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OVERVIEW OF PROMISING APPLICATIONS OF DISTRIBUTED ACOUSTIC SENSING
1 Institute of Earthquake Prediction Theory and Mathematical Geophysics, Russian Academy of Sciences
2 Schmidt Institute of Physics of the Earth of the Russian Academy of Sciences
Journal: Science and technological developments
Tome: 102
Number: 4
Year: 2023
Pages: 4-37
UDK: 550.34.038.4
DOI: 10.21455/std2023.4-1
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Kislov
V.V K.V. OVERVIEW OF PROMISING APPLICATIONS OF DISTRIBUTED ACOUSTIC SENSING
// . 2023. Т. 102. № 4. С. 4-37. DOI: 10.21455/std2023.4-1
@article{Kislov
V.VOVERVIEW2023,
author = "Kislov
V.V, K. V.",
title = "OVERVIEW OF PROMISING APPLICATIONS OF DISTRIBUTED ACOUSTIC SENSING
",
journal = "Science and technological developments",
year = 2023,
volume = "102",
number = "4",
pages = "4-37",
doi = "10.21455/std2023.4-1",
language = "English"
}
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Keywords: distributed acoustic sensing, DAS, volcanology, near-surface geophysics, seismic resistance of buildings and structures, marine geophysics, mining, tsunami early warning
Аnnotation: Distributed Acoustic Sensing (DAS) is the use of fiber optic cable as a line array of virtual seismic sensors. In this article we review some geophysical applications in which the use of DAS is most justified. The main focus is on the applications in which the use of DAS is promising specifically for Russia. The potential of fiber optic measurements to revolutionize traditional geophysical approaches is discussed. Some results obtained in different countries and published in scientific journals are presented. Areas covered include volcanology, near-surface studies, seismic resistance of buildings and structures, marine geophysics, mining, etc.
Bibliography: Alekseev, A.E., Cherkashnev, S.A., Fiber coherent reflectometry for geosciences, URL: http://geovers.com/base/files/gr16/presentation/pr_27_2016_Cherkashnev.pdf [Access date: 02.09.2023]. [in Russian].
Chugaev, A.V., Experience in using distributed fiber-optic acoustic sensors with co-spiral fiber for borehole seismic surveys, in: 19th scientific and practical conference and exhibition “Engineering and Ore Geophysics 2023”, St. Petersburg, 15–19 May 2023. Conference Materials, Moscow, EAGE GEOMODEL, 2023, pp. 624–631. [in Russian].
Chugaev, A.V., Kuznetsov, A.I., Evaluation of the capabilities of distributed acoustic sensing with a helical fiber for cross-well seismic survey, Instrum. Exp. Tech., 2023, vol. 66, iss. 5, pp. 868–874. https://doi.org/10.1134/S0020441223050081
Chugaev, A.V., Simikin, D.E., Tezikov, A.D., Quantitative assessment of the sensitivity of fiber-optic distributed sensors based on cross-well survey data, in: III All-Russian Scientific Conference with International Participation “Modern Methods of Seismic Hazard Assessment and Earthquake Prediction”, Moscow, 25–26 October 2023, Proceedings and program of the conference, eds. A.P. Kerzhaev, A.I. Filippova, Moscow, IEPT RAS, 2023, pp. 274–278. https://www.itpz-ran.ru/wp-content/uploads/2023/11/2023-ITPZ-Conference-Materials.pdf [in Russian].
Dashkov, M.V., Smirnov, A.S., Polarization reflectometry of optical fibers: Physical founda-tions, methods and applications (review article), Prikladnaya fotonika (Applied Photonics), 2018, vol. 5, no. 1–2, pp. 62–91. [in Russian]. http://doi.org/10.15593/2411-4367/2018.1-2.05
Gorshkov, B.G., Ilinskiy, D.A., Simikin, D.E., Taranov, M.A., Earthquake detection with a dis-tributed acoustic sensor (DAS) deployed in shallow water of the black sea, in: III All-Russian Scientific Conference with International Participation “Modern Methods of Seismic Hazard Assessment and Earthquake Prediction”, Moscow, 25–26 October 2023, Proceed-ings and program of the conference, eds. A.P. Kerzhaev, A.I. Filippova, Moscow, IEPT RAS, 2023, pp. 54–56. https://www.itpz-ran.ru/wp-content/uploads/2023/11/2023-ITPZ-Conference-Materials.pdf [in Russian].
Ilinskiy, D.A., Alekseev, A.E., Ganzha, O.Yu., Semikin, D.E., Ojha, M., Use of fiber optic communication lines with a phase-sensitive reflectometer for recording seismic signals, Seismic Instruments, 2021, vol. 57, iss. 3, pp. 231–248. https://doi.org/10.3103/S0747923921030051
Kislov, K.V., Gravirov, V.V., Early earthquake warning and seismic monitoring of individual objects, in: XVI All-Russian Scientific and Practical Conference “Problems of emergency situations forecasting”, 2017. Reports and speeches, Moscow, FKU Center “Antistikhia” of EMERCOM of Russia, 2017, pp. 82–88. [in Russian].
Kislov, K.V., Gravirov, V.V., How could we benefit from using fibre-optic distributed acoustic sensing (DAS)? in: II All-Russian Scientific Conference with International Participation “Modern methods of seismic hazard assessment and earthquake prediction”, Moscow, 29–30 September 2021. Theses of reports and conference program, ed. O.V. Selyutskaya, Mos-cow, IEPT RAS, 2021a, pp. 56–58. https://www.itpz-ran.ru/wp-content/uploads/2021/11/2021-ITPZ-Conference-Abstracts.pdf [in Russian].
Kislov, K.V., Gravirov, V.V., Rotational Seismology: Review of Achievements and Outlooks, Seismic Instruments, 2021b, vol. 57, iss. 2, pp. 187–202. https://doi.org/10.3103/S0747923921020262
Kislov, K.V., Gravirov, V.V., Distributed acoustic sensing: A new tool or a new paradigm, Seis-mic Instruments, 2022, vol. 58, iss. 5, pp. 485–508. https://doi.org/10.3103/S0747923922050085
Kugaenko, Y.A., Saltykov, V.A., Gorvatikov, A.V., Stepanova, M.Yu., Deep structure of the zone of Tolbachik fissure eruptions (Kamchatka, Klyuchevskoy volcano group): Evidence from a complex of geological and geophysical data, Izvestiya, Physics of the Solid Earth, 2018, vol. 54, iss. 3, pp. 444–465. https://doi.org/10.1134/S1069351318030059
Marchenkov, A.Yu., Vibration monitoring of civil engineering objects, in: Fundamental and ap-plied aspects of geology, geophysics and geoecology using modern information technolo-gies: Materials of the V International Scientific and Practical Conference, Maikop, Maikop State Technological University, 2019, pp. 34–35.
Nikitin, S.P., Kislov, K.V., Starovoit, Yu.O., Bengalskii, D.M., Spiridonov, E.P., Kharasov, D.R., Fomiryakov, E.A., Nanii, O.E., Treshchikov, V.N., Possibilities and prospects for the use of distributed fiber sensors in geophysics, Instrum. Exp. Tech., 2023, vol. 66, iss. 5, pp. 854–859. https://doi.org/10.1134/S0020441223050196
Set of Rules (Russian Federation) SP 14.13330.2018. Construction in seismic areas. Updated edition of SNiP II-7-81* (with Amendment No. 1), 2021. http://docs.cntd.ru/document/550565571 [in Russian].
Shneerson, M.B., Distributed acoustic seismic systems in VSP acquisitions, Ekspozitsiya Neft Gaz (Exposition Oil Gas), 2017, no. 1 (54), pp. 23–25. [in Russian].
Spiridonov, E.P., Nikitin, S.P., Kislov, K.V., Starovoit, Yu.O., Bengalskii, D.M., Nanii, O.E., Treshchikov, V.N., Preliminary results of the analysis of signals recorded by a distributed acoustic sensor within the framework of the international experiment Global DAS Month, in: III All-Russian Scientific Conference with International Participation “Modern Methods of Seismic Hazard Assessment and Earthquake Prediction”, Moscow, 25–26 October 2023, Proceedings and program of the conference, eds. A.P. Kerzhaev, A.I. Filippova, Moscow, IEPT RAS, 2023, pp. 254–258. https://www.itpz-ran.ru/wp-content/uploads/2023/11/2023-ITPZ-Conference-Materials.pdf [in Russian].
Chugaev, A.V., Experience in using distributed fiber-optic acoustic sensors with co-spiral fiber for borehole seismic surveys, in: 19th scientific and practical conference and exhibition “Engineering and Ore Geophysics 2023”, St. Petersburg, 15–19 May 2023. Conference Materials, Moscow, EAGE GEOMODEL, 2023, pp. 624–631. [in Russian].
Chugaev, A.V., Kuznetsov, A.I., Evaluation of the capabilities of distributed acoustic sensing with a helical fiber for cross-well seismic survey, Instrum. Exp. Tech., 2023, vol. 66, iss. 5, pp. 868–874. https://doi.org/10.1134/S0020441223050081
Chugaev, A.V., Simikin, D.E., Tezikov, A.D., Quantitative assessment of the sensitivity of fiber-optic distributed sensors based on cross-well survey data, in: III All-Russian Scientific Conference with International Participation “Modern Methods of Seismic Hazard Assessment and Earthquake Prediction”, Moscow, 25–26 October 2023, Proceedings and program of the conference, eds. A.P. Kerzhaev, A.I. Filippova, Moscow, IEPT RAS, 2023, pp. 274–278. https://www.itpz-ran.ru/wp-content/uploads/2023/11/2023-ITPZ-Conference-Materials.pdf [in Russian].
Dashkov, M.V., Smirnov, A.S., Polarization reflectometry of optical fibers: Physical founda-tions, methods and applications (review article), Prikladnaya fotonika (Applied Photonics), 2018, vol. 5, no. 1–2, pp. 62–91. [in Russian]. http://doi.org/10.15593/2411-4367/2018.1-2.05
Gorshkov, B.G., Ilinskiy, D.A., Simikin, D.E., Taranov, M.A., Earthquake detection with a dis-tributed acoustic sensor (DAS) deployed in shallow water of the black sea, in: III All-Russian Scientific Conference with International Participation “Modern Methods of Seismic Hazard Assessment and Earthquake Prediction”, Moscow, 25–26 October 2023, Proceed-ings and program of the conference, eds. A.P. Kerzhaev, A.I. Filippova, Moscow, IEPT RAS, 2023, pp. 54–56. https://www.itpz-ran.ru/wp-content/uploads/2023/11/2023-ITPZ-Conference-Materials.pdf [in Russian].
Ilinskiy, D.A., Alekseev, A.E., Ganzha, O.Yu., Semikin, D.E., Ojha, M., Use of fiber optic communication lines with a phase-sensitive reflectometer for recording seismic signals, Seismic Instruments, 2021, vol. 57, iss. 3, pp. 231–248. https://doi.org/10.3103/S0747923921030051
Kislov, K.V., Gravirov, V.V., Early earthquake warning and seismic monitoring of individual objects, in: XVI All-Russian Scientific and Practical Conference “Problems of emergency situations forecasting”, 2017. Reports and speeches, Moscow, FKU Center “Antistikhia” of EMERCOM of Russia, 2017, pp. 82–88. [in Russian].
Kislov, K.V., Gravirov, V.V., How could we benefit from using fibre-optic distributed acoustic sensing (DAS)? in: II All-Russian Scientific Conference with International Participation “Modern methods of seismic hazard assessment and earthquake prediction”, Moscow, 29–30 September 2021. Theses of reports and conference program, ed. O.V. Selyutskaya, Mos-cow, IEPT RAS, 2021a, pp. 56–58. https://www.itpz-ran.ru/wp-content/uploads/2021/11/2021-ITPZ-Conference-Abstracts.pdf [in Russian].
Kislov, K.V., Gravirov, V.V., Rotational Seismology: Review of Achievements and Outlooks, Seismic Instruments, 2021b, vol. 57, iss. 2, pp. 187–202. https://doi.org/10.3103/S0747923921020262
Kislov, K.V., Gravirov, V.V., Distributed acoustic sensing: A new tool or a new paradigm, Seis-mic Instruments, 2022, vol. 58, iss. 5, pp. 485–508. https://doi.org/10.3103/S0747923922050085
Kugaenko, Y.A., Saltykov, V.A., Gorvatikov, A.V., Stepanova, M.Yu., Deep structure of the zone of Tolbachik fissure eruptions (Kamchatka, Klyuchevskoy volcano group): Evidence from a complex of geological and geophysical data, Izvestiya, Physics of the Solid Earth, 2018, vol. 54, iss. 3, pp. 444–465. https://doi.org/10.1134/S1069351318030059
Marchenkov, A.Yu., Vibration monitoring of civil engineering objects, in: Fundamental and ap-plied aspects of geology, geophysics and geoecology using modern information technolo-gies: Materials of the V International Scientific and Practical Conference, Maikop, Maikop State Technological University, 2019, pp. 34–35.
Nikitin, S.P., Kislov, K.V., Starovoit, Yu.O., Bengalskii, D.M., Spiridonov, E.P., Kharasov, D.R., Fomiryakov, E.A., Nanii, O.E., Treshchikov, V.N., Possibilities and prospects for the use of distributed fiber sensors in geophysics, Instrum. Exp. Tech., 2023, vol. 66, iss. 5, pp. 854–859. https://doi.org/10.1134/S0020441223050196
Set of Rules (Russian Federation) SP 14.13330.2018. Construction in seismic areas. Updated edition of SNiP II-7-81* (with Amendment No. 1), 2021. http://docs.cntd.ru/document/550565571 [in Russian].
Shneerson, M.B., Distributed acoustic seismic systems in VSP acquisitions, Ekspozitsiya Neft Gaz (Exposition Oil Gas), 2017, no. 1 (54), pp. 23–25. [in Russian].
Spiridonov, E.P., Nikitin, S.P., Kislov, K.V., Starovoit, Yu.O., Bengalskii, D.M., Nanii, O.E., Treshchikov, V.N., Preliminary results of the analysis of signals recorded by a distributed acoustic sensor within the framework of the international experiment Global DAS Month, in: III All-Russian Scientific Conference with International Participation “Modern Methods of Seismic Hazard Assessment and Earthquake Prediction”, Moscow, 25–26 October 2023, Proceedings and program of the conference, eds. A.P. Kerzhaev, A.I. Filippova, Moscow, IEPT RAS, 2023, pp. 254–258. https://www.itpz-ran.ru/wp-content/uploads/2023/11/2023-ITPZ-Conference-Materials.pdf [in Russian].
