Title :
Low-Complexity Near-Optimal Decoding for Analog Joint Source Channel Coding Using Space-Filling Curves
Author :
Fresnedo, Oscar ; Vazquez-Araujo, F.J. ; Castedo, Luis ; Garcia-Frias, J.
Author_Institution :
Dept. of Electron. & Syst., Univ. of A Coruna, A Coruna, Spain
Abstract :
Analog Joint Source-Channel Coding (JSCC) is a communication strategy that does not follow the separation principle of conventional digital systems but approaches the optimal distortion-cost tradeoff over AWGN channels. Conventional Maximum Likelihood (ML) analog JSCC decoding schemes suffer performance degradation at low Channel Signal to Noise Ratio (CSNR) values, while Minimum Mean Square Error (MMSE) decoding presents high complexity. In this letter we propose an alternative two step decoding approach which achieves the near-optimal performance of MMSE decoding at all CSNR values while maintaining a low complexity comparable to that of ML decoding. An additional advantage of the proposed analog JSCC decoding approach is that it can also be used in Multiple Input Multiple Output (MIMO) fading channels.
Keywords :
MIMO communication; combined source-channel coding; fading channels; least mean squares methods; maximum likelihood decoding; AWGN channels; CSNR; MIMO fading channels; ML-JSCC decoding schemes; MMSE decoding; analog joint source channel coding; communication strategy; digital systems; low channel signal to noise ratio; low-complexity near-optimal decoding; maximum likelihood analog JSCC decoding schemes; minimum mean square error decoding; multiple input multiple output fading channels; optimal distortion-cost tradeoff; space-filling curves; two step decoding approach; AWGN channels; Channel coding; Complexity theory; Fading; MIMO; Maximum likelihood decoding; Analog joint source channel coding; MMSE estimation and decoding; non-linear mappings; optimum performance theoretically attainable;
Journal_Title :
Communications Letters, IEEE
DOI :
10.1109/LCOMM.2013.021913.122782
