posted on 2009-12-08, 17:03authored byJoanne Foster, John McWhirter, Jonathon Chambers
An algorithm for computing the QR decomposition
of a polynomial matrix is introduced. The algorithm proceeds
to perform the decomposition by following the same strategy in
eliminating entries of the matrix as is used in the Givens method
for a QR decomposition of a scalar matrix, however polynomial
Givens rotations are now required. A possible application of the
decomposition is in MIMO communications, where it is often
required to reconstruct data sequences that have been distorted
due to the effects of co-channel interference and multipath
propagation, leading to intersymbol interference. If the channel
matrix for the system is known, its QR decomposition can be
calculated and used to transform the MIMO channel equalisation
problem into a set of single channel problems, which can then
be solved using a maximum likelihood sequence estimator. Some
simulated average bit error rate results are presented to support
the potential application to MIMO channel equalisation.
History
School
Mechanical, Electrical and Manufacturing Engineering
Citation
FOSTER, J., MCWHIRTER, J. and CHAMBERS, J., 2007. A polynomial matrix QR decomposition with application to MIMO channel equalisation. IN: Forty-First Asilomar Conference on Signals, Systems and Computers, (ACSSC 2007), Pacific Grove, California, Nov. 4-7, pp. 1379-1383