Title :
Hadamard-based soft decoding for vector quantization over noisy channels
Author :
Skoglund, Mikael ; Hedelin, Per
Author_Institution :
Dept. of Signals Sensors & Syst., R. Inst. of Technol., Stockholm, Sweden
fDate :
3/1/1999 12:00:00 AM
Abstract :
We present an estimator-based, or soft, vector quantizer decoder for communication over a noisy channel. The decoder is optimal according to the mean-square error criterion, and Hadamard-based in the sense that a Hadamard transform representation of the vector quantizer is utilized in the implementation of the decoder. An efficient algorithm for optimal decoding is derived. We furthermore investigate suboptimal versions of the decoder, providing good performance at lower complexity. The issue of joint encoder-decoder design is considered both for optimal and suboptimal decoding. Results regarding the channel distortion and the structure of a channel robust code are also provided. Through numerical simulations, soft decoding is demonstrated to outperform hard decoding in several aspects
Keywords :
Hadamard transforms; decoding; entropy codes; least mean squares methods; noise; optimisation; source coding; telecommunication channels; vector quantisation; Hadamard transform representation; Hadamard-based soft decoding; MMSE decoder; block source encoding; channel distortion; channel robust code structure; efficient algorithm; entropy encoding; estimator-based VQ; hard decoding; joint encoder-decoder design; mean-square error criterion; noisy channels; numerical simulations; optimal decoding; performance; suboptimal decoder; suboptimal decoding; vector quantization; vector quantizer decoder; Channel coding; Decoding; Delay systems; Information theory; Noise robustness; Numerical simulation; Signal processing; Signal processing algorithms; Table lookup; Vector quantization;
Journal_Title :
Information Theory, IEEE Transactions on
