Title :
Trellis-based scalar vector quantization of sources with memory
Author :
Lee, Cheng-Chieh ; Laroia, Rajiv
Author_Institution :
Maryland Univ., College Park, MD, USA
fDate :
1/1/2000 12:00:00 AM
Abstract :
The trellis-based scalar-vector quantizer (TB-SVQ) can achieve the rate-distortion performance bound for memoryless sources. This paper extends the scope of this quantizer to coding of sources with memory. First considered is a simple extension, called the predictive TB-SVQ, which applies a closed-loop predictive coding operation in each survivor path of the Viterbi codebook search algorithm. Although the predictive TB-SVQ outperforms all other known structured fixed-rate vector quantizers, due to practical reasons, it may not approach the rate-distortion limit. A new quantization scheme motivated by the precoding idea of Laroia et al. (1993), called the precoded TB-SVQ, is also considered; the granular gain is realized by the underlying trellis code while the combination of the precoder and the SVQ structure provides the boundary gain. This new quantization scheme is asymptotically optimal and can, in principle, approach the rate-distortion bound for Markov sources
Keywords :
Markov processes; rate distortion theory; search problems; source coding; trellis codes; vector quantisation; Markov sources; TB-SVQ; Viterbi codebook search algorithm; boundary gain; closed-loop predictive coding operation; granular gain; precoded TB-SVQ; precoding; predictive TB-SVQ; rate-distortion performance bound; sources; survivor path; trellis-based scalar vector quantization; Convolutional codes; Distortion measurement; Modulation coding; Nonlinear filters; Predictive coding; Pulse modulation; Rate-distortion; Technological innovation; Vector quantization; Viterbi algorithm;
Journal_Title :
Information Theory, IEEE Transactions on
