Conference proceedings article
Recursive spatial multiplexing in the presence of time-variant co-channel interference

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Shah, I.; Hunziker, T.; Edlich, T.; Dahlhaus, D.
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Communications and Vehicular Technology in the Benelux (SCVT), 2010 17th IEEE Symposium on

We investigate the performance of a closed-loop multiple-input multiple-output (MIMO) architecture featuring recursive spatial multiplexing (RSM) in the presence of co-channel interference. RSM is effective even when the MIMO channel varies arbitrarily from frame to frame transmission. The RSM scheme evades the noise enhancement inherent in zero forcing (ZF) and minimum mean squared error (MMSE) based receivers and also avoids the increasing complexity that arises in V-BLAST receivers. Using Monte-Carlo simulations, it turns out that RSM outperforms the conventional ZF and MMSE receivers and is an interesting approach in the presence of co-channel interference.

closed-loop multiple-input multiple-output architecture, cochannel interference, frame to frame transmission, Interchannel interference, least mean squares methods, MIMO, MIMO communication, minimum mean squared error, MMSE, Monte Carlo methods, Monte-Carlo simulations, Multiplexing, Noise, noise enhancement, Receiving antennas, recursive spatial multiplexing, RSM, space division multiplexing, time-variant co-channel interference, Transmitting antennas, V-BLAST receivers, zero forcing

Last updated on 2019-25-07 at 18:19