T.R. Hoerning scite author profile

Multi-Input Mitlti-Output (MIMO) sdvstenis have been shown to provide extremely high capacitv in non-line-ofsight channels, and are thus well suited for mobile tactical commttnications. Using Space-Time Trellis Coded vector transmission, this paper shows that Maximum Likelihood Joint Detection (MLJD) receivers provide substantial improvements over Layered Space Time (LST) appi-oaches. It is shown that in )ill-rank channels, ihe MWD approach provides signif cant SNR improvement over LST techniques. It is also shown that an MLJD receiver is much more robust in reduced rank channels. Unfortunately, these improvements come at the cost of high computational Complexity at the receiver.One way to reduce the computational complexity is to employ a hybrid approach. in which the M U D receiver is applied to groups of transmit antennas at a time, combined with an outer group-wise LST approach. Methods of performing this grouping based on channel conditions is presented and s h o w to provide a means of smoothly trading complexit,v .for peiformance. Simulations and over-the-air measurements are presented that compare various MIMO receiver techniques.

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A New Low-Complexity Demapper for High-Performance Iterative MIMO: Information-Theoretic and BER Analyses

Koshy¹,

Liberti²,

Hoerning³

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OFDM space-time trellis-coded MIMO systems with experimental results

Liberti¹,

Triolo²,

Hoerning³

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T.R. Hoerning

Iterative MIMO detector using a group-wise approach

Experimental Results Using a Mimo Test Bed for Wideband, High Spectral Efficiency Tactical Communications

OFDM space-time trellis coded MIMO systems with experimental results

A New Low-Complexity Demapper for High-Performance Iterative MIMO: Information-Theoretic and BER Analyses

OFDM space-time trellis-coded MIMO systems with experimental results

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