350 rub
Journal Achievements of Modern Radioelectronics №12 for 2018 г.
Article in number:
Using the Internet of Things technology to create automated control system and testing radio systems
Type of article: scientific article
DOI: 10.18127/j20700784–201812–15
UDC: 621.39 (045)
Authors:

А.N. Kopysov – Ph.D. (Eng.), Associate Professor, Head of Department «Radio engineering», Kalashnikov Izhevsk State Technical University

E-mail: kan_kan@istu.ru

V.V. Khvorenkov – Dr.Sc. (Eng.), Professor, Kalashnikov Izhevsk State Technical University E-mail: hvv@istu.ru

А.А. Zykin – Assistent, Kalashnikov Izhevsk State Technical University

E-mail: soyp2013@yandex.ru

М.М. Markov – Ph.D. (Eng.), Associate Professor, Kalashnikov Izhevsk State Technical University E-mail: mmm@istu.ru

А.А. Bogdanov – Ph.D. (Eng.), Associate Professor, Kalashnikov Izhevsk State Technical University E-mail: baa@istu.ru

Abstract:

The article deals with the control system and testing of radio systems, built on the basis facility company from Rohde & Schwarz and National Instruments. The article exemplifies of programs developed in the LabVIEW development framework for implementing remote control of Rohde & Schwarz instrumentation equipment and National Instruments facility. 

Pages: 71-76
References
  1. Pushkarev M.S. Internet veschej (IoT): ponyatie i znachenie dlya formirovaniya pravovoj osnovy cifrovoj transformacii ekonomiki // Voprosy rossijskogo i mezhdunarodnogo prava. 2018. T. 8. № 1A. S. 16–27.
  2. Roslyakov A.V., Vanyashin S.V., Grebeshkov A.Yu. Internet veschej: ucheb. posobie. Samara: PGUTI. 2015.
  3. Evdokimov Yu.K., Lindval' V.R., Scherbakov G.I. LabVIEW dlya radioinzhenera: ot virtual'nogo pribora do real'nogo pribora. Prakticheskoe rukovodstvo dlya raboty v programmnoj srede LabVIEW. M.: DMK Press. 2007.
  4. Hvorenkov V.V., Baturin I.S., Savel'ev A.V. Avtomatizirovannoe rabochee mesto glavnogo konstruktora radioelektronnyh sredstv na osnove teorii mnogoagentnyh sistem // Vestnik IzhGTU. 2017. T. 20. № 4. C. 77–81.
  5. Kopysov A.N. Izmeritel'nyj stend dlya zapisi signalov s shirokopolosnoj nesuschej // Vestnik IzhGTU. 2006. № 1(29). S. 57–60.
  6. Hvorenkov V.V., Hatbullin R.A., Nistyuk A.I., Zykin A.A. Postroenie sistemy kontrolya i testirovaniya radiosistem kak elementa IoT // Vestnik IzhGTU. 2018. T. 21. № 3. C. 155–165.
  7. R&S®FSW Signal and Spectrum Analyzer Getting Started. URL: https://www.rohde-schwarz.com/ru/search/search_for_manuals_229478.html?term= R%26S%20FSW8.
  8. USRP™ X300/X310. Rukovodstvo pol'zovatelya. URL:https://sotemgroup.ru/uploads/files/USRP%20X300,%20 X310.%20%D0%A0%D1%83%D0%BA%D0%BE%D0%B2%D0%BE%D0%B4%D1%81%D1%82%D0%B2%D0%BE%20%D0%BF%D0%BE%D0%BB%D1%8C%D0%B7%D0%BE%D0%B2%D0 %B0%D1%82%D0%B5%D0%BB%D1%8F.pdf.
  9. Nikitin M.L., Kopysov A.N. Shirokopolosnyj korotkovolnovyj SDR modem Vystavka innovacij – 2015 (vesennyaya sessiya) Elektronnoe nauchnoe izdanie: sb. tezisov dokladov XIX Respublikanskoj vystavki-sessii studencheskih innovacionnyh proektov. 2015. S. 110–113.
  10. R&S®RTO2000 Digital Oscilloscope Getting Started. URL: https://www.rohde-schwarz.com/ru/search_63238.html?term=R%26S+RTO2000& sort=relevance. 
  11. R&S®SMW200A Vector Signal Generator Getting Started Started. URL: https://www.rohde-schwarz.com/ru/search_63238.html?term=R%26S+ SMW200A&sort=relevance.
Date of receipt: 15 ноября 2018 г.