Title :
Simple universal lossy data compression schemes derived from the Lempel-Ziv algorithm
Author :
Yang, En-Hui ; Kieffer, John C.
Author_Institution :
Dept. of Math., Nankai Univ., Tianjin, China
fDate :
1/1/1996 12:00:00 AM
Abstract :
Two universal lossy data compression schemes, one with fixed rate and the other with fixed distortion, are presented, based on the well-known Lempel-Ziv algorithm. In the case of fixed rate R, the universal lossy data compression scheme works as follows: first pick a codebook Bn consisting of all reproduction sequences of length n whose Lempel-Ziv codeword length is ⩽nR, and then use Bn to encode the entire source sequence n-block by n-block. This fixed-rate data compression scheme is universal in the sense that for any stationary, ergodic source or for any individual sequence, the sample distortion performance as n→∞ is given almost surely by the distortion rate function. A similar result is shown in the context of fixed distortion lossy source coding
Keywords :
rate distortion theory; sequences; source coding; Lempel-Ziv algorithm; codebook; distortion rate function; fixed distortion; fixed distortion lossy source coding; fixed rate distortion; reproduction sequences; sample distortion performance; source sequence; stationary ergodic source; universal lossy data compression schemes; Additive noise; Communication channels; Convolutional codes; Data compression; Educational institutions; Error correction; Gaussian channels; Notice of Violation; Source coding; Viterbi algorithm;
Journal_Title :
Information Theory, IEEE Transactions on
