Датчики контроля состояния инженерных и строительных конструкций на основе оптических волноводных структур

Authors

  • Igor' A. Goncharenko State Educational Establishment «Institute for Command Engineers» of the Ministry of Emergency Situations of the Republic of Belarus; 220118, Belarus, Minsk, ul. Mashinostroiteley, 25 https://orcid.org/0000-0002-8063-8068
  • Vitaliy N. Ryabtsev State Educational Establishment «Institute for Command Engineers» of the Ministry of Emergency Situations of the Republic of Belarus; 220118, Belarus, Minsk, ul. Mashinostroiteley, 25

Abstract

In the paper we performed the analysis of the structures of optical fiber sensors designed to control the state of engineering and building constructions, considered the probable means of increasing their efficiency. The basic physical effects, which are used for measurement of deformation and stresses of controlled structures, are reviewed. The structure and operation principles of distributed vectorial sensor of bends and stresses on the base of belt shape microstructured fiber with three cores are proposed.

Author Biography

Igor' A. Goncharenko, State Educational Establishment «Institute for Command Engineers» of the Ministry of Emergency Situations of the Republic of Belarus; 220118, Belarus, Minsk, ul. Mashinostroiteley, 25

Grand PhD in Physical and Mathematical Sciences, Professor

References

Гуляев, Ю.В. Волоконно-оптические технологии, устройства, датчики и системы / Ю.В. Гуляев, С.А. Никитов, В.Т. Потапов, Ю.К. Чаморовский // «Фотон-экспресс».– 2005. – № 6. – С. 114-127.

Гармаш, В.Б. Возможности, задачи и перспективы волоконно-оптических измерительных систем в современном приборостроении / В.Б. Гармаш, Ф.А. Егоров, Л.Н. Коломиец, А.П. Неугодников, В.И Поспелов // «Фотон-экспресс». – 2005. – № 6. – С. 128-140.

Connolly, C. Structural monitoring with fibre optics / C. Connolly // Europhotonics. – 2009. – No. 2-3. – P. 16-18.

Inaudi, D. Fiber optic sensors for structural control / D. Inaudi, A. del Grosso // Proceedings of the 14th World Conference on Earthquake Engineering. – October 12-17, 2008. – Beijing, China. – Paper No. S 25-013.

Соколов, А.Н. Волоконно-оптические датчики и системы / А.Н. Соколов, В.А. Яцеев // Lightwave Russian Edition. – 2006. – № 4 .– С. 44-46.

Chen, G. Simultaneous strain and temperature measurements with fiber Bragg grating written in novel Hi–Bi optical fiber / G. Chen, L. Liu, H. Jia, J. Yu, L. Xu, W. Wang // IEEE Photonics Technology Letters. – 2004. –Vol. 16, № 1. – P. 221-223.

Sheng, H.–J. A lateral pressure sensor using a fiber Bragg grating / H.–J. Sheng, M.–Y. Fu, T.–C. Chen, W.–F. Liu, S.–S. Bor // IEEE Photonics Technology Letters. – 2004. – Vol. 16, № 4. – P. 1146-1148.

Madhav, K.V. Spectrum estimation by wavelength shift time stamping in a fiber Bragg grating sensor / K.V. Madhav, S. Asokan // IEEE Photonics Technology Letters. – 2004. – Vol. 16, № 5. – P. 1355-1357.

Goncharenko, I. Optical fibre sensors for structural monitoring / I. Goncharenko // Proceedings of Humboldt-Kolleg «Philosophy of Science», September 8–11, 2010. – Odessa, Ukraine. – P. 64-66.

Hill, K.O. Photosensitivity in optical fibers / K.O. Hill, B. Malo, F. Bilodeau, D.C. Johnson // Annual Review of Material Science. – 1993. – Vol. 23. – P. 125-157.

Morey, W.W. Photoinduced Bragg gratings in optical fibers / W.W. Morey, G.A. Ball, G. Meltz // Optics & Photonics News. – 1994. – Vol. 5. – P. 8-14.

Allsop, T. Spectral characteristics of tapered LPG device as a sensing element for refractive index and temperature / T. Allsop, F. Floreani, K.P. Jedrzejewski, P.V.S. Marques, R. Romero, D.J. Webb, I. Bennion // J. Lightwave Technology. – 2006. – Vol. 24, № 2. – P. 870-878.

Удд, Э. Волоконно-оптические датчики. Вводный курс для инженеров и научных работников / Э. Удд. // Москва: Техносфера, 2008 – 520 с.

Glisic, B. Monitoring a subterranean structure with the SOFO® system / B. Glisic, M. Badoux, J.P. Jaccoud, D. Inaudi // Proceedings of the 1st International Conference Long Road and Rail Tunnels. – 2000. – Basel, Switzerland. – P. 127-136.

Sumitro, S. Long-gage optical fiber sensors monitoring on deteriorated structure deformational properties / S. Sumitro, Y. Okada, K. Saitoh, S. Takanashi, D. Inaudi // Proceedings of the 1st International conference on structural health monitoring and intelligent infrastructure. – November 13-15, 2003. – Tokyo, Japan. – P. 49-52.

Мамедов, А.М. Одноволоконные распределенные волоконно-оптические датчики физических величин и полей / А.М. Мамедов, В.Т. Потапов, Т.В. Потапов, Е.К. Смуреев // «Фотон-экспресс». – 2005. – № 6. – С. 141-151.

Farahani, M.A. Spontaneous Raman scattering in optical fibers with modulated probe light for distributed temperature Raman remote sensing / M.A. Farahani, T. Gogolla // J. Lightwave Technology. – 1999. – Vol. 17, № 8. – P. 1379-1391.

Park, J. Raman based distributed temperature sensor with simplex coding and link optimization / J. Park, G. Bolognini, D. Lee, P. Kim, P. Cho, F.D. Pasquale, N. Park // IEEE Photonics Technology Letters. – 2006. – Vol. 18, № 17. – P. 1879-1881.

Inaudi, D. Long-range pipeline monitoring by distributed fiber optic sensors / D. Inaudi, B. Glisic // ASME Journal of Pressure Vessel Technology. – 2010. – Vol. 132, № 1. – P. 011701–01 – 011701–09.

Bernini, R. Accuracy enhancement in Brillouin distributed fiber-optic temperature sensors using signal processing techniques / R. Bernini, A. Minardo, L. Zeni // IEEE Photonics Technology Letters. – 2004. – Vol. 16, №4. – P. 1143-1145.

Dakin, J.P. Distributed optical fiber Raman temperature sensor using a semiconductor light source and detector / J.P. Dakin, D. Pratt, G.W. Bibby // Electronics Letters. – 1985. – Vol. 21. – P. 569-570.

Hotate, K. Distributed fiber Brillouin strain sensing with 1-cm spatial resolution by correlation-based continuous-wave technique / K. Hotate, M. Tanaka // IEEE Photonics Technology Letters. – 2002. – Vol. 14. – P. 179-181.

Gogolla, T. Distributed beat length measurement in single-mode optical fibers using stimulated Brillouin-scattering and frequency-domain analysis / T. Gogolla, K. Krebber // J. Lightwave Technology. – 2000. – Vol.18, No. 3. – P. 320-328.

Bernini, R. Frequency-domain approach to distributed fiber-optic Brillouin sensing / R. Bernini, L. Grosso, A. Minardo, F. Soldovieri, L. Zeni // Optics Letters. – 2002. – Vol. 27, No. 5. – P. 288-290.

Rothwell, J.H. Photonic sensing based on variation of propagation properties of photonic crystal fibres / J.H. Rothwell, D.A. Flavin, W.N. MacPherson, J.D.C. Jones, J.C. Knight, P.St.J. Russell // Optics Express. – 2006. – Vol. 14, № 25. – P. 12445-12450.

Ju, J. Temperature sensitivity of a two-mode photonic crystal fiber interferometric sensor / J. Ju, Z. Wang, W. Jin, M.S. Demokan // IEEE Photonics Technology Letters. – 2006. – Vol. 18, № 20. – P. 2168-2170.

Ju, J. Two-mode operation in highly birefringent photonic crystal fiber / J. Ju, W. Jin, M.S. Demokan // IEEE Photon. Technol. Letters. – 2004. – Vol. 16, No. 11. – P. 2472-2474.

Goncharenko, I.A. Analysis of propagation of orthogonally polarized supermode in straight and curved multicore microstructured fibres / I.A. Goncharenko, M. Marciniak // J. Telecommunications and Information Technology. – 2007. – No. 4. – P. 63-69.

Mickelson, A. Backscatter readout from serial microbending sensors / A. Mickelson, O. Klevhus, M. Eriksrud // J. Lightwave Technology. – 1984. – Vol. 2, Issue 5. – P. 700-709.

Giles, C.R. Lightwave applications of fiber Bragg gratings / C.R. Giles // J. Lightwave Technology. – 1997. – Vol. 15, № 8. – P. 1391-1404.

Гончаренко, И.А. Волоконно-оптический векторный датчик изгиба / И.А. Гончаренко, В.Б. Залесский, А.И. Конойко, А.Г. Иваницкий, В.Н. Рябцев // Патент Республики Беларусь на полезную модель № 8715. Заявлено 13.04.2012 г. Опубликовано 31.10.2012 г.

Гончаренко, И.А. Излучение и потери на изгибе в микроструктурированных волокнах с несколькими сердцевинами / Гончаренко И.А. // Вестник Фонда фундаментальных исследований. – 2006. – № 3. – С. 91-98.

Goncharenko, I.A. Analysis of propagation of orthogonally polarized supermode in straight and curved multicore microstructured fibres / I.A. Goncharenko, M. Marciniak // J. Telecommunications and Information Technology. – 2007. – No. 4. – P. 63-69.

Goncharenko, I. Optimizing the structure of vector bend and strain sensor on the base of three-core microstructured fiber / I. Goncharenko, M. Marciniak, A. Konojko, V. Reabtsev // J. Telecommunications and Information Technology. – 2012, – No. 4. – P. 63-69.

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Published

2013-09-16

How to Cite

Goncharenko И. and Ryabtsev В. (2013) “Датчики контроля состояния инженерных и строительных конструкций на основе оптических волноводных структур”, Vestnik of the Institute for Command Engineers of the MES of the Republic of Belarus, 18(2), pp. 118–132. Available at: https://journals.ucp.by/index.php/vice/article/view/445 (Accessed: 22 December 2024).

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