Title :
Noncoherently detected trellis-coded partial response CPM on mobile radio channels
Author :
Yiin, Lihbor ; Stüber, Gordon L.
Author_Institution :
AT&T Microelectron., Allentown, PA, USA
fDate :
8/1/1996 12:00:00 AM
Abstract :
A noncoherent receiver is proposed for partial response trellis-coded continuous phase modulation (TC-CPM) on interleaved flat Rician-fading channels. By using a multiple-symbol observation interval and a simple metric calculator, the power efficiency is improved over a receiver that uses a single-symbol observation interval. Performance bounds on the bit error probability are derived by defining a set of characteristic distances for CPM signals, and showing that TC-CPM is equivalent to a TCM scheme. Our results show that, with the same observation length, the proposed receiver is less than 0.5 dB inferior to a coherent receiver for which perfect channel information is needed. We also conclude that in terms of joint power-bandwidth complexity, 2RC is the best candidate for rate-1/2 TCM codes
Keywords :
Rician channels; continuous phase modulation; error statistics; fading; interleaved codes; land mobile radio; partial response channels; probability; radio receivers; trellis coded modulation; 2RC; bit error probability; continuous phase modulation; interleaved flat Rician-fading channels; joint power-bandwidth complexity; mobile radio channels; multiple-symbol observation interval; noncoherent receiver; noncoherently detected trellis-coded partial response CPM; observation length; performance bounds; power efficiency; rate-1/2 TCM codes; receiver; simple metric calculator; AWGN; Continuous phase modulation; Convolutional codes; Demodulation; Detectors; Error probability; Land mobile radio; Maximum likelihood decoding; Phase detection; Receivers;
Journal_Title :
Communications, IEEE Transactions on
