English

Space-time codes with controllable ML decoding complexity for any number of transmit antennas

Information Theory 2012-05-22 v2 math.IT

Abstract

We construct a class of linear space-time block codes for any number of transmit antennas that have controllable ML decoding complexity with a maximum rate of 1 symbol per channel use. The decoding complexity for MM transmit antennas can be varied from ML decoding of 2log2M12^{\lceil \log_2M \rceil -1} symbols together to single symbol ML decoding. For ML decoding of 2log2Mn2^{\lceil \log_2M \rceil - n} (n=1,2,...n=1,2,...) symbols together, a diversity of min(M,2log2Mn+1)\min(M,2^{\lceil \log_2M \rceil-n+1}) can be achieved. Numerical results show that the performance of the constructed code when 2log2M12^{\lceil \log_2M \rceil-1} symbols are decoded together is quite close to the performance of ideal rate-1 orthogonal codes (that are non-existent for more than 2 transmit antennas).

Keywords

Cite

@article{arxiv.cs/0701129,
  title  = {Space-time codes with controllable ML decoding complexity for any number of transmit antennas},
  author = {Naresh Sharma and Pavan R. Pinnamraju and Constantinos B. Papadias},
  journal= {arXiv preprint arXiv:cs/0701129},
  year   = {2012}
}

Comments

5 pages, to appear in ISIT, June 2007, Nice, France