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| Назва: | Methods to improve the accuracy of guidance of terrestrial antenna station |
| Автори: | Palamar, Mykhaylo Yavorska, Myroslava Bezrukovs, Vladislavs Poikhalo, Anatolii Kruglov, Volodymyr Apostol, Yuriy Batuk, Vitaliy |
| Приналежність: | Instrumentation Department, Ternopil Ivan Pul’uj National Technical University, Ukraine, Ternopil, Ruska st.56 Engineering Research Institute Ventspils International Radio Astronomy Centre (ERI VIRAC) of Ventspils University of Applied Sciences (VUAS), Ventspils, Latvia National Center Of Space Facilities Control And Test, Ukraine, Kyiv, Moskovska str. 8 |
| Бібліографічний опис: | Methods to improve the accuracy of guidance of terrestrial antenna station / Mykhaylo Palamar, Myroslava Yavorska, Vladislavs Bezrukovs, Anatolii Poikhalo, Volodymyr Kruglov, Yuriy Apostol, Vitaliy Batuk // ICAAEIT 2021, 15-17 December 2021. — Tern. : TNTU, Zhytomyr «Publishing house „Book-Druk“» LLC, 2021. — P. 120–126. — (Electrical engineering and power electronics). |
| Bibliographic description: | Palamar M., Yavorska M., Bezrukovs V., Poikhalo A., Kruglov V., Apostol Y., Batuk V. (2021) Methods to improve the accuracy of guidance of terrestrial antenna station. ICAAEIT 2021 (Tern., 15-17 December 2021), pp. 120-126. |
| Є частиною видання: | Proceedings of the International Conference „Advanced applied energy and information technologies 2021”, 2021 |
| Дата публікації: | 15-гру-2021 |
| Дата внесення: | 28-гру-2021 |
| Видавництво: | TNTU, Zhytomyr «Publishing house „Book-Druk“» LLC |
| Місце видання, проведення: | Ternopil |
| Часове охоплення: | 15-17 December 2021 |
| Теми: | AS guidance instalaton accuracy surface control control system |
| Кількість сторінок: | 7 |
| Діапазон сторінок: | 120-126 |
| Початкова сторінка: | 120 |
| Кінцева сторінка: | 126 |
| Короткий огляд (реферат): | The analysis of factors influencing accuracy of guidance of terrestrial antenna complexes and ways of improvement of a signal reception quality are considered. The above considerations are the result of authors many years practical experience in the AS ground stations setting and monitoring. |
| URI (Уніфікований ідентифікатор ресурсу): | http://elartu.tntu.edu.ua/handle/lib/36935 |
| ISBN: | 978-617-8079-60-4 |
| Власник авторського права: | © Ternopil Ivan Puluj National Technical University, Ukraine, 2021 |
| URL-посилання пов’язаного матеріалу: | http://knit.mao.kiev.ua/uk/archive/2021/3 https://www.itu.int/dms_pub/itu-r/opb/rep/R-REP-SM.2424-2018-PDF-E.pdf |
| Перелік літератури: | 1. Власенко, В.П., Мамарєв, В.М., Ожінський, В.В. (2021). Методика побудови первинної матриці похибок радіотелескопа РТ-32 в автоматизованому режимі. Космічна наука і технологія, 27(3), 66–75. - Режим доступу: http://knit.mao.kiev.ua/uk/archive/2021/3. doi: 10.15407/knit2021.03.066. |
| References: | 1. ITU-R SM.2424-0 (06/2018) “Measurement techniques and new technologies for satellite monitoring” https://www.itu.int/dms_pub/itu-r/opb/rep/R-REP-SM.2424-2018-PDF-E.pdf 2. Kiselev, A., Medvedev, A., Menshikov, V. (2003). Astronautics. Summary and Prospects. Springer-Verlag Wien. 3. Smida, B., Efthymoglou, G.P., Ghassemzadeh, S.S., Tarokh, V. (2011). On Effects of antenna pointing accuracy for on-the-move satellite networks. Transactions on vehicular Technology, 60(4). 4. Montenbruck, O., Ramos-Bosch P. (2008). Precision real-time navigation of LEO satellites using global positioning system measurements. GPS Solut, 12:187–198. doi: 10.1007/s10291-007-0080-x. 5. Liang, W., Jia, Z., Kang, l., Hong, J., Lei, B., Zhang, Q., Chen, Q. (2018). An accurate measurement method for azimuth pointing of spaceborne synthetic aperture radar antenna beams based on ground receiver. Sensors (Basel), 18(8). 4. Wang, Y. J., Zheng, A. V., Fu, Y. Q., Liu, Y. Q. (2011). Measurement of tracking accuracy of antenna using precise geostationary satellite orbit. Applied Mechanics and Materials, 128-129, 616–619. 5. Smida, B., Efthymoglou, G. P., Ghassemzadeh, S. S., Tarokh, V. (2011). On Effects of antenna pointing accuracy for on-the-move satellite networks. Transactions on vehicular Technology, 60(4). 6. Palamar, M., Chaikovskyi, A., Pasternak, Y., Palamar, Y. (2015). Improvement of metrological characteristics of the antenna system using smart angle sensor. Intelligent Data Acquisition and Advanced Computer systems. Proceedings of the 8th IEEE International Conference. 7. Stutzman, W. L., Thiele, G. A. (1981). Antenna theory and designe. New York: John wiley and sons. 8. Palamar, M., Chaikovskyi, A., Pasternak, V., Shevchuk, V., Yavorska, M. (2020). The Influence of Antenna Installation Accuracy on Quality of Signal Reception, International Symposium on Smart and Wireless Systems within the Conferences on Intelligent Data Acquisition and Advanced Computing Systems, Proceedings of International Conference. Dortmund, German. 9. Palamar, M. (2012). Smart Station for Data Reception of the Earth Remote Sensing. In Remote Sensing - Advanced Techniques and Platforms (pp. 341-371). Rijeka: InTechBook. 10. AC Induction Motor Control Using Constant V/Hz Principle and Space Vector PWM Technique with TMS320C240. – Application Report: SPRA284A, Texas Instruments, 1998. 11. Palamar, M.I, Zelinskyj, I.M., Yavorska, M.I. (2017). The device for remote measurements of geometric dimensions and positions. Intelligent Data Acquisition and Advanced Computing Systems: Technology and Applications (IDAACS). Proceedings of the 9th IEEE International Conference. Bucharest, Romania. 12. Zelinskyj, I.M., Palamar, M.I, Yavorska, M.I. (2018). The optical device for coordinate measurement. Coordinate Measuring Technique, Proceedings of the XIII International Scientific Conference. Bielsko-Biala, Poland. 13. Zelinskyj, I.M., Palamar, M.I, Yavorska, M.I. (2019). Optical system for control of antenna mirror shape. Scientific Journal of TNTU, 93(1), 92–101. 14. Palamar, M., Yavorska, M., Zelinskyy, I., Strembitskyi, M. (2021). Computational intelligence application to reproduce a map of surface deviations based on the results of remote measurements, Intelligent Data Acquisition and Advanced Computing Systems: Technology and Applications, Proceedings of the International Conference. Cracow, Poland. 15. Zelinskyy, I., Palamar, M., Yavorska, M. (2021). Application of a Laser Total Station to Control the Shape of the Mirror Antenna Reflector. Intelligent Data Acquisition and Advanced Computing Systems: Technology and Applications, Proceedings of the International Conference. Cracow, Poland. 16. Cohen, E., Velossi, Sun, S. (1966). Calculaton of wind forces and preasures on antennas. Design and Construction of Large Steerable Aerials, Proceedings of the Brtish IEE Conference. London, UK. 17. Blaulock, R.B., Dayman, B., Fox, N.I. (1964). Wind tunnel testingof antennas models. Large Radio Antennas, Proceedings of the Conference New York Academy Sciensies. New York, USA. 21. Belyansky, P.V., Sergeev, B.G. (1980). Control of Terrestrial Antennas and Radio Telescopes, Moscow: Soviet Radio. |
| Тип вмісту: | Conference Abstract |
| Розташовується у зібраннях: | International conference „Advanced Applied Energy and Information Technologies 2021“, (ICAAEIT 2021) |
Файли цього матеріалу:
| Файл | Опис | Розмір | Формат | |
|---|---|---|---|---|
| ICAAEIT_2021_Palamar_M-Methods_to_improve_the_120-126.pdf | 2,8 MB | Adobe PDF | Переглянути/відкрити | |
| ICAAEIT_2021_Palamar_M-Methods_to_improve_the_120-126.djvu | 486,57 kB | DjVu | Переглянути/відкрити | |
| ICAAEIT_2021_Palamar_M-Methods_to_improve_the_120-126__COVER.png | 465,35 kB | image/png | Переглянути/відкрити |
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