Prospects for using remote sensing data in the armed forces, other troops and military formations of the Republic of Kazakhstan
Abstract
Introduction/aim: This article is written to acquaint readers with the development of a space system of Earth remote sensing in the Republic of Kazakhstan using remote sensing data to support the Armed Forces, other troops and military formations of the Republic of Kazakhstan.
Methods: An analytical approach to the study of the development of space and information technologies has led to qualitative changes in the field of remote sensing of the Earth. Conclusions were also made based on the analysis of the historical aspects of the formation and development of space systems for remote sensing of the Earth. This article deals with significant improvements in the field of geoinformation support to the Armed Forces, other troops and military formations in the interests of the security of the Republic of Kazakhstan using high-resolution satellite images from domestic spacecraft to create digital state topographic maps of the entire scale series with simultaneous updating.
Results: The article provides a brief overview of remote sensing systems using geoinformation technologies in foreign countries and in the Republic of Kazakhstan.
Conclusions: A special unit "Photogrammetric center for remote sensing and UAV data processing" is capable of processing data of remote sensing and UAVS for the armed forces, other troops and military units of the Republic of Kazakhstan. Data processing technologies have little in common with traditional processing and representation of geographical data, and finally, geographical data serves only as a basis for solving a large number of applied problems.
References
-DigitalGlobe. 2014. Geoprostranstvennaya razvedka v interesakh lyudey. Geomatics, 3, pp.16-21 [online]. Available at: https://www.elibrary.ru/item.asp?id=22531739 (in Russian, translated from English) [Accessed: 1 October 2020]. (In the original: -DigitalGlobe. 2014. Геопространственная разведка в интересах людей. Геоматика, №3, с.16-21 [онлайн]. Доступно на: https://www.elibrary.ru/item.asp?id=22531739, переведено с английского [Дата посещения: 1 октября 2020 г.]).
Estes, J.E. 2005. Some Important Dates in the Chronological History of Aerial Photography and Remote Sensing (Hemphill, J. Ed.) Santa Barbara: University of California [online]. Available at: http://www.geog.ucsb.edu/~jeff/115a/remotesensinghistory.html [Accessed: 1 October 2020].
Glushkov, V.V. 2012. Aerofotorazvedka kak predtecha aerofototopografii. Priroda, 11, pp.84-87 [online]. Available at: http://www.ras.ru/publishing/nature.aspx (in Russian) [Accessed: 1 October 2020]. (In the original: Глушков, В.В. 2012. Аэрофоторазведка как предтеча аэрофототопографии. Природа, №11, с.84-87 [онлайн]. Доступно на: http://www.ras.ru/publishing/nature.aspx [Дата посещения: 1 октября 2020 г.]).
Graham, S. 1999. Remote Sensing [online]. Available at: https://earthobservatory.nasa.gov/features/RemoteSensing [Accessed: 1 October 2020].
Hallion, R.P. 2003. Taking Flight: Inventing the Aerial Age, from Antiquity through the First World War. Oxford University Press. ISBN-10: 0195160355.
Ivanov, V., & Markus, A. 1999. Topograficheskaya karta 21 veka. Armejskij sbornik, 9, pp.42-45 (in Russian). (In the original: Иванов, В., Маркус, А. 1999. Топографическая карта XXI века. Армейский сборник, №9, с.42-45).
Jin, S. & Komjathy, A. 2010. GNSS reflectometry and remote sensing: New objectives and results. Advances in Space Research, 46(2), pp.111-117. Available at: https://doi.org/10.1016/j.asr.2010.01.014.
Kapralov, E.G., Koshkarev, A.V. & Tikunov, V.S. 2005. Geoinformatikа. Moscow: Academia. ISBN: 5-7695-1924-Х (in Russian). (In the original: Капралов, Е.Г., Кошкарев, А.В., Тикунов, В.С. 2005. Геоинформатика. Москва: Академия. ISBN: 5-7695-1924-Х).
Khorram, S., van der Wiele, C.F., Koch, F.H., Nelson, S.A.C. & Potts, M.D. 2016. Principles of Applied Remote Sensing. Springer International Publishing. Available at: https://doi.org/10.1007/978-3-319-22560-9. ISBN: 978-3-319-22560-9.
Lavender, S. & Lavender, A. 2015. Practical Handbook of Remote Sensing. Boca Raton: CRC Press. Available at: https://doi.org/10.1201/b19044. ISBN: 9780429157615.
Lavrov, V.V. 2010. Kosmicheskiye s"yemochnyye sistemy sverkhvysokogo razresheniya. Prostranstvennyye dannyye, 2, pp.18-23 [online]. Available at: http://www.gisa.ru/file/file1736.pdf (in Russian) [Accessed: 1 October 2020]. (In the original: Лавров, В.В. 2010. Космические съемочные системы сверхвысокого разрешения. Пространственные данные, №2, с.18-23 [онлайн]. Доступно на: http://www.gisa.ru/file/file1736.pdf [Дата посещения: 1 октября 2020 г.]).
Needham, J. 1962. Science and Civilisation in China: Volume 4, Physics and Physical Technology; Part 1, Physics. Cambridge University Press. ISBN-10: 0521058023.
-PAPA-Professional Aerial Photographers Association. 2007. History of Aerial Photography [online]. Available at: https://papa.clubexpress.com/content.aspx?page_id=22&club_id=808138&module_id=158950 [Accessed: 1 October 2020].
Prokopyev, V.Yu., Kus, O.N. & Ossovskiy, A.V. 2014. Malyye kosmicheskiye apparaty standarta CubeSat. sovremennyye sredstva vyvedeniya. Vestnik nauki Sibiri, 2, pp.71-80 [online]. Available at: https://www.elibrary.ru/item.asp?id=21796783 (in Russian) [Accessed: 1 October 2020]. (In the original: Прокопьев, В.Ю., Кусь, О.Н., Оссовский, А.В. 2014. Малые космические аппараты стандарта CubeSat. современные средства выведения. Вестник науки Сибири, №2, с.71-80 [онлайн]. Доступно на: https://www.elibrary.ru/item.asp?id=21796783 [Дата посещения: 1 октября 2020 г.]).
Sukhorukov, A.G. 2011. Political retrospective of the formation of Russian means of remote exploring the earth. Vestnik Buryatskogo gosudarstvennogo universiteta, 7, pp.115-118 [online]. Available at: https://www.elibrary.ru/item.asp?id=16401459 (in Russian) [Accessed: 1 October 2020]. (In the original: Сухоруков, А.Г. 2011. Политическая ретроспектива становления российских средств дистанционного зондирования Земли. Вестник Бурятского государственного университета, №7, с.115-118 [онлайн]. Доступно на: https://www.elibrary.ru/item.asp?id=16401459 [Дата посещения: 1 октября 2020 г.]).
Surdin, V.G. & Kartashev, M.A. 1999. Kamera-obskura. Kvant, 2, pp.12-15 [online]. Available at: http://kvant.mccme.ru/pdf/1999/02/kv0299surdin.pdf (in Russian) [Accessed: 1 October 2020]. (In the original: Сурдин, В. Г, Карташев, М.А. 1999. Камера-обскура. Квант, №2, с.12-15 [онлайн]. Доступно на: http://kvant.mccme.ru/pdf/1999/02/kv0299surdin.pdf [Дата посещения: 1 октября 2020 г.]).
Thenkabail, P.S. 2015. Remotely Sensed Data Characterization, Classification, and Accuracies. Boca Raton: CRC Press. Available at: https://doi.org/10.1201/b19294. ISBN: 9781482217865.
Tyuflin, Yu.S. 2011. Fotogrammetriya - vchera, segodnya i zavtra. Izvestiya vysshikh uchebnykh zavedeniy, razdel Geodeziya i aerofotos"yemka, 2, pp.3-8 [online]. Available at: http://miigaik.ru/journal/archive/2011/2.pdf (in Russian) [Accessed: 1 October 2020]. (In the original: Тюфлин, Ю.С. 2011. Фотограмметрия - вчера, сегодня и завтра. Известия высших учебных заведений, раздел Геодезия и аэрофотосъемка, №2, с.3-8 [онлайн]. Доступно на: http://miigaik.ru/journal/archive/2011/2.pdf [Дата посещения: 1 октября 2020 г.]).
Vinogradov, N.V. 1941. Aerofotos"yemka. Nauka i zhizn', 2 [online]. Available at: http://publ.lib.ru/ARCHIVES/N/''Nauka_i_jizn'''/_''Nauka_i_jizn'''_1940-49_.html (in Russian) [Accessed: 1 October 2020]. (In the original: Виноградов, Н.В. 1941. Аэрофотосъемка. Наука и жизнь, №2 [онлайн]. Доступно на: http://publ.lib.ru/ARCHIVES/N/''Nauka_i_jizn'''/_''Nauka_i_jizn'''_1940-49_.html [Дата посещения: 1 октября 2020 г.]).
Zamshin, V.V. 2014. The origin and the development of aerial methods of earth observation. Geomatics, 3, pp.67-79 [online]. Available at: https://www.elibrary.ru/item.asp?id=22531750& (in Russian) [Accessed: 1 October 2020]. (In the original: Замшин, В.В. 2014. История возникновения и развития аэрокосмических методов исследования земли. Геоматика, №3, с.67-79 [онлайн]. Доступно на: https://www.elibrary.ru/item.asp?id=22531750& [Дата посещения: 1 октября 2020 г.]).
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