SEISMIC DOMAIN IDENTIFICATION ALGORITHM USING FUZZY LOGIC METHODS WITH COMBINED GEOLOGICAL AND GEOMORPHOLOGICAL DATA FOR THE CASE OF SAKHALIN ISLAND

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A. Sobisevich

Schmidt Institute of Physics of the Earth of the Russian Academy of Sciences

Email: alex@ifz.ru
ORCID iD: 0000-0003-4656-6694

G. Steblov

Schmidt Institute of Physics of the Earth of the Russian Academy of Sciences; Institute of Earthquake Prediction Theory and Mathematical Geophysics of the Russian Academy of Sciences

Email: alex@ifz.ru
ORCID iD: 0000-0002-9157-8099

A. Agibalov

Lomonosov Moscow State University; Schmidt Institute of the Physics of the Earth Russian Academy of Sciencies

Email: alex@ifz.ru
ORCID iD: 0000-0001-6742-3524

I. Aleshin

Schmidt Institute of the Physics of the Earth Russian Academy of Sciencies; Geophysical Center of the Russian Academy of Sciences

Email: ima@ifz.ru
ORCID iD: 0000-0001-7489-2951
Scopus Author ID: 7003631286
ResearcherId: L-5906-2017

G. Balashov

Schmidt Institute of the Physics of the Earth Russian Academy of Sciencies

Email: alex@ifz.ru
ORCID iD: 0009-0002-4474-4899

A. Kondratov

Schmidt Institute of the Physics of the Earth Russian Academy of Sciencies

Email: alex@ifz.ru
ORCID iD: 0009-0003-5889-9477

V. Makeev

Sergeev Institute of Environmental Geoscience of the Russian Academy of Sciences

Email: alex@ifz.ru
ORCID iD: 0000-0003-1037-6821

V. Perederin

Schmidt Institute of the Physics of the Earth Russian Academy of Sciencies

Email: alex@ifz.ru
ORCID iD: 0000-0003-4626-8662

F. Perederin

Schmidt Institute of the Physics of the Earth Russian Academy of Sciencies

Email: alex@ifz.ru
ORCID iD: 0000-0001-7670-3851

A. Sentsov

Schmidt Institute of the Physics of the Earth Russian Academy of Sciencies

Author for correspondence.
Email: alex@ifz.ru
ORCID iD: 0000-0002-6182-114X

K. Kholodkov

Schmidt Institute of the Physics of the Earth Russian Academy of Sciencies

Email: keir@ifz.ru
ORCID iD: 0000-0003-0324-9795

References

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  2. Delone, B. N. (1934), On the emptiness of the sphere, Izvestiya Akademii Nauk SSSR, (4), 793–800 (in Russian).
  3. Dzeboev, B. A., A. D. Gvishiani, I. O. Belov, V. N. Tatarinov, S. M. Agayan, and Yu. V. Barykina (2019), Strong-EarthquakeProne Areas Recognition Based on an Algorithm with a Single Pure Training Class: I. Altai-Sayan-Baikal Region, M ≥ 6.0, Physics of the Earth, (4), 33–47, https://doi.org/10.31857/S0002-33372019433-47 (in Russian).
  4. Gridchina, M. S., G. M. Steblov, I. S. Vladimirova, and A. V. Basmanov (2023), Investigation of the Lithospheric Plate Boundary Zone within Sakhalin Island Based on Satellite Geodesy Data, Geophysical Research, 24(4), 81–96, https://doi.org/10.21455/gr2023.4-5 (in Russian).
  5. Gvishiani, A. D., B. A. Dzeboev, S. M. Agayan, I. O. Belov, and J. I. Nikolova (2021), Fuzzy Sets of High Seismicity Intersections of Morphostructural Lineaments in the Caucasus and in the Altai-Sayan-Baikal Region, Journal of Volcanology and Seismology, 15(2), 73–79, https://doi.org/10.1134/s0742046321020032.
  6. Kostenko, N. P. (1999), Geomorphology, 379 pp., Moscow University, Moscow (in Russian).
  7. Kulchinsky, R. G., E. P. Kharin, I. P. Shestopalov, A. D. Gvishiani, S. M. Agayan, and S. R. Bogoutdinov (2010), Fuzzy logic methods for geomagnetic events detections and analysis, Russian Journal of Earth Sciences, 11, RE4003, https://doi.org/10.2205/2009ES000371 (in Russian).
  8. Lehner, B., and G. Grill (2013), Global river hydrography and network routing: baseline data and new approaches to study the world’s large river systems, Hydrological Processes, 27(15), 2171–2186, https://doi.org/10.1002/hyp.9740.
  9. Nechaev, Yu. V. (2010), Lineaments and tectonic fragmentation: remote sensing of the internal structure of the lithosphere, 215 pp., IPE RAS, Moscow (in Russian).
  10. Oskorbin, L. S. (1997), Seismogenic zones of Sakhalin and adjacent regions, Problems of seismic hazard of the Far Eastern region, pp. 157–178 (in Russian).
  11. RB-019-18 (2018), Safety Guide to the Use of Atomic Energy “Assessment of the Initial Seismicity of the Area and Site of a Nuclear Energy Use Object During Engineering Surveys and Research” (in Russian).
  12. Rebetsky, Yu. L., L. A. Sim, and A. V. Marinin (2017), From slip surfaces to tectonic stresses. Methods and algorithms, 234 pp., GEOS, Moscow (in Russian).
  13. Steblov, G. M., A. O. Agibalov, V. M. Makeev, V. P. Perederin, F. V. Perederin, and A. A. Sentsov (2023), On the problem of estimation of the maximum possible earthquake magnitudes on Sakhalin island by various methods, Problems of Engineering Seismology, 50(4), 25–35, https://doi.org/10.21455/vis2023.4-2 (in Russian).
  14. Ulomov, V. I. (1987), Lattice model of focal seismicity and forecast of seismic hazard, Uzbekistan Geological Journal, (6), 20–25 (in Russian).
  15. United States Geological Survey (2023), Search Data Catalog, https://lpdaac.usgs.gov/product_search/?collections=MEaSUREs+SRTM&status=Operational&view=list, (date of access: 01.01.2023).
  16. Zelenin, E., D. Bachmanov, S. Garipova, V. Trifonov, and A. Kozhurin (2022), The Active Faults of Eurasia Database (AFEAD): the ontology and design behind the continental-scale dataset, Earth System Science Data, 14(10), 4489–4503, https://doi.org/10.5194/essd-14-4489-2022.
  17. Zimmermann, H.-J. (2001), Fuzzy Set Theory - and Its Applications, 435 pp., Springer Netherlands, https://doi.org/10.1007/978-94-010-0646-0.

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Copyright (c) 2024 Sobisevich A., Steblov G., Agibalov A., Aleshin I., Balashov G., Kondratov A., Makeev V., Perederin V., Perederin F., Sentsov A., Kholodkov K.

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