CFP last date
20 June 2024
Reseach Article

Error Rate Performance Analysis of OFDM System over Nakagami-n and Nakagami-q Distributions

Published on September 2011 by Mukesh Kumar Mishra, Hemant Singh Ajal, Ravi Kumar
Innovative Conference on Embedded Systems, Mobile Communication and Computing
Foundation of Computer Science USA
ICEMC2 - Number 1
September 2011
Authors: Mukesh Kumar Mishra, Hemant Singh Ajal, Ravi Kumar
cefbb057-bdcc-4396-adb3-3fae0bafae79

Mukesh Kumar Mishra, Hemant Singh Ajal, Ravi Kumar . Error Rate Performance Analysis of OFDM System over Nakagami-n and Nakagami-q Distributions. Innovative Conference on Embedded Systems, Mobile Communication and Computing. ICEMC2, 1 (September 2011), 20-23.

@article{
author = { Mukesh Kumar Mishra, Hemant Singh Ajal, Ravi Kumar },
title = { Error Rate Performance Analysis of OFDM System over Nakagami-n and Nakagami-q Distributions },
journal = { Innovative Conference on Embedded Systems, Mobile Communication and Computing },
issue_date = { September 2011 },
volume = { ICEMC2 },
number = { 1 },
month = { September },
year = { 2011 },
issn = 0975-8887,
pages = { 20-23 },
numpages = 4,
url = { /proceedings/icemc2/number1/3519-icemc005/ },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Proceeding Article
%1 Innovative Conference on Embedded Systems, Mobile Communication and Computing
%A Mukesh Kumar Mishra
%A Hemant Singh Ajal
%A Ravi Kumar
%T Error Rate Performance Analysis of OFDM System over Nakagami-n and Nakagami-q Distributions
%J Innovative Conference on Embedded Systems, Mobile Communication and Computing
%@ 0975-8887
%V ICEMC2
%N 1
%P 20-23
%D 2011
%I International Journal of Computer Applications
Abstract

The Orthogonal Frequency Division Multiplexing (OFDM) is a multicarrier modulation technique becomes very popular because of its advance used in VLSI. Today it is used in many wireless standards such as WLAN, DAB and ETSI Hiperlan/2.In wireless communication system multi path propagation impairments can be reduce the error rate performance of the system. In this paper, the error rate performance of the OFDM system over Nakagami-n and Nakagami-q fading channels has been investigated. Further these results have been used to evaluate the threshold value of fading figure n and q based on error rate and SNR.

References
  1. P. H. Moose, "A technique for orthogonal frequency division multiplexing frequency offset correction "IEEE Trans. Comm., vol. 42, pp. 2908 - 2914, Oct.1994.
  2. T. M. Schmidl and D. C. Cox, "Robust frequency and timing synchronization for OFDM," IEEE Trans. Comm., vol. 45, pp. 1613 - 1621, Dec. 1997.
  3. Richard V. Nee, Ramjee Prasad, “OFDM for Wireless Multimedia. Communications,” Artech House, 2000.
  4. V. Dwivedi, G. Singh “Improved BER Analysis of OFDM Communication System on Correlated Nakagami-m Fading Channel”, Proceedings of International Conference on Microwave, pp. 536-539, 2008.
  5. K Sathananthan., C .Tellambura, "Probability of error calculation of OFDM systems with frequency offset," IEEE Trans. Comm., vol. 49, pp. 1884-1888, Nov.2001.
  6. J Zhang, L.Yang, X.L. and L. Hanzo, “ Inter-Carrier Interference Analysis of OFDM Systems Communicating Over Rapidly-Fading Nakagami-m Channels” ,IEEE Ninth International Symposium on Spread Spectrum Techniques and Applications, pp. 79-83, 2006.
  7. Neji Youssef, Cheng-Xiang Wang and Matthias P¨atzold, “A Study on the Second Order Statistics of Nakagami-Hoyt Mobile Fading Channels”, IEEE Trans on Veh.Tech., vol. 54, no. 4, pp.1259-1265, July 2005.
  8. Marvin K. Simon, Mohamed- Slim Alouini, Digital Communication over Fading Channels, John Willy & Sons,2000.
  9. J. G. Proakis, Digital Communications, 3rd ed. New York: McGraw-Hill, 1995.
  10. S. O. Rice, “Statistical properties of a sine wave plus random noise,” Bell Syst. Tech. J., vol. 27, pp. 109–157, Jan. 1948.
  11. R. S. Hoyt, ’’Probability function for the modulus and angle of the normal complex variate’’ Bell syst. Tech. J., Vol 26, pp 318- 359, Apr. 1947.
  12. K Sathananthan., C .Tellambura, "Probability of error calcul -ation of OFDM systems with frequency offset,"IEEE Trans. Comm., vol. 49, pp. 1884-1888, Nov.2000.
  13. A. Goldsmith. Wireless Communications: EE359 Course Reader. pp 209-216. Fall 2002.
  14. L. Tomba, W. A. Krzymien. ”A Model for the Analysis of Timing Jitter in OFDM Systems”, IEEE Intl. Conf. on Comm. vol. 3, pp. 1227-1231, 1998.
  15. M. X. Chang, Y. T. Su “Performance Analysis of Equalized OFDM Systems in Rayleigh Fading”, IEEE Trans. Wireless Comm. vol. 1, pp. 721-732, Oct. 2002.
  16. Neetu Sood, Ajay K Sharma, Moin Uddin, “BER Performance of OFDM-BPSK and -QPSK over Nakagami-m Fading Channels” , Proc of 2nd IEEE IACC-2010, pp 88-90, Feb. 2010.
  17. Zheng du, Julian Cheng and N.C. Beaulieu, “Accurate Error Rate Performance Analysis of OFDM on Frequency Selective Nakagami-m Fading Channels,” IEEE Trans. on communications.vol. 54, no. 2, pp 319-328, Feb. 2006.
  18. Zhangyong Ma and Young-il- Kim, “A Novel OFDM receiver in Flat Fading Channel,” IEEE Conference on advanced communication Technology, ICACT, Vol. 2, pp. 1052-54, 2005.
  19. Mukesh Kumar Mishra, Neetu Sood, Ajay K Sharma, “BER Performance of OFDM-BPSK System over Nakagami Fading Channels”, International Journal of Computer Applications (IJCA),vol. 17 no.8,pp.1-3,March 2011.
Index Terms

Computer Science
Information Sciences

Keywords

OFDM Fading distribution Nakagami-m distribution Nakagami-n distribution Nakagami-q distribution Rayleigh Fading