FOREX Press I. J. of Electrical & Electronics Research
Support Open Access
  • Home/
  • IJEER-030101

Research Article |

Cyclostationary Detection Using DVB-T Signal in a Cognitive Radio System

Author(s): Ruchir Kumar Chauhan

Published In : International Journal of Electrical and Electronics Research (IJEER)        Volume 3, Issue 1

Publisher : FOREX Publication

Published : 30 march 2015

e-ISSN : 2347-470X

Page(s) : 1-4

DOI: https://doi.org/10.37391/IJEER.030101

Abstract

Due to fixed available spectrum and increase in wireless applications it is necessary to use a technology which can detect the unused spectrum so that spectrum efficiency can be improved. The device which is used known as cognitive radio (CR). Cognitive radio is an intelligent device which can easily sense the available channel in an available spectrum, for spectrum sensing it basically uses three techniques Energy Detection, Matched Filter Detection and Cyclostationary Detection. In this paper spectrum detection is done by using Cyclostationary detection which provide better results at low SNR in comparison to other techniques, DVB-T signal is used for finding Cyclostationary spectrum and detection of primary signal at different SNR values.

Keywords: Cognitive Radio, Spectrum Sensing, Cyclostationary Feature Detection, Spectrum correlation function (SCF), Digital Video Broadcasting-Terrestrial (DVB-T).




Ruchir Kumar Chauhan *, Department of Electronics, Madhav Institute of Technology and Science Gwalior, Indi; Email: chauhanruchir@gmail.com

    [1] J.Mitola, ―Cognitive radio: making software radio more personal,‖ IEEE Personal Communications, vol. 6, no. 4, pp. 13–18, 1999.
    [2] Federal Communications Commission, "Notice of Proposed Rulemaking: Unlicensed operation in the TV broadcast", ET Docket no. 04-186 (FCC 04- 113) May 2004.
    [3] W.A.Gardner, ―Signal Interception: A Unifying Theoretical Framework for Feature Detection, ‖ IEEE Trans. On Communications, vol. 36, 1988.
    [4] A. Fehske, J.D. Gaeddert, J.H. Reed, ―A new approach to signal classification using spectral correlation and neural networks,‖ Proc. IEEE DySPAN 2005, pp. 144–150, 2005.
    [5] S. M. Kay, ―Fundamentals of statistical signal processing: Detection theory, ‖ Printice Hall PTR, vol. 2, 1998.
    [6] A. Fehske, Gaeddert, H. Reed, "A new approach to signal classification using spectral correlation and neural networks", IEEE International Symposium on New Frontier in Dynamic Spectrum Access.
    [7] Danijela Cabric, Shridhar Mubaraq Mishra, Robert W. Brodersen, "Implementation issues in spectrum sensing for cognitive radios", Asilomar Conference on Signal, Systems and Computers, pp.772-774, (2004).
    [8] Kyouwoong Kim, I. A. Akbar, K. K. Bae, Jung-sun Urn, C. M. Spooner, 1. H. Reed, "Cyclostationary approaches to signal detection and classification in cognitive radio", 2nd IEEE International Symposium on New Frontiers in Dynamic Spectrum Access Networks, pp.212-215, (2007).
    [9] "DV Video Broadcasting (DYB); DYB specification for Data Broadcasting", ETSIEN: 301192.
    [10] 1. Chen, A. Gibson, and J. Zafara, "Cyclostationary Spectrum Detection in Cognitive Radios" lET seminar on Cognitive Radio and Software Defined Radio, pp. 1-5, September 2008. (2002).
    [11] Omer Ali, Fahad Nasi, Aun Ali Tahir, “Analysis of OFDM parameters using Cyclostationary spectrum sensing in Cognitive Radio” 978-1-4577-0657-8/11/$26.00 © 2011 IEEE.

Ruchir Kumar Chauhan (2015), Cyclostationary Detection Using DVB-T Signal in a Cognitive Radio System. IJEER 3(1), 1-4. DOI: 10.37391/IJEER.030101.