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Performance of MIMO Techniques to Achieve Full Diversity and Maximum Spatial Multiplexing
 

Summary: Performance of MIMO Techniques to Achieve Full
Diversity and Maximum Spatial Multiplexing
Enis Akay, Ersin Sengul, and Ender Ayanoglu
Center for Pervasive Communications and Computing
Department of Electrical Engineering and Computer Science
The Henry Samueli School of Engineering
University of California, Irvine
Irvine, California 92697-2625
Email: eakay@uci.edu, esengul@uci.edu, ayanoglu@uci.edu
Abstract-- In this paper, we analyze the performance of bit
interleaved coded multiple beamforming (BICMB). We provide
interleaver design criteria such that the resulting system achieves
full spatial multiplexing of min(N, M) and full spatial diversity
of NM for a system with N transmit and M receive antennas. We
combined BICMB with OFDM in order to combat ISI caused by
the frequency selective channels. The resulting system, named as
BICMB-OFDM, achieves full spatial multiplexing of min(N, M),
while maintaining full spatial and frequency diversity of NML
for a N ŚM system over L-tap frequency selective channels when
an appropriate convolutional code is used. Both systems analyzed

  

Source: Ayanoglu, Ender - Department of Electrical and Computer Engineering, University of California, Irvine

 

Collections: Engineering