Field testing of the route tracing method for fully dielectric optical cable

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The article presents a method of underground dielectric optical cable route tracing using a distributed acoustic sensing based on recording and analyzing of the phase-sensitive optical reflectometer response to vibration-acoustic effects in the proposed tracing area. The peculiarity of the method is the use of pulsed impact for approximate determination of the cable laying area and the use of an acoustic source to determine the direction and clarify the location of the tracing route. The study outlines tracing algorithm and recommendations for choosing acoustic impact parameters. In accordance with the method elaborated, field tests were carried out on the section of a fiber-optic communication line made using a fully-dielectric optical cable. In result of the experimental testing, the possibility to determine a cable route tracing location under conditions of electromagnetic and acoustic interference with an error of not more ±0.2 m was demonstrated.

作者简介

M. Dashkov

Povolzhskiy State University of Telecommunications and Informatics

编辑信件的主要联系方式.
Email: m.dashkov@psuti.ru

Head of Communication Lines and Measurements in Telecommunications Department, PhD in Technical Science

俄罗斯联邦, Samara

V. Gureev

Povolzhskiy State University of Telecommunications and Informatics

Email: v.gureev@psuti.ru

PhD Student of Communication Lines and Measurements in Telecommunications Department

俄罗斯联邦, Samara

S. Gavryushin

Povolzhskiy State University of Telecommunications and Informatics

Email: s.gavrushin@psuti.ru

Head of Laboratory of Communication Lines and Measurements in Telecommunications Department

俄罗斯联邦, Samara

A. Nizhgorodov

Povolzhskiy State University of Telecommunications and Informatics

Email: anton.socol2017@yandex.ru

PhD Student of Communication Lines and Measurements in Telecommunications Department

俄罗斯联邦, Samara

参考

  1. Andreev V.А. et al. Telecommunications Cabling Systems: Textbook for Universities: in 2 Vols. Vol. 2. Design, Installation and Maintenance. Ed by V.A. Andreev. Moscow: Goryachaya liniya-Telecom, 2010, 424 p. (In Russ.)
  2. Gorshkov B.G. et al. Scientific applications of distributed acoustic sensing: state-of-the-art review and perspective. Sensors, 2022, vol. 22, no. 3. URL: https://www.mdpi.com/1424-8220/22/3/1033 (accessed: 15.07.2024).
  3. Kharasov D.R. et al. Distributed acoustic sensing over 146 km using phase-sensitive optical time-domain reflectometer assisted by bidirectional distributed Raman amplifier. 2022 International Conference Laser Optics (ICLO): IEEE Proceedings, 2022. URL: https://ieeexplore.ieee.org/document/9840022/references#references (accessed: 15.07.2024).
  4. Marcon L., Galtarossa A., Palmieri L. High-frequency high-resolution distributed acoustic sensing by optical frequency domain reflectometry. Optics Express, 2019, vol. 27, no. 10, pp. 13923–13933. DOI: https://doi.org/10.1364/OE.27.013923
  5. Dakin J.P., Russell S.J. Distributed optical fiber sensing methods for localisation of disturbances and the position of optical fibre cables in the ground. 17th International Conference on Optical Fibre Sensors: Proceedings SPIE, 2005, vol. 5855, pp. 162–167. DOI: https://doi.org/10.1117/12.623641
  6. Liu H. et al. New methods for non-destructive underground fiber localization using distributed fiber optic sensing technology. 25th Opto-Electronics and Communications Conference (OECC): IEEE Proceedings, 2020, pp. 1–3. doi: 10.1109/OECC48412.2020.9273672
  7. Wang Y. et al. Localization of fiber cable with distributed acoustic sensing. 10th International Conference on Information, Communication and Networks (ICICN): IEEE Proceedings, 2022, pp. 473–478. doi: 10.1109/ICICN56848.2022.10006527
  8. Gubareva O.Yu. et al. Localization method for all-dielectric fiber-optic cable. Optical Technologies for Telecommunications 2021: Proceedings SPIE, 2022, vol. 12295, pp. 1229510-1–1229510-8. DOI: https://doi.org/10.1117/12.2631780
  9. Gureev V.O., Dashkov M.V., Shaban O.V. All-dielectric fiber-optic cable route search method. Optical Technologies for Telecommunications 2022: Proceedings SPIE, 2023, vol. 12743, pp. 1274313-1–1274313-7. DOI: https://doi.org/10.1117/12.2680877
  10. Dashkov M.V., Gureev V.O. Method for searching the route of a dielectric optical cable using a phase-sensitive reflectometer. Foton-ekspress, 2023, no 6 (190), pp. 477–478. doi: 10.24412/2308-6920-2023-6-477-478 (In Russ.)

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版权所有 © Dashkov M.V., Gureev V.O., Gavryushin S.А., Nizhgorodov A.O., 2025

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