Title :
An information theoretic model for adaptive lossy compression
Author :
Zamir, Ram ; Rose, Kenneth
Author_Institution :
Dept. of Electron. Eng. Syst., Tel Aviv Univ., Israel
Abstract :
We investigate the underlying mechanism of universal sequential, fixed distortion, lossy source coding algorithms, through the “eyes” of a random code. We model the adaptive codebook as a “mixed type” random code whose codeword type distribution evolves with time while its dimension goes to infinity. The evolution law in our model has a structure of a tree; a type inherits its frequency in the code from its parent-types matching probabilities. We find that this mechanism naturally selects the “good” codeword types for compressing the (unknown) source. As a consequence, the code becomes optimal for the source, and approaches the rate-distortion function as the time, and hence the dimension, go to infinity. Beyond its analytical interest, this model also provides guidelines for developing lossy string matching (Lempel-Ziv-like) algorithms
Keywords :
adaptive codes; rate distortion theory; sequential codes; source coding; string matching; tree data structures; Lempel-Ziv algorithm; adaptive codebook; adaptive lossy compression; data compression; information theoretic model; lossy string matching algorithms; mixed type random code; parent-types matching probabilities; random code; rate-distortion function; source coding algorithms; tree structure; universal sequential coding; Algorithm design and analysis; Compression algorithms; Frequency; Guidelines; H infinity control; Pressing; Rate-distortion; Source coding; Speech analysis; Speech coding;
Conference_Titel :
Electrical and Electronics Engineers in Israel, 1996., Nineteenth Convention of
Conference_Location :
Jerusalem
Print_ISBN :
0-7803-3330-6
DOI :
10.1109/EEIS.1996.566958
