1. ELARTU — Інституційний репозитарій ТНТУ імені Івана Пулюя
  2. Матеріали конференцій, семінарів, читань
  3. 2021
  4. International conference „Advanced Applied Energy and Information Technologies 2021“, (ICAAEIT 2021)
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Başlık: Some aspects of developing a multipurpose radio system for monitoring the geospace
Yazarlar: Bogomaz, Oleksandr
Barabash, Volodymyr
Iskra, Dmytro
Affiliation: Institute of Ionosphere, Kharkiv, Ukraine,16 Kyrpychova, 61001
Bibliographic description (Ukraine): Bogomaz O. Some aspects of developing a multipurpose radio system for monitoring the geospace / Oleksandr Bogomaz, Volodymyr Barabash, Dmytro Iskra // ICAAEIT 2021, 15-17 December 2021. — Tern. : TNTU, Zhytomyr «Publishing house „Book-Druk“» LLC, 2021. — P. 114–119. — (Electrical engineering and power electronics).
Bibliographic description (International): Bogomaz O., Barabash V., Iskra D. (2021) Some aspects of developing a multipurpose radio system for monitoring the geospace. ICAAEIT 2021 (Tern., 15-17 December 2021), pp. 114-119.
Is part of: Proceedings of the International Conference „Advanced applied energy and information technologies 2021”, 2021
Yayın Tarihi: 15-Ara-2021
Date of entry: 28-Ara-2021
Yayıncı: TNTU, Zhytomyr «Publishing house „Book-Druk“» LLC
Place of the edition/event: Ternopil
Temporal Coverage: 15-17 December 2021
Anahtar kelimeler: radar
software defined radio
ionogram
ionosonde
ionosphere
geospace
Number of pages: 6
Page range: 114-119
Start page: 114
End page: 119
Özet: Hardware and software principles of building a multipurpose radio system for monitoring the geospace are considered. It is shown that Ettus Research USRP is the most suitable platform for such system. A structure of a multipurpose radio system for monitoring the geospace and developed software for VISCR2 ionosonde (based on USRP N200) as a part of this system are presented. The first results of testing new sowtware are shown.
URI: http://elartu.tntu.edu.ua/handle/lib/36934
ISBN: 978-617-8079-60-4
Copyright owner: © Ternopil Ivan Puluj National Technical University, Ukraine, 2021
References (International): 1. Mendoza, J.J.B., Ruiz, C.F.Q., Jaramillo, C.R.P. (2017). Implementation of an Electronic Ionosonde to Monitor the Earth’s Ionosphere via a Projected Column through USRP. Sensors, 17(5), 946. DOI:10.3390/s17050946.
2. Bogomaz, O., Miroshnikov, A., Domnin, I. (2017). Peculiarities of database for Kharkiv incoherent scatter radar. Information and Telecommunication Technologies and Radio Electronics (UkrMiCo), Proceedings of the International Conference. doi:10.1109/UkrMiCo.2017.8095424.
3. Bogomaz, O., Kotov, D., Panasenko, S., Emelyanov, L. (2017). Advances in software for analysis of Kharkiv incoherent scatter radar data. Information and Telecommunication Technologies and Radio Electronics (UkrMiCo), Proceedings of the International Conference. doi:10.1109/UkrMiCo.2017.8095425.
4. Bogomaz, A.V., Kotov D.V., and Iskra, D.A. (2018). Results of testing a new software and hardware system for processing incoherent scatter radar data in the mode of studying the middle ionosphere. Bulletin of the National Technical University “KhPI”, 43(1319), 24-32.
5. Bostan, S.M., Urbina, J.V., Mathews, J.D., Bilén, S.G., Breakall, J.K. (2019). An HF software‐defined radar to study the ionosphere. Radio Science, 54(9), 839–849. doi: 10.1029/2018RS006773.
6. Emelyanov, L.Y., Zhivolup, T. G. (2013). History of the development of IS radars and founding of the Institute of Ionosphere in Ukraine. History of Geo-and Space Sciences, 4(1), 7–17. doi:10.5194/hgss-4-7-2013.
7. Emelyanov, L., Chepurnyy, Y., and Bogomaz, O. (2018). Simultaneous sounding of the ionosphere in the vertical and oblique directions using incoherent scatter radar. Electronics and Nanotechnology (ELNANO). Proceedings of the 38th International Conference (pp. 458–463). doi:10.1109/ELNANO.2018.8477456.
8. Emelyanov, L., Chepurnyy, Y., Domnin, I., Panasenko, S. (2020). Two-Antenna Method for Characterizing Lower Ionosphere Processes Using Incoherent Scatter Technique. Ukrainian Microwave Week (UkrMW). Proceedings of the. doi:10.1109/UkrMW49653.2020.9252642.
9. Holdsworth, D.A., Spargo, A.J., Reid, I.M., Adami, C. (2020). Low Earth Orbit object observations using the Buckland Park VHF radar. Radio Science, 55(2), 1–19. doi:10.1029/2019RS006873.
10. Kalita, B.R., Nath, S.J., Bhuyan, P.K., Khandare, A., Kulkarni, A. (2019). SAMEERDU–digital ionosonde: Brief system description and initial results from a low-latitude location Dibrugarh. Radio Science, 54(11), 1142–1155. doi:10.1029/2019RS006813.
11. Lehtinen, M.S., Damtie, B., amd Nygrén, T. (2004). Optimal binary phase codes and sidelobe-free decoding filters with application to incoherent scatter radar. Annales geophysicae, 22(5), 1623–1632. DOI:10.5194/angeo-22-1623-2004.
12. Li, Y., Yuan, K., Yao, M., Deng, X. (2020). The Prototype Incoherent Scatter Radar System of Nanchang University. In IEEE Geoscience and Remote Sensing Letters. (pp. 1184–1188). IEEE. doi:10.1109/LGRS.2020.2994082.
13. Zalizovski, A.V., Kashcheiev, A.S., Kashcheiev, S.B., Koloskov, A.V., Lisachenko, V.N., Paznukhov, V.V., Yampolski, Yu.M. (2018). A prototype of a portable coherent ionosonde. Space Sci. & Technol., 24(3), 10–22. doi:10.15407/knit2018.03.010.
Content type: Conference Abstract
Koleksiyonlarda Görünür:International conference „Advanced Applied Energy and Information Technologies 2021“, (ICAAEIT 2021)

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