Title :
Differential turbo-coded modulation with APP channel estimation
Author :
Howard, Heryl L. ; Schlegel, Christian
Author_Institution :
Dept. of Electr. & Comput. Eng., Alberta Univ., Edmonton, Alta.
Abstract :
A serially concatenated coding system which can operate without channel state information (CSI) with use of a simple channel-estimation technique is presented. This channel-estimation technique uses the inner decoder\´s a posteriori probability (APP) information about the transmitted symbols to form a channel estimate for each symbol interval, and is termed "APP channel estimation." The serially concatenated code is comprised of an outer rate-2/3 binary error-control code, separated by a bit interleaver from an inner code consisting of an 8-phase-shift keying (PSK) bit mapping and differential 8-PSK modulation. Coherent decoding provides bit-error rate performance 0.6 dB from 8-PSK capacity for large interleaver sizes. APP channel-estimation decoding without initial CSI over constant and random walk phase models shows near-coherent results, with fractions of a decibel performance loss for random walk and linear phase models
Keywords :
binary codes; channel estimation; concatenated codes; differential phase shift keying; error correction codes; error statistics; interleaved codes; turbo codes; 8-phase-shift keying bit mapping; APP channel estimation; a posteriori probability; binary error-control code; bit interleaver; bit-error rate performance; decibel performance loss; differential 8-PSK modulation; differential turbo-coded modulation; linear phase models; random walk phase models; serially concatenated coding system; Bit error rate; Channel estimation; Concatenated codes; Iterative decoding; Modulation coding; Performance loss; Phase locked loops; Phase modulation; Phase shift keying; Turbo codes; Channel phase estimation; differential modulation; iterative decoding; serially concatenated codes (SCCs);
Journal_Title :
Communications, IEEE Transactions on
DOI :
10.1109/TCOMM.2006.878827
