Low-Complexity Equalizer for OFDM Systems in Doubly-Selective Fading Channels

Low-Complexity Equalizer for OFDM Systems in Doubly-Selective Fading Channels

In this letter, we propose a computationally effient equalization technique that employs block minimum mean squared error (MMSE) depending on LDLH factorization. Parallel interference cancellation (PIC) is executed with pre- obtained output to provide more reliable symbol detection. In particular, t...

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Veröffentlicht in:IEICE Transactions on Communications 2009/03/01, Vol.E92.B(3), pp.1031-1034
Hauptverfasser: LEE, Namjeong, LEE, Hoojin, KANG, Joonhyuk, GIL, Gye-Tae
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Band structure of solids
Blocking
Cancellation
Channels
Complexity
Detection, estimation, filtering, equalization, prediction
Equalization
Equalizers
Exact sciences and technology
Factorization
Information, signal and communications theory
intercarrier interference
Miscellaneous
Multiplexing
OFDM
Orthogonal Frequency Division Multiplexing
Signal and communications theory
Signal processing
Signal, noise
Systems, networks and services of telecommunications
Telecommunications
Telecommunications and information theory
time varying channel
Transmission and modulation (techniques and equipments)
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Beschreibung
Zusammenfassung:In this letter, we propose a computationally effient equalization technique that employs block minimum mean squared error (MMSE) depending on LDLH factorization. Parallel interference cancellation (PIC) is executed with pre- obtained output to provide more reliable symbol detection. In particular, the band structure of the frequency domain channel matrix is exploited to reduce the implementation complexity. It is shown through computer simulation that the proposed technique requires lower complexity than the conventional algorithm to obtain the same performance, and that it exhibits better performance than the conventional counterpart when the same complexity is assumed.
ISSN:0916-8516
1745-1345
DOI:10.1587/transcom.E92.B.1031