Применение программно-определяемого радио в системах связи

O. A. Kuvshinov, O. V. Plokhikh

Аннотация


В работе представлены примеры решения актуальных задач электросвязи с использованием технологии программно-определяемых радиосистем (ПОР). Для каждого примера описана проблема и роль ПОР в ее решении. Приведено сравнение основных характеристик и структуры аппаратных составляющих ПОР, которые используются в рассмотренных примерах. Представлены результаты работы с отладочным модулем для российской микросхемы ПОР 1288ХК1Т по сценарию демонстрационного варианта функционирования.

 

Кувшинов О. А., Плохих О. В. Применение программно-определяемого радио в системах связи. Ural Radio Engineering Journal. 2022;6(2):140–159. DOI: 10.15826/urej.2022.6.2.002.

 


Ключевые слова


программно-определяемое радио; российская микросхема; проблемы электросвязи; аппаратные решения; цифровая обработка сигналов

Полный текст:

Без имени

Литература


Johnson P. New research lab leads to unique radio receiver. E-Systems Team. 1985;5(4):6–7. Available at: http://chordite.com/team.pdf

Boyko O. V., Zhuravlev D. V., Safonov I. A. Monitoring system of mobile radio communication of 2G-4G networks. Bulletin of Voronezh State Technical University. 2018;14(4):117–121. (In Russ.)

Kormiltsev N. V., Uvarov A. D. Attack simulation based on softwaredefined radio system in compatible GSM networks. In: Science, education and innovation in the modern world: Proceedings of the national scientific and practical conference, Voronezh, 20–21 March 2018. Voronezh: Voronezh State Agrarian University named after Emperor Peter the Great; 2018, pp. 170–177. (In Russ.)

Butusov A. A billion devices of the Internet of Things by 2025 is the key goal of the strategy of ANO “Digital Economy”. (In Russ.) Available at: https://iot.ru/promyshlennost/milliard-ustroystv-interneta-veshchey-k2025-godu-klyuchevaya-tsel-strategii-ano-tsifrovaya-ekonomik (accessed: 21.11.2021).

Lu X., Ni L., Jin S., Wen C.-K., Lu W. SDR implementation of a real-time testbed for future multi-antenna smartphone applications. IEEE Access. 2017;5:19761–19772. DOI: 10.1109/ACCESS.2017.2751622.

Efimov S. E., Stepanov N. V., Turlikov A. M. Research LoRaWAN collide signals with used SDR. In: Wave Electronics and Infocommunication Systems: Proceedings of the 24th International Scientific Conference, Saint Petersburg, 31 May – 4 June 2021. Saint Petersburg: Saint Petersburg State University of Aerospace Instrumentation; 2021, part 3, pp. 92–98. (In Russ.)

Gavrilă C., Popescu V., Alexandru M., Murroni M., Sacchi C. An SDR-based satellite gateway for internet of remote things (IoRT) applications. IEEE Access. 2020;8:115423–115436. DOI: 10.1109/ ACCESS.2020.3004480.

Scalise S., Niebla C. P., De Gaudenzi R., Del Rio Herrero O., Finocchiaro D., Arcidiacono A. S-MIM: a novel radio interface for efficient messaging services over satellite. IEEE Communications Magazine. 2013;51(3):119–125. DOI: 10.1109/MCOM.2013.6476875.

Ishioka T. et al. Design and prototype implementation of softwaredefined radio over fiber. IEEE Access. 2021;9:72793–72807. DOI: 10.1109/ACCESS.2021.3079915.

Politis C., Maleki S., Duncan J. M., Krivochiza J., Chatzinotas S., Ottesten B. SDR implementation of a testbed for real-time interference detection with signal cancellation. IEEE Access. 2018;6:20807–20821. DOI: 10.1109/ACCESS.2018.2825885.

Lin C., Yan W., Zhang L., Wang W. A real-time modulation recognition system based on software-defined radio and multi-skip residual neural network. in IEEE Access. 2020;8:221235–221245. DOI: 10.1109/ACCESS.2020.3043588.

Plokhikh O. V., Gusev A. V. Radar system for aerological radio sounding of the atmosphere based on SDR transceiver. In: Microwave & Telecommunication Technology: Proceedings of the 31st International Scientific and Technical Conference CrimeaMiCo’2021, Sevastopol, 5–11 September 2021. Sevastopol: Sevastopol State University; 2021. Iss. 3, pp. 359–360. (In Russ.)

Lindseth B., Brown W. O. J., Jordan J., Law D., Hock T., Cohn S. A., Popovic Z. A New Portable 449-MHz Spaced Antenna Wind Profiler Radar. IEEE Transactions on Geoscience and Remote Sensing. 2012;50(9):3544–3553. DOI: 10.1109/TGRS.2012.2184837.

Schmidt E., Inupakutika D., Mundlamuri R., Akopian D. SDR-Fi: Deep-Learning-Based Indoor Positioning via SoftwareDefined Radio. IEEE Access. 2019;7:145784–145797. DOI: 10.1109/ ACCESS.2019.2945929.

Gavrilov D. A., Dobrikov V. A. Software-defined receiving and processing of signals of global navigation satellite systems. Proceedings of the Mozhaisky Military Aerospace Academy. 2016;(652):16–22. (In Russ.)

Kester W. (ed.) Analog-Digital Conversion. Analog Devices, Inc.; 2004.