Title :
Coding of sources with two-sided geometric distributions and unknown parameters
Author :
Merhav, Neri ; Seroussi, Gadiel ; Weinberger, Marcelo J.
Author_Institution :
Dept. of Electr. Eng., Technion-Israel Inst. of Technol., Haifa, Israel
fDate :
1/1/2000 12:00:00 AM
Abstract :
Lossless compression is studied for a countably infinite alphabet source with an unknown, off-centered, two-sided geometric (TSG) distribution, which is a commonly used statistical model for image prediction residuals. We demonstrate that arithmetic coding based on a simple strategy of model adaptation, essentially attains the theoretical lower bound to the universal coding redundancy associated with this model. We then focus on more practical codes for the TSG model, that operate on a symbol-by-symbol basis, and study the problem of adaptively selecting a code from a given discrete family. By taking advantage of the structure of the optimum Huffman tree for a known TSG distribution, which enables simple calculation of the codeword of every given source symbol, an efficient adaptive strategy is derived
Keywords :
adaptive codes; arithmetic codes; image coding; source coding; statistical analysis; TSG distribution; arithmetic coding; codeword; efficient adaptive strategy; image prediction residuals; infinite alphabet source; lossless coding; lossless compression; low complexity codes; lower bound; model adaptation; off-centered geometric distribution; optimum Huffman tree; source coding; source symbol; statistical model; two-sided geometric distributions; universal coding redundancy; Adaptation model; Arithmetic; Context modeling; Data compression; Decoding; Image coding; Laboratories; Predictive models; Probability; Solid modeling;
Journal_Title :
Information Theory, IEEE Transactions on
