Title :
Improved 16-QAM constellation labeling for BI-STCM-ID with the Alamouti scheme
Author :
Huang, Yuheng ; Ritcey, James A.
Author_Institution :
Dept. of Electr. Eng., Univ. of Washington, Seattle, WA, USA
Abstract :
We design constellation labeling maps for bit-interleaved space-time coded modulation with iterative decoding (BI-STCM-ID) over Rayleigh block-fading channels using the Alamouti scheme and Nr receive antennas. To achieve the largest asymptotic coding gain from the constellation labeling, we propose a new design criterion that maximizes the (-2Nr)-th power mean of the squared Euclidean distances associated with all "error-free feedback" events in the constellation. Based on this power mean criterion, we show that the labeling optimization problem falls into the category of quadratic assignment problems. We propose two novel 16-QAM labeling maps that are particularly designed for Nr=1 and Nr=2, respectively. Numerical results show that both labeling maps achieve about 1 dB coding gain over the conventional 16-QAM modified set partitioning labeling.
Keywords :
Rayleigh channels; channel coding; interleaved codes; iterative decoding; modulation coding; numerical analysis; quadratic programming; quadrature amplitude modulation; space-time codes; 16-QAM labeling maps; Alamouti scheme; BI-STCM-ID; QAP; Rayleigh block-fading channel; bit-interleaved space-time coded modulation; error-free feedback event; iterative decoding; labeling optimization problem; quadratic assignment problems; quadrature amplitude modulation; receive antennas; squared Euclidean distance; Bit error rate; Constellation diagram; Gain; Iterative decoding; Labeling; MIMO; Modulation coding; Optical modulation; Receiving antennas; Transmitters;
Journal_Title :
Communications Letters, IEEE
DOI :
10.1109/LCOMM.2005.02002
