Title :
On Reduced Complexity Decoding Algorithms for STBC-MTCM in Fast Fading Channels
Author :
Liu, Daniel N. ; Fitz, Michael P.
Author_Institution :
Dept. of Electr. Eng., California Los Angeles Univ., CA
Abstract :
STBC-MTCM scheme which achieves high rate, full diversity and large coding gains is an outstanding example of transmit diversity scheme for multiple-antenna system. In the case of time selective fast fading (TSFF) or frequency selective fading (FSF) channels, the performance of current existing STBC-MTCM decoder suffers from an irreducible error floor. In this paper, we present two computational efficient decoding algorithms: zero-forcing (ZF) detector and linear minimum mean square error (LMMSE) detector to combat the fast fading channels. The proposed decoding algorithms provide a robust performance across range of channel conditions from quasi-static (slow) fading to TSFF or FSF. Simulation results suggest that our proposed decoding algorithms have near maximum-likelihood (ML) performance while being computational more efficient
Keywords :
MIMO communication; antenna arrays; block codes; demodulation; diversity reception; fading channels; least mean squares methods; matrix algebra; maximum likelihood decoding; space-time codes; trellis coded modulation; LMMSE detector; MIMO channel; STBC-MTCM decoder; coding gains; frequency selective fading channels; linear minimum mean square error detector; maximum-likelihood performance; multiple-antenna system; reduced complexity decoding algorithms; time selective fast fading channels; transmit diversity scheme; zero-forcing detector; Computational efficiency; Computational modeling; Detectors; Fading; Frequency; Maximum likelihood decoding; Maximum likelihood detection; Mean square error methods; Robustness; State feedback;
Conference_Titel :
Information Theory Workshop, 2006. ITW '06 Chengdu. IEEE
Conference_Location :
Chengdu
Print_ISBN :
1-4244-0067-8
Electronic_ISBN :
1-4244-0068-6
DOI :
10.1109/ITW2.2006.323841
