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Telecommunications and Radio Engineering
SJR: 0.203 SNIP: 0.44 CiteScore™: 1

ISSN Imprimer: 0040-2508
ISSN En ligne: 1943-6009

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Telecommunications and Radio Engineering

DOI: 10.1615/TelecomRadEng.v78.i8.50
pages 691-705

LOW COST SDR RECEIVER IMPLEMENTATION USING RTL-SDR DONGLE

Reda Yagoub
Smart Structures Laboratory (SSL), University Center Belhadj Bouchaib of Ain Témouchent, Po Box 284, Ain Témouchent 46000, Algeria
B. Benadda
Abou Bekr Belkaid University of Tlemcen, PO BOX 119, Tlemcen 13000, Algeria
M. Benaissa
Smart Structures Laboratory (SSL), University Center Belhadj Bouchaib of Ain Témouchent, Po Box 284, Ain Témouchent 46000, Algeria; Information Processing and Telecommunications Laboratory (LTIT), Bechar 8000, Algeria
A. Taleb-Ahmed
IEMN DOAE UMR CNRS 8520, Polytechnic University of Hauts-de-France, Valenciennes 59313, France
A. Lahouel
Smart Structures Laboratory (SSL), University Center Belhadj Bouchaib of Ain Témouchent, Po Box 284, Ain Témouchent 46000, Algeria
F. Zane
Smart Structures Laboratory (SSL), University Center Belhadj Bouchaib of Ain Témouchent, Po Box 284, Ain Témouchent 46000, Algeria

RÉSUMÉ

The advent of Software Defined Radio (SDR) has made it possible to replace large parts of classical radio communication equipment with digital and software components to easily achieve configurable and multiplatform communication systems. SDR provides many advantages for research and development. In this work, the low-cost Realtek Software Defined Radio (RTL-SDR) dongle can serve as a cheap SDR platform to receive and digitize exchanged RF signals. In case of RTL-SDR dongle, in-phase and quadrature samples (I/Q) are sent as a stream through simple Universal Serial Bus interface (USB) to host computer. This paper describes a SDR application that can be used for many functionalities such as monitoring and scanning of frequency bands with RTL-SDR dongle.

RÉFÉRENCES

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  2. Cass, S., (2013) , A $40 software-defined radio, IEEE Spectrum, 50(7), pp.22-23.

  3. Nesimoglu, T., (2010) , A review of Software Defined Radio enabling technologies, Microwave Symposium (MMS), Mediterranean, pp. 87-90.

  4. Buracchini, E., (2000) , The software radio concept, IEEE Communications Magazine, 38(9), pp.138- 143.

  5. Laufer, C., (2015) , The Hobbyist's Guide to the RTL-SDR: Really Cheap Software Defined Radio, CreateSpace Independent Publishing Platform.

  6. Wickert, M.A. and Lovejoy, M.R., (2015) , August. Hands-on software defined radio experiments with the low-cost rtl-sdr dongle, Signal Processing and Signal Processing Education Workshop (SP/SPE), pp. 65-70.

  7. Galustov, G.G., Brovchenko, S.P., and Klimenko, V.V., (2012) , Effects of Noise Parameters of a Radio Receiver on its Dynamic Blocking Range, Telecommunications and Radio Engineering, 71(13), pp. 1205-1211.

  8. Bondarev, I.N., Platonov, A.P., and Sukhov, A.M., (2008) , Technologies for Digital Television Broadcasting in the Internet and Cellular Networks, Telecommunications and Radio Engineering, 67(19), pp. 1743-1748.

  9. Sergienko, A.B., (2014) , Software-defined radio in MATLAB Simulink with RTL-SDR hardware, Computer Technologies in Physical and Engineering Applications (ICCTPEA), International Conference on pp. 160-161. IEEE.

  10. Lahouel, A. and Zane, F., (2017) , Analyse et scan des fréquences de la SDR & DVB-T Modèle R820T, Master Degree, Belhadj Bouchaib University Center.

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