DocumentCode
1169627
Title
Zero-forcing equalization for OFDM systems over doubly-selective fading channels using frequency domain redundancy
Author
Chen, Shaoping ; Dai, Guangfa ; Tianren Yen
Author_Institution
Dept. of Electron. & Inf. Eng., South-Central Univ. for Nat., Wuhan, China
Volume
50
Issue
4
fYear
2004
Firstpage
1004
Lastpage
1008
Abstract
Rapid variations of doubly-selective fading channels lead to the loss of orthogonality among subcarriers, resulting in inter-carrier interference (ICI) in orthogonal frequency division multiplexing (OFDM) systems. In this scenario, the one-tap frequency-domain equalizer is not applicable any more. Based on an ICI analysis in both time- and frequency-domain, we propose a novel zero-forcing equalizer (ZFE) for OFDM systems over doubly-selective channels using the existing frequency domain redundancy in many OFDM standards. To deal with the zero-forcing equalizer´s disadvantage of noise amplification, which causes system performance degradation when there exist deep s in the channel´s frequency response, we also provide the MMSE-based optimization of ZFE coefficients in the presence of channel noise. We show that ZFE matrix has a sparse structure, and thus a low computational complexity. Simulation results indicate that the proposed equalizer is capable of suppressing ICI effectively with a low complexity.
Keywords
OFDM modulation; computational complexity; equalisers; fading channels; interference suppression; least mean squares methods; mobile radio; optimisation; radiofrequency interference; time-frequency analysis; MMSE-based optimization; OFDM systems; computational complexity; doubly-selective fading channels; frequency domain redundancy; frequency response; frequency-domain analysis; intercarrier interference; interference suppression; noise amplification; one-tap frequency-domain equalizer; orthogonal frequency division multiplexing; time-domain analysis; zero-forcing equalization; Computational complexity; Degradation; Equalizers; Fading; Frequency domain analysis; Frequency response; Interference; OFDM; Sparse matrices; System performance;
fLanguage
English
Journal_Title
Consumer Electronics, IEEE Transactions on
Publisher
ieee
ISSN
0098-3063
Type
jour
DOI
10.1109/TCE.2004.1362491
Filename
1362491
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