Title :
Effective SNR for space-time modulation over a time-varying Rician channel
Author :
Peel, Christian B. ; Swindlehurst, A. Lee
Author_Institution :
Electr. & Comput. Eng. Dept., Brigham Young Univ., Provo, UT, USA
Abstract :
Rapid temporal variations in wireless channels pose a significant challenge for space-time modulation and coding algorithms. This letter examines the performance degradation that results when time-varying flat fading is encountered when using trained and unitary space-time modulation. Performance is characterized for a channel having a constant specular component plus a time-varying diffuse component. A first-order autoregressive (AR) model is used to characterize diffuse channel coefficients that vary from symbol to symbol, and is shown to lead to an effective signal-to-noise ratio (SNR) that decreases with time. Differential modulation is shown to have an advantage in effective SNR over trained unitary modulation at high power. Simulation results are provided to support our analysis.
Keywords :
Rician channels; antenna arrays; autoregressive processes; channel coding; modulation; space-time codes; time-varying channels; coding algorithms; constant specular component; differential modulation; diffuse channel coefficients; effective signal-to-noise ratio; first-order autoregression model; flat fading channel; multiple antennas; performance degradation; rapid temporal variations; space-time modulation; time-varying Rician channel; time-varying diffuse component; trained modulation; wireless channels; Additive noise; Bit error rate; Channel estimation; Fading; Modulation coding; Phase shift keying; Rician channels; Signal to noise ratio; Time-varying channels; Wireless communication;
Journal_Title :
Communications, IEEE Transactions on
DOI :
10.1109/TCOMM.2003.822148
