Ratio Bands of Landsat 8 Satellite Images on the Example of the Central Part of the Bukantau Mountains
Keywords:
Earth remote sensing, ratiobands, multispectral images, divide, float, mineral composition
Abstract
This article presents the results of processing the Landsat-8 multispectral satellite images by the ratiobands method over the territory of the central part of the Bukantaumountains. The revealed color anomalies reflect lithological heterogeneities and zones of mineralization of the territory, which are a sign of endogenous mineralization.
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References
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2. Markov N.G. Methods and means of digital signal processing: Textbook. 56-s
3. Glukh A.K., Mehmonkhodzhaev A.D., Kim K.N. Computer technologies are the way to new methods of interpreting space images. Geology and Mineral.resources. -2003 # 4.47-p.
4. Kronberg P. Remote study of the Earth. Basics and methods of remote sensing in geology. - M .: Mir, 1998.56-p.
5. Avezov A.R. Application of space survey materials in geological exploration production. Materials of the international scientific and technical conference "Uzgeoinovation-2010". Tashkent. 2010 p-46-49
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7. Deaf A.K. Methodical recommendations for cosmogeological mapping on the territory of Uzbekistan. Tashkent. SAIGIMS. 1982. 65-p.
8. ErgashevSh.E., Asadov A.R. Methodical recommendations for the use of remote sensing. Tashkent. IMR. 2001. 224-p.
9. Aisabokhae Joseph and OresajoBamidele. (2018) Application of Remote Sensing Method for Geological Interpretation of Sokoto Plain, Nigeria.South African Journal of Geomatics, Vol. 7. No. 3, November 2018. DOI: http://dx.doi.org/10.4314/sajg.v7i3.12
10. Banerjee, Krishnendu& Jain, Manish & Panda, Surajit&Jeyaseelan, Ayyemperumal. (2019). Landsat 8 OLI Data for Identification of Hydrothermal Alteration Zone in Singhbhum Shear Zone using Successive Band Depth Difference Technique–A New Image Processing Approach. Current science. 116. 1639-1647. 10.18520/cs/v116/i10/1639-1647.
11. Prasath, Lakshmi Ram & K. N, Kusuma. (2018). Lithological Mapping using Landsat 8 OLI and ASTER TIR Multispectral Data- A Comparative Study. International Journal of Advanced Remote Sensing and GIS. 7. 2728-2745. 10.23953/cloud.ijarsg.369.
12. Ramadan Abdelaziz, Yasser Abd El-Rahman, Sophie Wilhelm. Landsat-8 data for chromite prospecting in the Logar Massif, Afghanistan. Heliyon 4 (2018) e00542.doi: 10.1016/j.heliyon.2018.e00542 .
13. Khalid, A. & Abdel, H. 2014. The use of Landsat 8 OLI Image for the delineation of Gossanic Ridge in the Red Sea Hills of NE Sudan. American J. of Earth Sci., (1)3, 62-67
14. Ahmed, S. & Amin, B. 2014. Lithological mapping and hydrothermal alteration using Landsat 8 data: a case study in Ariab mining district, red sea hills, Sudan. Intl. J. Basic and Appld. Sci., 3(3), 199-208.
15. Goipov, A. B., Rakhmatovich, K. N., Axmadov, Sh. I., &Musaxonov, Z. M. (2020). Application Of Ratio Bands Of Space Images For Mapping Minerals On The Example Of Kokpatas-Okzhetpes Trend In Mountain Bukantau (South Tien Shan). The American Journal of Applied Sciences, 2(07), 94-103.
Published
2021-06-23
How to Cite
Mirsayapov, R. I., Qurbonmurodov, S. D., & Mirsayapova, A. Y. (2021). Ratio Bands of Landsat 8 Satellite Images on the Example of the Central Part of the Bukantau Mountains. Central Asian Journal of Theoretical and Applied Science, 2(6), 75-81. Retrieved from https://cajotas.centralasianstudies.org/index.php/CAJOTAS/article/view/196
Section
Articles
Copyright (c) 2021 Rafis Ildarovich Mirsayapov, Shahzod Dilshodovich Qurbonmurodov, Anora Yunusovna Mirsayapova
This work is licensed under a Creative Commons Attribution 4.0 International License.
