Title :
T-BLAST for wireless communications: first experimental results
Author :
Sellathurai, Mathini ; Haykin, Simon
Author_Institution :
McMaster Univ., Hamilton, Ont., Canada
fDate :
5/1/2003 12:00:00 AM
Abstract :
In earlier papers , we described a novel multitransmit, multireceive (MTMR) antenna system for wireless communications. This new system, turbo Bell-Labs layered space-time (T-BLAST) architecture, combines the benefits of layered space-time coding concepts and turbo principles in the multitransmit, multireceive antenna system design. In particular, the random layered space-time codes designed by using a set of block convolutional codes and random space-time interleavers and the space-time turbo-like decoding operation allow T-BLAST to realize the benefits of MTMR systems in a computationally feasible manner. The goal of this paper is to present experimental results of T-BLAST based on real-life data collected using the Bell-Labs experimental multiple antenna system with eight transmit and five and six receive antennas. The experimental results show the practical virtues of T-BLAST.
Keywords :
antenna arrays; block codes; cellular radio; convolutional codes; decoding; interleaved codes; random codes; receiving antennas; space-time codes; transmitting antennas; turbo codes; Bell-Labs; T-BLAST; antenna system design; block convolutional codes; cellular radio systems; experimental multiple antenna system; multitransmit multireceive antenna; random layered space-time codes; random space-time interleavers; receive antennas; space-time turbo-like decoding; transmit antennas; turbo Bell-Labs layered space-time architecture; wireless communications; Communications technology; Convolutional codes; Decoding; Interference cancellation; Mobile antennas; Receiving antennas; Technological innovation; Terminology; Transmitting antennas; Wireless communication;
Journal_Title :
Vehicular Technology, IEEE Transactions on
DOI :
10.1109/TVT.2003.810986
