Author :
Tran, Le Chung ; Wysocki, Tadeusz A. ; Seberry, Jennifer ; Mertins, Alfred
Abstract :
The paper examines multimodulation schemes (MMSs) to increase the rate of our two new complex orthogonal designs (CODs) proposed for eight transmit antennas, namely C1 and C2, corresponding to the Amicable Orthogonal Designs (AODs) (8;1,1,2,2;1,1,2,2) and (8;1,1,1,4;1,1,1,4), respectively. In addition, the optimal intersymbol power allocation in the proposed codes in single modulation as well as in MMSs in flat Rayleigh fading channels is considered. It turns out that, in some modulation schemes, equal power transmission per each symbol time slot is not only optimal from the technical point of view, but also optimal in terms of achieving the best symbol error probability. The principles examining the MMSs in order to increase the rate of space-time block codes (STBCs) and the optimal power allocation for multimodulated STBCs mentioned here can be generalized for STBCs of other orders without any difficulty.
Keywords :
Rayleigh channels; antennas; block codes; modulation; space-time codes; Amicable Orthogonal Designs; Rayleigh fading channel; complex orthogonal design; multimodulation scheme; optimal intersymbol power allocation; power transmission; rate space-time block code; symbol error probability; symbol time slot; transmit antenna; Australia; Block codes; Error probability; Fading; Modulation coding; Power transmission; Quadrature amplitude modulation; Rayleigh channels; Slot antennas; Transmitting antennas;
