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Design and validation of a Software Defined Radio testbed for DVB-T transmission

Publication typeJournal paper
Year of publication2014
AuthorsGiuseppe Baruffa, Luca Rugini, and Paolo Banelli
TitleDesign and validation of a Software Defined Radio testbed for DVB-T transmission
Journal titleRadioengineering
Volume23
Issue1
Pages387–398
Editor
PublisherBrno University of Technology
DateApril 2014
Place
ISSN number1210-2512, 1805-9600 (online)
ISBN number
Key wordsSoftware Defined Radio, Digital Video Broadcasting-Terrestrial, USRP, OFDM, time synchronization, carrier frequency offset estimation
AbstractThis paper describes the design and validation of a Software Defined Radio (SDR) testbed, which can be used for Digital Television transmission using the Digital Video Broadcasting - Terrestrial (DVB-T) standard. In order to generate a DVB-T-compliant signal with low computational complexity, we design an SDR architecture that uses the C/C++ language and exploits multithreading and vectorized instructions. Then, we transmit the generated DVB-T signal in real time, using a common PC equipped with multicore central processing units (CPUs) and a commercially available SDR modem board. The proposed SDR architecture has been validated using fixed TV sets, and portable receivers. Our results show that the proposed SDR architecture for DVB-T transmission is a low-cost low-complexity solution that, in the worst case, only requires less than 22% of CPU load and less than 170 MB of memory usage, on a 3.0 GHz Core i7 processor. In addition, using the same SDR modem board, we design an off-line software receiver that also performs time synchronization and carrier frequency offset estimation and compensation.
URLhttp://www.radioeng.cz/papers/2014-1.htm
DOI
Other information
Paper (portable document format, 788652 Bytes)
Last update: 2015-10-12, 16:44:51