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Modern analog and digital communication systems development using GNU Radio with USRP
- 作者:R. Gandhiraj (1)
K. P. Soman (2)
- 关键词:Software defined radio (SDR) ; Community radio ; Radio data system (RDS) ; Digital聽video聽broadcasting聽(DVB) ; GStreamer ; OFDM based data communication
- 刊名:Telecommunication Systems
- 出版年:2014
- 出版时间:July 2014
- 年:2014
- 卷:56
- 期:3
- 页码:367-381
- 全文大小:
- 参考文献:1. Aravind, H., Gandhiraj, R., Soman, K. P., Sabarimalai Manikandan, M., & Rakesh, P. (2011). Spectrum sensing implementations for software defined radio in simulink. In / International conference on communication technology and system design 2011, Elsevier-Procedia engineering, Dec. 7鈥?.
2. Abinav, A. k., Naveena, K., Pratibha, R., Gandhiraj, R., & Soman, K. P. (2010). SVM based classification of digitally modulated signals for software defined radio. In / International conference on embedded systems 2010, July 13鈥?5. Coimbatore: Coimbatore Institute of Technology. 3. Abinav, A. k., Naveena, K., Pratibha, R., Gandhiraj, R., & Soman, K. P. (2010). Detection and classification of signals to configure software defined radio. In / Second national conference on recent trends in communication, computation and signal processing, March 26鈥?7. 4. Al-kamali, F. S., Dessouky, M. I., Sallam, B. M., Shawki, F., & Abd El-Samie, F. E. (2011). Impact of the power amplifier on the performance of the single carrier frequency division multiple access system. / Journal of Telecommunication Systems. doi:pan class="a-plus-plus non-url-ref">10.1007/s11235-011-9439-y . 5. Blossom, E. How to write a signal processing block. p://www.gnu.org/software/gnuradio/doc/howto-write-a-block.html" class="a-plus-plus">http://www.gnu.org/software/gnuradio/doc/howto-write-a-block.html. 6. Shen, D. (2005). p://www.snowymtn.ca/GNURadio/GNURAdioDoc-5.pdf" class="a-plus-plus">http://www.snowymtn.ca/GNURadio/GNURAdioDoc-5.pdf. 7. Fuxj盲ger, P., Costantini, A., Valerio, D., Castiglione, P., Zacheo, G., Zemen, T., & Ricciato, F. IEEE 802.11p Transmission using GNURadio. p://userver.ftw.at/~valerio/files/wsr10.pdf" class="a-plus-plus">http://userver.ftw.at/~valerio/files/wsr10.pdf. 8. Leipold, F., Tassetto, D., & Bovelli, S. (2011). Wireless in-cabin communication for aircraft infrastructure. / Journal of Telecommunication Systems. doi:pan class="a-plus-plus non-url-ref">10.1007/s11235-011-9636-8 . 9. GNU radio introduction. p://gnuradio.org/redmine/projects/gnuradio/wiki/WhatIsGR" class="a-plus-plus">http://gnuradio.org/redmine/projects/gnuradio/wiki/WhatIsGR. 10. GNU radio companion. p://www.gnuradio.org/trac/wiki/GNURadioCompanion" class="a-plus-plus">http://www.gnuradio.org/trac/wiki/GNURadioCompanion. 11. Garrido-Cantos, R., De Cock, J., Mart铆nez, J. L., Van Leuven, S., & Garrido, A. (2011). Video transcoding for mobile digital television. / Journal of Telecommunication Systems. doi:pan class="a-plus-plus non-url-ref">10.1007/s11235-011-9594-1 . 12. Image reference. p://www.microwavejournal.com/legacy_assets/FigureImg/4324_Fig3_L.jpg" class="a-plus-plus">http://www.microwavejournal.com/legacy_assets/FigureImg/4324_Fig3_L.jpg. 13. Proakis, J. G., & Salehi, M. (2007). / Fundamentals of communication systems. Pearson Prentice Hall, India. 14. Chung, J., Yun, Y., & Choi, S. (2011). Experiments on MIMO-OFDM system combined with adaptive beam forming based on IEEE 802.16e WMAN standard. / Journal of Telecommunication Systems. doi:pan class="a-plus-plus non-url-ref">10.1007/s11235-011-9475-7 . 15. Dillinger, M., Madani, K., & Alonistioti, N. (2005). Software-defined radio basics. / Review of Software Defined Radio: Architectures, / 6(10). 16. Ettus, M. / USRP user鈥檚 and developer鈥檚 guide. Ettus Research LLC. 17. Dickens, M., Laneman, N.J., & Dunn, B. P. (2012). Seamless dynamic runtime reconfiguration in a software-defined radio. / Journal of Signal Processing Systems (Springer), / 69(1), 87鈥?4. p://dx.doi.org/10.1007/s11265-011-0645-3" target="_blank" title="It opens in new window">CrossRef 18. RDS fundamentals. p://www.radio-electronics.com/info/broadcast/rds/radio-data-system-technology-operation.php" class="a-plus-plus">http://www.radio-electronics.com/info/broadcast/rds/radio-data-system-technology-operation.php. 19. Ranjini, R., Gandhiraj, R., & Soman, K. P. (2011). Analog and digital modulation toolkit for software defined radio. In / International conference on communication technology and system design 2011, Elsevier-Procedia engineering, Dec 7鈥?. 20. Simple DVB Experimental Setup. p://wiki.oz9aec.net/index.php/Simple_DVB_with_Gstreamer_and_GNU_Radio" class="a-plus-plus">http://wiki.oz9aec.net/index.php/Simple_DVB_with_Gstreamer_and_GNU_Radio. 21. Prasad, S. S., Gandhiraj, R., & Soman, K. P. (2011). Multi-user spectrum sensing based on multitaper method for cognitive environments, In / International Journal of Computer Applications (IJCA). New York: Foundation of Computer Science. doi:pan class="a-plus-plus non-url-ref">10.5120/2613-1093 . 22. Prasad, S. S., Gandhiraj, R., & Soman, K. P. (2010). Efficient spectral estimation with Slepian tapers in cognitive environment: a review. In / Second national conference on recent trends in communication, computation and signal processing, March 26鈥?7. 23. Prasad, S. S., Gandhiraj, R., & Soman, K. P. (2010). Cognitive radio as a background for spectrum sensing鈥攁 review. In / National conference on recent innovation in technology 2010 (NCRIT 2010), Kottayam, Kerala, March 04鈥?6. Organized by Rajiv Gandhi Institute of Technology (Govt. Engineering College). 24. Li, Y., & Stuber, G. L. (2006). / Orthogonal frequency division multiplexing for wireless communication. Berlin: Springer. p://dx.doi.org/10.1007/0-387-30235-2" target="_blank" title="It opens in new window">CrossRef
- 作者单位:R. Gandhiraj (1)
K. P. Soman (2)
1. Communication Engineering Research Group, Department of Electronics and Communication Engineering, Amrita Vishwa Vidyapeetham, Coimbatore, India 2. Center for Excellence in Computational Engineering and Networking, Amrita Vishwa Vidyapeetham, Coimbatore, India
- ISSN:1572-9451
文摘
In this modern world many communication devices are highly intelligent and interconnected between each other. Any up-gradation of the hardware in the existing communication devices is not easier one. Compatibility of the new hardware with existing hardware is highly essential. But the new protocols may or may not support the older one. The solution for these problems can be provided by using the reconfigurable hardware design. The hardware can be reprogrammed according to the new change in technology up-gradation. The cost of commercially available hardware and software requirements for setting up such a module is very high. This can be solved by using Open source hardware and software such as Universal Software Radio Peripheral (USRP) and GNU Radio. This work demonstrates how the modern analog communication system like Community Radio Schemes and Radio Data System (RDS) and digital communication systems such as Simple Digital Video Broadcasting (DVB) and OFDM based data communication can be developed using the Open source hardware USRP1. This work will be helpful even for first year level of engineering students to easily implement any communication and control applications with cheaper cost.
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