Title :
On the partial MAP detection with applications to MIMO channels
Author_Institution :
Sch. of Electr. Eng. & Telecommun., New South Wales Univ., Sydney, NSW, Australia
Abstract :
We investigate a multidimensional detection problem with a partial information of the a posteriori probability, which is referred to as the partial maximum a posteriori probability (MAP) detection problem. We show that the maximum likelihood (ML) detection of a higher dimension can be reduced to the ML detection of a lower dimension with cancellation under a certain condition through the formulation of the partial MAP detection problem. Using this, we can propose a computationally efficient algorithm to apply to the detection problem for multiple input multiple output (MIMO) channels including multiple transmit and multiple receive antenna (MTMR) channels and intersymbol interference (ISI) channels. It is shown that the proposed method has less error propagation effect, and its performance is close to that of the full ML detection with a lower computational complexity.
Keywords :
MIMO systems; antenna arrays; computational complexity; interference suppression; intersymbol interference; maximum likelihood detection; probability; receiving antennas; telecommunication channels; transmitting antennas; MIMO channel; computational complexity; error propagation; intersymbol interference channel; maximum a posteriori probability detection; maximum likelihood detection; multidimensional detection problem; multiple input multiple output; multiple transmit and multiple receive antenna channel; partial MAP detection; Computational complexity; Decision feedback equalizers; Interference cancellation; Intersymbol interference; MIMO; Maximum likelihood detection; Maximum likelihood estimation; Multidimensional systems; Receiving antennas; Transmitting antennas;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2004.838951
