Universal space-time codes from two-dimensional trellis codes

C. Kose, R.D. Wesel
IEEE Global Telecommunications Conference, 2004. GLOBECOM '04.  
In the absence of accurate channel probability distribution information or in broadcast scenarios, code design for consistent channel-by-channel performance, rather than average performance, may be desirable. Root and Varaiya's compound channel theorem promises the existence of universal codes that operate with a consistent proximity to channel mutual information on any instance of the compound linear vector Gaussian channel that is similar to the capacity gap of an AWGN-specific code with
more » ... ar complexity on the AWGN channel. This study presents single-dimensional trellis codes such that when multiplexed over two, three and four transmit antennas, provide universal performance over the compound linear vector Gaussian channel. As a result of their channel-by-channel consistency, the universal trellis codes presented here deliver comparable or in some cases superior frame-error-rate and bit-errorrate performance under quasistatic Rayleigh fading to trellis codes of similar complexity that are designed specifically for the quasistatic Rayleigh fading scenario.
doi:10.1109/glocom.2004.1377976 dblp:conf/globecom/KoseW04 fatcat:emagqgd5xjhhnmbsljswztzrou