Title :
Equalization in aeronautical telemetry using multiple transmit antennas
Author :
Rice, Michael ; Afran, Md Shah ; Saquib, Mohammad
Author_Institution :
Brigham Young Univ. Provo, Provo, UT, USA
fDate :
7/1/2015 12:00:00 AM
Abstract :
This paper introduces a generalized time-reversed space-time block code (GTR-STBC) for single-carrier systems employing multiple transmit antennas and operating over frequency-selective multipath fading channels. The generalization involves unequal power allocation parameterized by ρ. The criteria for selecting the optimum ρ is minimizing the postequalizer mean-squared error for a minimum mean-squared error (MMSE) equalizer. GTR-STBC is applied to measured channel impulse responses and a simple statistical channel model. The results show that the optimum value of ρ gives the best trade-off between signal-to-noise ratio and intersymbol interference (ISI); equal power allocation may not be the optimum power allocation when channel state information is available; and the optimum profile of ρ over measured channels is significantly different than from that in statistical channel models.
Keywords :
channel coding; equalisers; fading channels; intersymbol interference; least mean squares methods; multipath channels; space telemetry; space-time block codes; statistical analysis; transient response; transmitting antennas; GTR-STBC; ISI; MMSE equalizer; aeronautical telemetry; channel impulse response measurement; equalization; frequency-selective multipath fading channel; generalized time-reversed space-time block code; intersymbol interference; minimum mean-squared error equalizer; multiple transmit antenna; postequalizer mean-squared error minimization; power allocation; signal-to-noise ratio; single-carrier system; statistical channel model; Bit error rate; Correlation; Equalizers; Frequency modulation; Resource management; Telemetry; Transmitting antennas;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
DOI :
10.1109/TAES.2015.140289
