Analysis of Radar Interferometry Results on the Deposit Territory
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Keywords

monitoring
deformation
leveling
remote sensing of the earth
radar interferometry
subsidence of the earth's surface
displacement map
profile lines
interferometric analysis.

How to Cite

Orynbassarova, E., Akhmetov, R., Yerzhankyzy, A., Makhmetova, G., & Kamza, A. (2024). Analysis of Radar Interferometry Results on the Deposit Territory. Journal of Basic & Applied Sciences, 20, 81–86. https://doi.org/10.29169/1927-5129.2024.20.07

Abstract

For effective and safe development of mining deposits, it is necessary to study the impact of natural and anthropogenic factors on the development of deformation processes, which provides an opportunity to regulate their impact on the rock mass, earth surface and engineering structures. The size of the deposit, geology and production volumes, affects the area of deformation, which can spread over huge areas. Accordingly, regional deformation monitoring is required for such fields. In order to provide high detail coverage of the area, traditional ground-based methods are impractical and costly. More timely and cost-effective for monitoring deformation of large territories is the use of differential radar interferometry.

The results of high-precision geodetic measurements for the period 2019-2021 revealed that more observation points have significant negative values. This indicates a stable process of subsidence of the earth, predominantly. Analysis and interpretation of the obtained results of geodynamic monitoring (high-precision leveling, radar interferometry), allowed to determine that the condition for the formation of vertical and horizontal deformations of the earth's surface is a natural-technogenic factor.

https://doi.org/10.29169/1927-5129.2024.20.07
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References

Nurpeisova MB, Rysbekov KB, Zhardaev MK. Innovative methods for conducting a complex Diptych at geodynamic sites [Text] // M.B. Nurpeisova, K.B. Rysbekov, M.K. Zhardaev; : Almaty: KazNITU. 2015. – P. 265.(In Russian)

Kuldeev EI, Rysbekov KB, Donenbaeva NS, Militenko NA. Modern methods of geotechnical-effective ensuring industrial safety in mines. Eurasian Mining 2021: 36(2), 18-21, (In Russian). https://doi.org/10.17580/em.2021.02.04

Lyskov IA, Musikhin VV, KashnikovYu.A. Monitoring of deformation processes of the earth's surface using radar interferometry methods. – Subsoil use, 2007.(In Russian)

Kerlander JK, McDonough RN. Synthetic aperture radar: systems and signal processing. – New York: John Wiley & Sons, Inc., 1991.

Rhys VG. Physical principles of remote sensing / Cambridge University Press. – Cambridge, 2001.

Orynbasarova E, Kenesbaeva A. Possibilities of using data from the new Sentinel-1 satellite // Bulletin of KazGASA. – 2018. –№2(68). -P.168-173. .(In Russian)

Gee D, Bateson L, Souter A, Grebbi S, Novellino A, Signa F, Marsh S, Banton K, Wyatt L, Ground movement in abandoned mining areas: application of the intermittent method. SBAS (ISBAS) for the Northumberland and Durham coalfields, UK // Geosciences. – 2017. –7 (3). - P. 85. https://doi.org/10.3390/geosciences7030085

Zhantaev Z, Kaldybaev A, Nurakynov S, Sydyk N. Monitoring oil pollution in the Caspian Sea using Sentinel-1 and Sentinel-2 images International multidisciplinary scientific geoconference “Study of geology and management of mountain ecology”, SGEM, 2020 , 2020-Aug(2.2), pages 251–257. https://doi.org/10.5593/sgem2020/2.2/s10.030

Mikov LS. Application of the method of interferometry of stable reflectors for deformations of the earth's surface Diptychs. Kemerovo branch of the Institute of Computational Technologies SB RAS, Kemerovo, st. 130-133..(In Russian)

Rudakov KV, Sanduleanu LN, Tokmakova AA, Yamshchikov IS, Reyer IA, Strizhov VV. Determination of the movement of objects on the earth's surface using SAR interferometry methods. Computer research and modeling 2015. T.V. 7 No. 5. pp. 1047-1060.(In Russian). https://doi.org/10.20537/2076-7633-2015-7-5-1047-1060

Lanari R, Casu F, Manzo M, et al. Review of the BAseline small subset algorithm: the DINSAR method for surface deformation analysis. Clean application. geophysics 164, 637–661 (2007). https://doi.org/10.1007/s00024-007-0192-9

Kyrgizbaeva G, Nurpeisov M, Sarybaev O. Monitoring displacements of the earth’s surface during subsoil development // New developments in mining engineering 2015: theoretical and practical solutions for mining p. 161-167, 2015.(In Russian). https://doi.org/10.1201/b19901-30

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