Low complexity linear MMSE equalization, channel decoding and estimation for frequency selective fast fading channels

Author

Abdellah, Berdai ; Chouinard, Jean-Yves

Author_Institution

Lab. de Radiocommun. et de Traitement du Signal (LRTS), Univ. Laval Ste-Foy, Quebec City, QC, Canada

fYear

2011

fDate

9-11 May 2011

Firstpage

79

Lastpage

82

Abstract

The present work focuses on low complexity (LC) Linear Minimum Mean Square Error (LMMSE) schemes in conjunction with the existing paradigm of turbo equalization (TE). As a consequence, the LC LMMSE equalizer was extended to new scenarios with unknown frequency selective fast fading Rayleigh channels. In this paper, the generalized Valenti and Woerner estimator is coupled with a LMMSE and LC LMMSE equalizer and used to accurately estimate the channel. Extrinsic information transfer (EXIT) charts are computed for the resulting TE to predict the decoding and equalization convergence behaviour. In addition, a comparison between TE using LC LMMSE and LMMSE equalizer is performed using bit error rate (BER) performance simulations.

Keywords

Rayleigh channels; channel estimation; decoding; equalisers; error statistics; least mean squares methods; turbo codes; Rayleigh channels; Valenti estimator; Woerner estimator; bit error rate; channel decoding; channel estimation; extrinsic information transfer charts; frequency selective fast fading channels; linear MMSE equalization; linear minimum mean square error; turbo equalization; Bit error rate; Channel estimation; Decoding; Equalizers; Fading; Frequency modulation; Iterative decoding;

fLanguage

English

Publisher

ieee

Conference_Titel

Systems, Signal Processing and their Applications (WOSSPA), 2011 7th International Workshop on

Conference_Location

Tipaza

Print_ISBN

978-1-4577-0689-9

Type

conf

DOI

10.1109/WOSSPA.2011.5931418

Filename

5931418