Title :
Multiple trellis coded frequency and phase modulation
Author :
Periyalwar, Shalini S. ; Fleisher, Solomon M.
Author_Institution :
Dept. of Electr. Eng., Tech. Univ. of Nova Scotia, Halifax, NS, Canada
fDate :
6/1/1992 12:00:00 AM
Abstract :
Multiple trellis coded modulation of constant envelope frequency and phase modulated signal sets (MTCM/FPM) is investigated for performance on the additive white Gaussian noise (AWGN) channel and on the one-sided normal, Rayleigh and Rician fading channels. The Nakagami- m fading model is used as an alternative to the Rician fading model to calculate the error probability upper bound for trellis-coded schemes on the fading channel. The likeliness and the disparity between the upper bounds to the error probability for the two fading models are discussed. The design criteria for the one-sided normal fading channel, modeled by the Nakagami-m distribution, are observed to be the same as those for the Rayleigh-fading channel. For the MTCM/FPM schemes, it is demonstrated that the set partitioning designed to maximize symbol diversity (optimum for fading channels) is optimum for performance on the AWGN channel as well. The MTCM/FPM schemes demonstrate improved performance over MTCM/MPSK schemes and TCM/FPM schemes on the AWGN channel and the fading channel
Keywords :
error correction codes; error statistics; fading; frequency modulation; phase modulation; telecommunication channels; white noise; AWGN channel; MTCM/FPM schemes; Nakagami-m distribution; Nakagami-m fading model; Rayleigh-fading channel; Rician fading channels; TCM; additive white Gaussian noise; error probability upper bound; frequency modulation; one-sided normal fading channel; phase modulation; symbol diversity maximisation; trellis coded modulation; AWGN channels; Additive white noise; Error probability; Fading; Frequency; Modulation coding; Phase modulation; Rayleigh channels; Rician channels; Upper bound;
Journal_Title :
Communications, IEEE Transactions on
