Title :
Design of Spherical Lattice Space–Time Codes
Author :
Prasad, Narayan ; Berenguer, Inaki ; Wang, Xiaodong
Author_Institution :
NEC Labs. America, Princeton, NJ
Abstract :
In this paper, we propose a systematic procedure for designing spherical lattice (space-time) codes. By employing stochastic optimization techniques we design lattice codes which are well matched to the fading statistics as well as to the decoder used at the receiver. The decoders we consider here include the optimal albeit of highest decoding complexity maximum-likelihood (ML) decoder, the suboptimal lattice decoders, as well as the suboptimal lattice-reduction-aided (LRA) decoders having the lowest decoding complexity. For each decoder, our design methodology can be tailored to obtain low error-rate lattice codes for arbitrary fading statistics and signal-to-noise ratios (SNRs) of interest. Further, we obtain fundamental lower bounds on the error probabilities yielded by lattice and LRA decoders and characterize their asymptotic behavior.
Keywords :
channel coding; error statistics; fading channels; maximum likelihood decoding; probability; space-time codes; stochastic programming; error probability; fading channel statistics; maximum-likelihood decoder; spherical lattice space-time codes; stochastic optimization technique; suboptimal lattice decoders; suboptimal lattice-reduction decoder; Design methodology; Design optimization; Error analysis; Error probability; Fading; Lattices; Maximum likelihood decoding; Signal to noise ratio; Statistics; Stochastic processes; Lattice coder; lattice decoder; multiple-input multiple-output (MIMO) fading channels; stochastic optimization;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2008.929916
