Title :
Generalized PSK in space-time coding
Author_Institution :
Dept. of Math., Univ. of British Columbia, Vancouver, BC, Canada
fDate :
5/1/2005 12:00:00 AM
Abstract :
A wireless communication system using multiple antennas promises reliable transmission under Rayleigh flat fading assumptions. Design criteria and practical schemes have been presented for both coherent and noncoherent communication channels. In this paper, we generalize one-dimensional (1-D) phase-shift keying (PSK) signals and introduce space-time constellations from generalized PSK (GPSK) signals based on the complex and real orthogonal designs. The resulting space-time constellations reallocate the energy for each transmitting antenna and feature good diversity products; consequently, their performances are better than some of the existing comparable codes. Moreover, since the maximum-likelihood (ML) decoding of our proposed codes can be decomposed to 1-D PSK signal demodulation, the ML decoding of our codes can be implemented in a very efficient way.
Keywords :
Rayleigh channels; antenna arrays; maximum likelihood decoding; modulation coding; phase shift keying; space-time codes; telecommunication network reliability; transmitting antennas; Rayleigh flat fading assumption; generalized PSK; maximum-likelihood decoding; multiple antennas; noncoherent communication channel; phase-shift keying signal; signal demodulation; space-time coding; space-time constellation; transmitting antenna; wireless communication system; Channel capacity; Constellation diagram; Fading; Mathematics; Maximum likelihood decoding; Phase shift keying; Rayleigh channels; Receiving antennas; Transmitters; Transmitting antennas; Diversity; multiple antennas; orthogonal designs; phase-shift keying (PSK); space–time coding;
Journal_Title :
Communications, IEEE Transactions on
DOI :
10.1109/TCOMM.2005.847166
