Title :
Coded Modulation With Mismatched CSIT Over MIMO Block-Fading Channels
Author :
Kim, Tùng T. ; Nguyen, Khoa D. ; Fàbregas, Albert Guillén I
Author_Institution :
Dept. of Electr. Eng., Princeton Univ., Princeton, NJ, USA
Abstract :
Reliable communication over delay-constrained multiple-input multiple-output (MIMO) block-fading channels with discrete inputs and mismatched (imperfect) channel state information at the transmitter (CSIT) is studied. The CSIT mismatch is modeled as Gaussian random variables, whose variances decay as a power of the signal-to-noise ratio (SNR). A special focus is placed on the large-SNR decay of the error and outage probabilities when power control with long-term power constraints is used. Without explicitly characterizing the corresponding power allocation algorithms, we derive the outage exponent as a function of the system parameters, including the CSIT noise variance exponent and the exponent of the peak power constraint. It is shown that CSIT, even if noisy, is always beneficial and leads to important gains in terms of exponents.
Keywords :
MIMO communication; error statistics; fading channels; modulation coding; CSIT mismatch; CSIT noise variance exponent; Gaussian random variables; MIMO block-fading channels; SNR decay; channel state information; coded modulation; delay-constrained multiple-input multiple-output channel; error probability; long-term power constraints; outage probability; peak power constraint exponent; power allocation algorithms; power control; signal-to-noise ratio; transmitter; Fading; MIMO; Noise measurement; Power control; Signal to noise ratio; Transmitters; Coded modulation; MIMO systems; discrete input; diversity methods; large-deviation analysis; singleton bound;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2010.2070250
