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Journal Science Intensive Technologies №2 for 2023 г.
Article in number:
Prospects for the development of long-range radar
Type of article:
scientific article
DOI: https://doi.org/10.18127/j19998465-202302-03
UDC: 621.396.969.35
Keywords:
Radar facilities
target environment
interference
heliogeophysical conditions
over-the-horizon location
plasma for-mations
synthetic aperture radar
Earth observation radar facilities
complex modeling
Authors:
Y.G. Anoshko1, S.N. Torgovkin2
1,2 JSC "Scientific and Production Association of Long-Range Radar" (Moscow, Russia)
Abstract:
The prospects for the development of long-range radar are considered, its role in solving military and national economic tasks is clarified, including monitoring the Earth's surface, detecting various classes of targets in difficult target and interference conditions.
Pages: 16-22
For citation
Anoshko Y.G., Torgovkin S.N. Prospects for the development of long-range radar. Science Intensive Technologies. 2023. V. 24. № 2. P. 16−22. DOI: https://doi.org/10.18127/j19998465-202302-03 (in Russian)
References
- Vil'danov M., Metrov O. Razrabotka v SShA raketnyh kompleksov srednej i men'shej dal'nosti. Zarubezhnoe voennoe obozrenie. 2022. № 4 (in Russian).
- Sistemy raketno-kosmicheskoj oborony. V 4 t. Tom 1. Raketno-kosmicheskie vooruzheniya. Sozdanie i razvitie sistem raketno-kosmicheskoj oborony. Pod red. O.YU. Aksenova. M.: AO «ID «Argumenty nedeli». 2020. S. 257 (in Russian).
- Akimov V.F., Kalinin Yu.K. Vvedenie v proektirovanie ionosfernyh zagorizontnyh radiolokatorov. Pod red. S.F. Boeva. M.: TEKHNOSFERA. 2017. S. 315 (in Russian).
- Dzhuzeppe A. Fabricio. Vysokochastotnyj zagorizontnyj radar: osnovopolagayushchie principy, obrabotka signalov i prakticheskoe primenenie. M.: TEKHNOSFERA. 2018. 936 s. (in Russian).
- Novye zagorizontnye RLS «Kontejner» prikroyut yug i vostok Rossii. Voennoe obozrenie. Novosti. 14 dekabrya 2020 goda. https://topwar.ru/178119-novye-zagorizontnye-rls-kontejner-prikrojut-jug-i-vostok-rossii.html (in Russian).
- Zherebcov G.A., Zavorin A.V., Medvedev A.V., Nosov V.E., Potekhin A.P., Shpynev B.G. Irkutskij radar nekogerentnogo rasseyaniya. Radiotekhnika i elektronika. 2002. T. 47. № 11. S. 1339–1345 (in Russian).
- Potekhin A.P., Medvedev A. V., Zaverim A. V., Kushnarev D.S., Lebedev V.P., SHpynev B.G. Razvitie diagnosticheskih vozmozhnostej Irkutskogo radara nekogerentnogo rasseyaniya. Kosmicheskie issledovaniya. 2008. T. 46. № 4. S. 356–362 (in Russian).
- Leuhin A.N. Algebraicheskoe reshenie zadachi sinteza kodovyh posledovatel'nostej. Kvantovaya elektronika. 2005. 35:8. S. 668–692 (in Russian).
- Leuhin A.N., Bezrodnyj V.I., Voronin A.A. Distancionnoe zondirovanie Zemli s pomoshch'yu radiolokatorov s sintezirovannoj aperturoj antenny. Uchenye zapiski Kazanskogo universiteta. Ser.: Fiziko-matematicheskie nauki. 2018. 160:1. S. 25–41 (in Russian).
- Steganov G.B., CHudnovskij Yu.A., Alimov N.I., Skopcov A.A. Algoritm podderzhaniya energeticheskogo balansa sistemy elektrosnabzheniya kosmicheskogo apparata distancionnogo zondirovaniya zemli v kriticheskih usloviyah ekspluatacii. Informacionno-izmeritel'nye i upravlyayushchie sistemy. 2021. T. 26. № 3. S. 14−21. DOI: https://doi.org/10.18127/j20700814-202103-02 (in Russian).
- Egoshkin N.A., Eremeev V.V. Sovremennye podhody k povysheniyu kachestva izobrazhenij ot mnogoelementnyh sistem nablyudeniya Zemli. Radiotekhnika. 2016. T. 80. № 8. S. 98–104 (in Russian).
Date of receipt: 10.01.2023
Approved after review: 24.01.2023
Accepted for publication: 16.02.2023