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ICASSP
2011
IEEE

Generalized geometric mean decomposition and DFE MMSE transceiver design for cyclic prefix systems

13 years 4 months ago
Generalized geometric mean decomposition and DFE MMSE transceiver design for cyclic prefix systems
This paper considers the decomposition of a complex matrix as the product of several sets of semi-unitary matrices and upper triangular matrices in iterative manner. The inner most triangular matrix has its diagonal elements equal to the geometric mean of the singular values of the complex matrix. This decomposition, generalized geometric mean decomposition (GGMD), has one order less complexity than the geometric mean decomposition (GMD) if the target matrix is a diagonal matrix. GGMD can be used to design the optimal decision feedback equalizer (DFE) MMSE transceiver for arbitrary multi-input-multi-output (MIMO) channels. The GGMD transceiver shares the same performance as the transceiver designed by using GMD. For the applications over cyclic pre x system, the GGMD transceiver has K/ log2(K) times lower complexity1 than the GMD transceiver, where K is the number of subchannels and is a power of 2.
Chih-Hao Liu, Palghat P. Vaidyanathan
Added 20 Aug 2011
Updated 20 Aug 2011
Type Journal
Year 2011
Where ICASSP
Authors Chih-Hao Liu, Palghat P. Vaidyanathan
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