In the case of a frequency flat multiple-input
multiple-output (MIMO) system, QR decomposition can be
applied to reduce the MIMO channel equalization problem to
a set of decision feedback based single channel equalization
problems. Using a novel technique for polynomial matrix QR
decomposition (PMQRD) based on Givens rotations, we extend
this work to frequency selective MIMO systems. A transmitter
design based on Diagonal Bell Laboratories Layered Space Time
(D-BLAST) encoding has been implemented. Turbo equalization
is utilized at the receiver to overcome the multipath delay spread
and to facilitate multi-stream data feedback. The effect of channel
estimation error on system performance has also been considered
to demonstrate the robustness of the proposed PMQRD scheme.
Average bit error rate simulations show a considerable improvement
over a benchmark orthogonal frequency division
multiplexing (OFDM) technique. The proposed scheme thereby
has potential applicability in MIMO communication applications,
particularly for TDMA systems with frequency selective channels.
History
School
Mechanical, Electrical and Manufacturing Engineering
Citation
DAVIES, M. ... et al. A polynomial QR decomposition based turbo equalization technique for frequency selective MIMO channels. IN: Proceedings of 2009 69th Vehicular Technology Conference (VTC 2009), Barcelona, Spain, 26-29 April, pp. 1-5.