Title :
Capacity-Achieving CPM Schemes
Author :
Perotti, Alberto ; Tarable, Alberto ; Benedetto, Sergio ; Montorsi, Guido
Author_Institution :
Dipt. di Elettron., Politec. di Torino, Torino, Italy
fDate :
4/1/2010 12:00:00 AM
Abstract :
The pragmatic approach to coded continuous-phase modulation (CPM) is proposed as a capacity-achieving low-complexity alternative to the serially concatenated CPM (SC-CPM) coding scheme. In this paper, we first perform a selection of the best spectrally efficient CPM modulations to be embedded into SC-CPM schemes. Then, we consider the pragmatic capacity (a.k.a. BICM capacity) of CPM modulations and optimize it through a careful design of the mapping between input bits and CPM waveforms. The so obtained schemes are cascaded with an outer serially concatenated convolutional code to form a pragmatic coded-modulation system. The resulting schemes exhibit performance very close to the CPM capacity without requiring iterations between the outer decoder and the CPM demodulator. As a result, the receiver exhibits reduced complexity and increased flexibility due to the separation of the demodulation and decoding functions.
Keywords :
concatenated codes; convolutional codes; decoding; modulation coding; decoding; demodulation; pragmatic coded-modulation system; serially concatenated continuous-phase modulation coding scheme; serially concatenated convolutional code; Baseband; Concatenated codes; Convolutional codes; Demodulation; Design optimization; Iterative decoding; Modulation coding; Phase modulation; Radio frequency; Robustness; Continuous-phase modulation (CPM); iterative decoding; pragmatic coded modulation; serial concatenation; spectral efficiency;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2010.2040861
