Title :
Low-complexity MMSE turbo equalization: a possible solution for EDGE
Author :
Laot, Christophe ; Le Bidan, Raphaël ; Leroux, Dominique
Author_Institution :
GETENST Bretagne, Signal & Commun. Dept., Brest, France
fDate :
5/1/2005 12:00:00 AM
Abstract :
This paper deals with a low complexity receiver scheme where equalization and channel decoding are jointly optimized in an iterative process. We derive the theoretical transfer function of the infinite length linear minimum mean square error (MMSE) equalizer with a priori information. A practical implementation is exposed which employs the fast Fourier transform (FFT) to compute the equalizer coefficients, resulting in a low-complexity receiver structure. The performance of the proposed scheme is investigated for the enhanced general packet radio service (EGPRS) radio link. Simulation results show that significant power gains may be achieved with only a few (3-4) iterations. These results demonstrate that MMSE turbo equalization is an attractive candidate for single-carrier broadband wireless transmissions in long delay-spread environments.
Keywords :
broadband networks; channel coding; computational complexity; equalisers; fading channels; fast Fourier transforms; intersymbol interference; iterative decoding; least mean squares methods; mobile communication; packet radio networks; radio links; radio receivers; turbo codes; EDGE; General Packet Radio Service; a priori information; broadband wireless transmission; channel decoding; channel equalization; delay-spread environment; fading channel; fast Fourier transform; intersymbol interference; iterative decoding; iterative process; low complexity receiver scheme; low-complexity MMSE turbo equalization; minimum mean square error equalizer; mobile communication; optimization; radio link; transfer function; Computational modeling; Delay; Equalizers; Fast Fourier transforms; Iterative decoding; Mean square error methods; Packet radio networks; Radio link; Receivers; Transfer functions; Fading channels; intersymbol interference (ISI); iterative decoding; mobile communication; turbo equalization;
Journal_Title :
Wireless Communications, IEEE Transactions on
DOI :
10.1109/TWC.2005.847095
