
    References

    [1] Xuelian XU, Zhongquan HAN, Fake WANG et al. Analysis on variation characteristics of wind speed, gale and sandstorm days in Qaidam Basin under climate warming. Journal of Qinghai Environment, 31, 26-31(2021).

    [2] Fuqi MA, Bo WANG, Xuzhu DONG et al. Receptive field vision edge intelligent recognition for ice thickness identification of transmission line. Power System Technology, 45, 2161-2169(2021).

    [3] Xingliang JIANG, Zhijin ZHANG, Qin HU et al. Thinkings on the restrike of ice and snow disaster to the power grid. High Voltage Engineering, 44, 463-469(2018).

    [4] K XIE, C ZHANG, Q LI et al. Tracking galloping profile of transmission lines using wireless inertial measurement units. Journal of Computer and Communications, 3, 220-228(2015).

    [5] K J ZHU, B LIU, H J NIU et al. Statistical analysis and research on galloping characteristics and damage for iced conductors of transmission lines in China, 1-5(2010).

    [6] W FAN, S H ZHANG, W D ZHU et al. An efficient dynamic formulation for the vibration analysis of a multi-span power transmission line excited by a moving deicing robot. Applied Mathematical Modelling, 103, 619-635(2022).

    [7] X FU, H N LI, G LI et al. Failure analysis of a transmission line considering the joint probability distribution of wind speed and rain intensity. Engineering Structures, 233, 111913(2021).

    [8] Jianjian WANG, Yongqian LI. Progress on distributed optical fiber sensing technology in OPGW monitoring. Study on Optical Communications, 25(2018).

    [9] Q Z YAN, C M ZHOU, X B FENG et al. Galloping vibration monitoring of overhead transmission lines by chirped FBG array. Photonic Sensors, 12, 220310(2022).

    [10] A Q LYU, Y Q LI, J LI. Research on strain and temperature measurement of OPGW based on BOTDR, 90441H(2013).

    [11] Peng FAN, Haitao WANG, Xuefeng ZHANG et al. Experimental study of OPGW strain based on BOTDR. Optical Communication Technology, 39, 60-62(2015).

    [12] Zhaoyu QIN, Weixin LIU, Zhezhe PAN et al. Optical Brillouin distributed ice-coating identification technology on transmission line. Opto-Electronic Engineering, 43, 6-11(2016).

    [13] F L LIU, L R GUO, Y S DENG et al. Application of fiber Bragg grating device in icing monitoring system of transmission lines. Applied Mechanics and Materials, 543/544/545/546/547, 1030-1034(2014).

    [14] Lei WANG, Min CAO, Shibin LIANG et al. Study on the fiber Bragg grating online monitor technology applied in icing state monitoring of transmission lines. Insulators and Surge Arresters, 21-24(2014).

    [15] Kai XIE, Hongying ZHANG, Yanshuang ZHAO et al. Structural health monitoring of power transmission system based on optical fiber sensor under transmission line galloping. Laser & Optoelectronics Progress, 55, 070606(2018).

    [16] G M MA, C G LI, J JIANG et al. A novel optical load cell used in icing monitoring on overhead transmission lines. Cold Regions Science and Technology, 71, 67-72(2012).

    [17] M Y PLOTNIKOV, A V VOLKOV. Adaptive phase noise cancellation technique for fiber-optic interferometric sensors. Journal of Lightwave Technology, 39, 4853-4860(2021).

    [18] Y F CAI, Z H YU, D L MO et al. Noise reduction with adaptive filtering scheme on interferometric fiber optic hydrophone. Optik, 211, 164648(2020).

    [19] Z H LUO, S DING, C TAN et al. Low-frequency fiber optic hydrophone based on ultra-weak fiber Bragg grating. IEEE Sensors Journal, 23, 11635-11641(2023).

    [20] Y D PANG, H J LIU, C M ZHOU et al. Pretreatment of ultra-weak fiber Bragg grating hydrophone array based on cubic spline interpolation using intensity compensation. Sensors, 22, 6814(2022).

    [21] J ADLER, I PARMRYD. Quantifying colocalization by correlation: the Pearson correlation coefficient is superior to the Mander’s overlap coefficient. Cytometry Part A, 77, 733-742(2010).

    Lishan MA, Yu LIU, Fei SHEN, Wei HE, Shibin LIU, Baoan YE. Low-noise ice galloping monitoring of OPGW lines based on reference sensors[J]. Journal of Applied Optics, 2024, 45(4): 812
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