Survey of Orthogonal Frequency Division Multiplexing
|International Journal of Engineering Trends and Technology (IJETT)||
|© 2017 by IJETT Journal|
|Year of Publication : 2017|
|Authors : Sandeep Shrivastava, Alok Jain, Ram Kumar Soni
|DOI : 10.14445/22315381/IJETT-V50P203|
Sandeep Shrivastava, Alok Jain, Ram Kumar Soni "Survey of Orthogonal Frequency Division Multiplexing", International Journal of Engineering Trends and Technology (IJETT), V50(1),12-16 August 2017. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group
In the development of wireless communication technology Orthogonal frequency division multiplexing (OFDM) played significant roll. In this paper author is trying to incorporate the complete journey of development of OFDM technique since its inception. This complete development probably helps researchers to understand the growth of wireless Communication. Probably inclusion of limitations will also help to understand the simultaneous development of other technologies parallel to OFDM.
 Wong and Lok, Chapter-04, Theory of Digital Communication, University of florida.
 Tan P., “A Comparison of DCT-Based OFDM and DFT- Based OFDM in Frequency Offset and Fading Channels”, IEEE transactions on Communications, Volume 54, No. 11, November 2006
Beek V. D., J. J., Sandell, M., & Borjesson,“ ML estimation of time and frequency offset in OFDM systems” IEEE Transactions on Signal Processing, 45(7), 1800–1805, 1997.
 Tureli, U., Kivanc, D., & Liu, H. “Experimental and analytical studies on a high-resolution OFDM carrier frequency offset estimator” IEEE Transactions on Vehicular Technology, 50(2), 629–643, 2001.
 Fernandez-Getino Garcia, M. J., Edfors, O., &Paez - Borrallo, J. M., “Frequency offset correction for coherent OFDM in wireless systems. IEEE Transactions on Consumer Electronics”, 47(1), 187–193, 2001.
 Luise, M., Marselli, M., & Reggiannini, R. “Low-complexity blind carrier frequency recovery for OFDM signals over frequency-selective radio channels”, IEEE Transactions on Communications, 50(7),1182–1188, 2002.
 Ahn, J. & Lee, H. S. “Frequency domain equalization of OFDM signal over frequency non-selective Rayleigh fading channels”, IEEE Electronics Letters, 29(16), 1476–1477, 1993.
Muschallik, C. “Improving an OFDM reception using an adaptive Nyquist windowing”, IEEE Transactions on Consumer Electronics, 42(3), 259–269, 1996.
 Zhao, Y., & Häggman, S. G.,“Intercarrier interference self-cancellation scheme for OFDM mobile communication systems”, IEEE Transactions on Communications, 49(7), 1185–119, 2001.
Sathananthan, K., &Rajatheva, R. M. A. P., “ Analysis of OFDM in the presence of frequency offset and a method to reduce performance degradation”. In Proceedings of global telecommunications 2001.
 Soni Ram Kumar, Jain Alok, Saxena Rajiv, “An optimized transmultiplexer using Combinational window functions” Signal, Image and Video Processing, Springer, vol. 5, pp.389-397,2010.
SoniRam Kumar, JainAlok, SaxenaRajiv, “An improved and simplified design of pseudo-transmultiplexer using Blackman window family”, Digital Signal Processing, Elsevier, vol. 20, issue 3, pp. 743-749,2010.
 Kang H., Kim Y., Hwang W. Kim K., “BER performance of OFDM system with the polynomial self- cancellation scheme for OFDM mobile communication system ”,Proc IEEE APPCC/OECC, 701-704, china, 1999.
Zhao Y., Haggman S.G., “Inter Carrier interference self-cancellation scheme for OFDM mobile communication systems”, IEEE transaction on communications 49(7), 1185-1191, 2001.
 Yeh H.G., Chang Y.K., “A conjugate operation for mitigate inter-carrier interference of OFDM system”, Vehicular Technology conference 3965-3969, 2004.
 Tang J., Zhang P., “A method of ICI cancellation for OFDM with delay Diversity”, Electrical Electronics Engineering, 6(4), pp. 521-527, Higher Education Press and Springer-verlag Berlin Heidelberg 2011.
 Yung-Yi Wang, Wei-Wei Chen, “A kernel-Based ICI self-Cancellation Scheme using constrained subcarrier combiners ” , pp 142-150, Signal Processing, Elsevier, February 2014.
 ] M. Raja, P. Muthuchidambaranathan, “ A Novel Nonlinear Constellation Precoding for OFDM System with Subcarrier Grouping”, pp 867-884, Wireless Personal Communication, Springer, May 2013.
 Y. Shang, D. Wang, Xia, “ Signal Space Diversity techniques with fast decoding based on MDS codes”, pp 2525-2536, Communications, IEEE Transaction, 2010.
 Saxena R., Joshi H.D., “ICI Reduction in OFDM System Using IMBH Pulse Shapes”, Wireless Personal Communication, pp. 2895-2911, Springer, December 2012.
 M. Mahmudul Hasan, “PAPR Reduction in OFDM Systems Based on Autoregressive Filtering”, Springer Circuits Systems Signal process, December 2013.
 Neill R. O., Lopes L.B., “Envelop variation and spectral splatter in clipped multicarrier signals”, in Proc. IEEEPIMRC’95, Toronto, Canada, pp. 71-75, September 1995.
 Ju S.M., Leung S.H., “Clipping on COFDM with phase on demand”, IEEE Communication Letters, Volume 07, No.02 PP. 49-51, February 2003.
 Ginige T., Rajatheva N., Ahmed K. M., “Dynamic Spreading Code Selection Method for PAPR reduction in OFDM-CDMA Systems with 4-QAM modulation”, IEEE Communication Letter, Volume 05, No.10, PP. 408-410, October 2001.
 Yang K., Chang S., “Peak-to-Average Power Control in OFDM using standard array of linear block codes”, IEEE Communication Letters, Volume 07, No. 04, pp. 174-176, April 2003.
 Tellado J., “Peak to Average Power Ratio Reduction for multi-carrier Modulation”, PhD thesis, University of Stanford, Stanford 1999.
 Heo S.J., Noh H.S., No J.S., Shin D.J., “A modified SLM Scheme with low complexity for PAPR reduction of OFDM systems”, IEEE transaction Broadcasting, Volume 53, No. 04, pp. 804-808, December 2007.
 Lim D.W., No J.S., Lim C.W. and Chung H., “A new SLM scheme with low complexity of PAPR reduction”, IEEE Signal Processing Leteers, Volume 12, No. 02, pp. 93-96, February 2005.
 Yang L., Chen R.S.,Siu Y.M. Soo K.K., “PAPR reduction of an OFDM signal by use of PTS with low computational Complexity”, IEEE transaction Broadcasting, Volume 52, No. 01, pp. 83-86, March 2006.
 Han S.H., Lee J.H., “PAPR reduction of OFDM signals using a reduced complexity PTS technique”, IEEE Signal Processing Letters, Volume 11, pp. 887-890, November 2004.
 Chou H.J., Lin P.Y., Lin J.S., “PAPR reduction Techniques with Hybrid SLM-PTS Schemes for OFDM Systems”,pp. 1-5, Vehicular technology conference (VTC spring), IEEE 2012.
 M. Park, J. Heeyong, J. Cho, D. Hong, C. Kong, “PAPR reduction in OFDM transmission using Hadamard transform”,pp 430-433, IEEE international conference on communication (Vol. 1), 2000.
 I. Baig, V. Jeoti, “A new DTH Precoding based interleaved- OFDMA uplink system with improved PAPR for 4G cellular network”, pp 685-684, Journal of Engineering & Technology (JESTEC), 2011.
 I. Baig, V. Jeoti, “A ZCMT precoding based multicarrier OFDM system to minimize the high PAPR”, pp-1135-1145, Wireless Personal Communication, Springer, 2013.
 Md. Mahmudul Hasan, “VLM precoded SLM Technique for PAPR reduction in OFDM Systems”,pp 791-801, Wireless Personal Communication, Springer, May 2013.
OFDM, ISI, ICI, PAPR.