IJWMT Vol. 5, No. 3, 1 May 2015
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OFDM, ICI cancellation, Self-cancellation, Equalization, Estimation, Windowing
This paper provides a review of various inter carrier interference cancellation methods used in Orthogonal Frequency Division Multiplexing (OFDM) in the downlink of Long Term Evolution (LTE) and in many other applications. It contains the analysis of different methods, their explanations, areas of implementation, advantages, drawbacks and finally a comparison of the methods has been made. The paper is based on the fact that during OFDM reception, the overlapping frequencies interfere due to various reasons and different methods have to be applied to avoid interference among the frequencies for a proper reception at the receiver.
Naresh Kumar, Gurleen Kaur, B.S. Sohi,"Comparative Analysis of Various Inter-Carrier Interference Cancellation Methods", IJWMT, vol.5, no.3, pp.18-32, 2015. DOI: 10.5815/ijwmt.2015.03.02
[1]Yang L, Ming C, Cheng S and Wang H. Intercarrier Interference cancellation of OFDM for Time-Varying Channels. IEEE Global Telecommunications Conference (GLOBECOM'04); 2004.
[2]Li X, Zhou R, Chakravarthy V, Hong S and Wu Z. Total Intercarrier Interference Cancellation for OFDM Mobile Communication Systems.7th IEEE Consumer Communication and Networking Conference (CCNC); 2010.
[3]Zhao Y, Haggman SG. Sensitivity to Doppler Shift and Carrier Frequency Errors in OFDM Systems -- The Consequences and Solutions. IEEE 46th Vehicular Technology Conference, volume: 3; 1996.
[4]http://pdf.aminer.org/000/274/550/cancellation_of_inter_carrier_interference_in_ofdm_systems _using_a.pdf
[5]Zhao Y, Haggman SG. Intercarrier Interference Self-Cancellation Scheme for OFDM Mobile Communication Systems. IEEE Transactions on Commincations, volume: 49, issue: 7; 2001.
[6]Fu Y, Chung KO C. A New IC1 Self-Cancellation Scheme for OFDM Systems based on a Generalized Signal Mapper. IEEE 5th International Symposium on Wireless Personal Multimedia Communications, volume: 3; 2002.
[7]Ryu HG, Li Y, Park JS. An Improved ICI Reduction Method in OFDM Communication System. IEEE Transactions on Broadcasting, volume: 51, issue: 3; 2005.
[8]Peng YH, Kuo YC, Lee GR, Wen JH. Performance Analysis of a New ICI-Self-Cancellation-Scheme in OFDM Systems. IEEE Transactions on Consumer Electronics, volume: 53, issue:4; 2007.
[9]Wen MW, Cheng X, Wei X, Ai B, Jiao BL. A Novel Effective ICI Self-Cancellation Method. IEEE Global Telecommunications Conference (GLOBECOM 2011); 2011.
[10]Chang MX. A novel algorithm of inter-subchannel interference cancellation in OFDM systems. IEEE 60th Vehicular Technology Conference (VTC2004-Fall); 2004.
[11]Sheu CR, Tseng MC, Chen CY, Lin HP. A low-complexity concatenated ICI cancellation scheme for high-mobility OFDM systems. IEEE Wireless Communications and Networking Conference (WCNC 2007); 2007.
[12]Sheu CR, Liu, JW, Huang CC. A low-complexity ICI cancellation scheme with multi-step windowing and modified SIC for high mobility OFDM systems. IEEE 71st Vehicular Technology Conference (VTC 2010-Spring); 2010.
[13]Ma CY, Liu SW, Huang CC. On Optimum Segment Combining Weight for ICI Self-Cancellation in OFDM Systems under Doubly Selective Fading Channels. IEEE 75th Vehicular Technology Conference (VTC Spring); 2012.
[14]Goel A. Phase Rotated ICI Self-Cancellation Scheme with Frequency Diversity for OFDM Systems. IEEE International Conference on Signal Processing and Communication (ICSC); 2013.
[15]Ahn J, Lee HS. Frequency domain equalization of OFDM signals over frequency non-selective Rayleigh fading channel. IEEE Electronics Letters, volume: 29, Issue: 16; 1993.
[16]PROAKIS, 1. G. Digital communications, 2nd ed, McGraw-Hill, 1989.
[17]Gi Jeon W, Hi Chang K, Soo Cho Y. Equalization Technique for Orthogonal Frequency-Division Multiplexing Systems in Time-Variant Multipath Channels. IEEE Transactions on Communications, volume: 47, issue: 1; 1999.
[18]Sun Y, Tong L. Channel Equalization for Wireless OFDM Systems with ICI and ISI. IEEE International Conference on Communications (ICC '99); 1999.
[19]Schniter P. Low-Complexity Equalization of OFDM in Doubly Selective Channels. IEEE Transactions on Signal Processing, volume: 52, Issue: 4; 2004.
[20]Rugini L, Banelli P and Leus G. Simple Equalization of Time-Varying Channels for OFDM. IEEE Communications Letters, volume: 9, issue: 7; 2005.
[21]Wang H, Chen X, Zhou S, Zhao M, Yao Y. Low-complexity ICI cancellation in frequency domain for OFDM systems in time varying multipath channels. IEICE; 2006.
[22]Muralidhar K, Kwok Hung L, Chang Liang Y. Low-complexity Equalization Methods for OFDM systems in Doubly-Selective Channels. IEEE Vehicular Technology Conference (VTC Spring 2008); 2008.
[23]Moose PH. A Technique for Orthogonal Frequency Division Multiplexing Frequency Offset Correction. IEEE Transactions on Communications, volume: 42, issue: 10; 1994.
[24]Van de Beek JJ, Sandell M, Ola B¨orjesson P. ML Estimation of Time and Frequency Offset in OFDM Systems. IEEE Transactions on Signal Processing, volume: 45, issue: 7; 1997.
[25]Munster M, Hanzo L. Second-order channel parameter estimation assisted cancellation of channel variation-induced inter-subcarrier interference in ofdm systems. IEEE International Conference on Trends in Communications (EUROCON'2001); 2001.
[26]Stamoulis A, Diggavi SN, Al-Dhahir N. Estimation of fast fading channels in OFDM. IEEE Wireless Communications and Networking Conference (WCNC2002); 2002.
[27]Negi R, Cioffi J. Pilot tone selection for channel estimation in a mobile OFDM system. IEEE Transactions on Consumer Electronics, volume: 44, issue: 3; 1998.
[28]Van de Bcck IJ, Edfon O, Sandell M, Wdson S, Bojcsson P. On channel estimation in OFDM systems. IEEE 45th Vehicular technology Conference, volume: 2; 1995.
[29]Yiicek T, Arslan H. ICI Cancellation Based Channel Estimation for OFDM Systems. IEEE Proceedings Radio and Wireless Conference (RAWCON '03); 2003.
[30]Park CJ, Im GH. Efficient cyclic prefix reconstruction for coded OFDM systems. IEEE Communications Letters, volume: 8, issue: 5; 2004.
[31]Won HC, Im GH. Iterative Cyclic Prefix Reconstruction and Channel Estimation for a STBC OFDM System. IEEE Communications Letters, volume: 9, issue: 4; 2005.
[32]Zhang L, Hong Z, Thibault L. Iterative ICI Estimation and Cancellation for Mobile OFDM Systems. IEEE 25th biennial Symposium on Communications (QBSC); 2010.
[33]Feng Y, Xu R, Zhong Z. Channel Estimation and ICI Cancellation for LTE Downlink in High-speed Railway Environment. IEEE 11th International Conference on Signal Processing (ICSP); 2012.
[34]Kumar Nishad P, Singh P. Carrier Frequency Offset Estimation in OFDM Systems. IEEE Conference on Information & Communication Technologies (ICT); 2013.
[35]Muschallik C. Improving an ofdm reception using an adaptive nyquist windowing. IEEE transactions on Consumer Electronics, volume: 42, issue: 3; 1996.
[36]Stefan H. Weinfurtner M. Optimum Nyquist Windowing in OFDM Receivers. IEEE Transactions on Communications, volume: 49, issue: 3; 2001.
[37]Tan P, Beaulieu NC. Reduced ICI in OFDM Systems Using the "Better Than" Raised-Cosine Pulse. IEEE Commincations Letters, volume: 8, Issue: 3; 2004.
[38]Beaulieu NC, Tan P. Receiver Windowing for Reduction of ICI in OFDM Systems with Carrier Frequency Offset. IEEE Global Telecommunications Conference (GLOBECOM '05); 2005.
[39]Mohanty S, Das S. A Comparative Study of Pulse Shaping Functions for ICI Power Reduction in OFDM System. Annual IEEE India Conference (INDICON 2008); 2008.