Title :
Advances in residual vector quantization: a review
Author :
Barnes, Christopher F. ; Rizvi, Syed A. ; Nasrabadi, Nasser M.
Author_Institution :
Georgia Tech. Res. Inst., Georgia Inst. of Technol., Atlanta, GA, USA
fDate :
2/1/1996 12:00:00 AM
Abstract :
Advances in residual vector quantization (RVQ) are surveyed. Definitions of joint encoder optimality and joint decoder optimality are discussed. Design techniques for RVQs with large numbers of stages and generally different encoder and decoder codebooks are elaborated and extended. Fixed-rate RVQs, and variable-rate RVQs that employ entropy coding are examined. Predictive and finite state RVQs designed and integrated into neural-network based source coding structures are revisited. Successive approximation RVQs that achieve embedded and refinable coding are reviewed. A new type of successive approximation RVQ that varies the instantaneous block rate by using different numbers of stages on different blocks is introduced and applied to image waveforms, and a scalar version of the new residual quantizer is applied to image subbands in an embedded wavelet transform coding system
Keywords :
decoding; entropy codes; finite state machines; image coding; neural nets; reviews; source coding; transform coding; vector quantisation; embedded coding; embedded wavelet transform coding system; entropy coding; finite state RVQs; fixed-rate RVQ; image subbands; image waveforms; instantaneous block rate; joint decoder optimality; joint encoder optimality; neural-network based source coding structures; predictive RVQs; refinable coding; residual quantizer; residual vector quantization; review; successive approximation RVQ; variable-rate RVQ; Cost function; Decoding; Entropy coding; Product codes; Source coding; Terminology; Transform coding; Vector quantization;
Journal_Title :
Image Processing, IEEE Transactions on
