Authors: Shrikrishan Yadav, Akhilesh Saini, Krishna Chandra Roy

Abstract:

The electromagnetic spectrum is a natural resource and hence well-organized usage of the limited natural resources is the necessities for better communication. The present static frequency allocation schemes cannot accommodate demands of the rapidly increasing number of higher data rate services. Therefore, dynamic usage of the spectrum must be distinguished from the static usage to increase the availability of frequency spectrum. Cognitive radio is not a single piece of apparatus but it is a technology that can incorporate components spread across a network. It offers great promise for improving system efficiency, spectrum utilization, more effective applications, reduction in interference and reduced complexity of usage for users. Cognitive radio is aware of its environmental, internal state, and location, and autonomously adjusts its operations to achieve designed objectives. It first senses its spectral environment over a wide frequency band, and then adapts the parameters to maximize spectrum efficiency with high performance. This paper only focuses on the analysis of Bit-Error-Rate in cognitive radio by using Particle Swarm Optimization Algorithm. It is theoretically as well as practically analyzed and interpreted in the sense of advantages and drawbacks and how BER affects the efficiency and performance of the communication system.

Keywords: BER, Cognitive Radio, Environmental Parameters, PSO, Radio spectrum, Transmission Parameters

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1072640

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References:

[1] P. Mannion, "Smart radios stretch spectrum," in Electronic Engineering Times (EETimes), vol. 2006: A Global Sources and CMP joint venture, 2006.
[2] www.ebooksdownloadfree.com/.../cognitive-radio-technology-Bruce Fette.
[3] www.ebooksdownloadfree.com/.../ Particle Swarm Optimization and swarm intelligence by Kennedy and Eberhart.
[4] J. Mitola, "Cognitive radio: An integrated agent architecture for software defined radio," Doctor of Technology, Royal Inst. Technol. (KTH), Stockholm, Sweden, 2000.
[5] T. R. Shields, "SDR Update," Global Standards Collaboration, Sophia Antipolis, France, Powerpoint Presentation GSC10_grsc3(05)20, 28 August - 2 September 2005.
[6] P. Kolodzy, "Definition of Cognitive Radios." Hoboken, NJ: Wireless Network Security Center (WiNSeC) of the Stevens Institute of Technology, 2005.
[7] K. Nolan and J. Grosspietsch, "Cognitive Radio WG," SDR Forum, Brussels, Belgium, Powerpoint Presentation 14 September 2005.
[8] Digham, F., M. Alouini, and M. Simon. 2003. On the energy detection of unknown signals over fading channels. Proc. IEEE Int. Conf. on Communications. 5: 3575-3579.
[9] Digham,F., M. Alouini, and M. Simon. 2007. On the Energy Detection of Unknown Signals Over Fading Channels IEEE Transactions on Communications 55: 21-24
[10] Federal Communications Commission-s, "Spectrum policy task force report (ET Docket No. 02-135)," Nov. 2002.
[11] S. Haykin, "Cognitive radio: brain-empowered wireless communications," IEEE Journal on Selected Areas in Communications, vol. 23, pp. 201-220, Feb. 2005.
[12] S. K. Yadav, K. C. Roy, "Tradeoff analysis of bit-error-rate in cognitive radio based on genetic algorithm", International Journal of Computer Science Issues (IJCSI), Vol. 9, Issue 1, No 3, January 2012, 1694-0814
[13] H. Poor, An Introduction to Signal Detection and Estimation. New York: Springer-Verlag, 1985, ch. 4.
[14] P. Kolodzy et al., "Next generation communications: Kickoff meeting," in Proc. DARPA, Oct. 17, 2001.
[15] M. McHenry, "Frequency agile spectrum access technologies," in FCC Workshop Cogn. Radio, May 19, 2003.
[16] G. Staple and K. Werbach, "The end of spectrum scarcity," IEEE Spectrum, vol. 41, no. 3, pp. 48-52, Mar. 2004.
[17] J. Mitola et al., "Cognitive radio: Making software radios more personal," IEEE Pers. Commun., vol. 6, no. 4, pp. 13-18, Aug. 1999.
[18] A. Ralston and E. D. Reilly, Encyclopedia of Computer Science. New York: Van Nostrand, 1993, pp. 186-186.
[19] R. Pfeifer and C. Scheier, Understanding Intelligence. Cambridge, MA: MIT Press, 1999, pp. 5-6.
[20] M. A. Fischler and O. Firschein, Intelligence: The Brain, and the Computer, ser. MA. Reading: Addison-Wesley, 1987, p. 81.
[21] B. Fette, "Technical challenges and opportunities," presented at the Conf. Cogn. Radio, Las Vegas, NV, Mar. 15-16, 2004.
[22] J. Mitola, Ed., "Special issue on software radio," in IEEE Commun. Mag., May 1995.
[23] Software Defined Radio: Origins, Drivers, and International Perspectives, W. Tuttlebee, Ed., Wiley, New York, 2002.
[24] Software Defined Radio: Architectures, Systems and Functions,M.Milliger et al., Eds., Wiley, New York, 2003.
[25] FCC, Cognitive Radio Workshop, May 19, 2003,
[Online].Available: http://www.fcc.gov/searchtools.html.
[26] Proc. Conf. Cogn. Radios, Las Vegas, NV, Mar. 15-16, 2004. York: Springer-Verlag, 1999.
[27] Kennedy, J., Eberhart, R. C., & Shi, Y., 2001, Swarm Intelligence. Morgan Kaufmann Publishers, San Francisco, CA
[28] Kennedy, J. & Eberhart, R. C., 1995, "Particle Swarm Optimization." In Proceeding of the IEEE International Conference on Neural Networks, Perth, Australia, IEEE Service Center, 12-13.