Title :
Approximating Rate-Distortion Graphs of Individual Data: Experiments in Lossy Compression and Denoising
Author :
De Rooij, Steven ; Vitányi, Paul M B
Author_Institution :
Centrum Wiskunde & Inf. (CWI), Amsterdam, Netherlands
fDate :
3/1/2012 12:00:00 AM
Abstract :
Classical rate-distortion theory requires specifying a source distribution. Instead, we analyze rate-distortion properties of individual objects using the recently developed algorithmic rate-distortion theory. The latter is based on the noncomputable notion of Kolmogorov complexity. To apply the theory we approximate the Kolmogorov complexity by standard data compression techniques, and perform a number of experiments with lossy compression and denoising of objects from different domains. We also introduce a natural generalization to lossy compression with side information. To maintain full generality we need to address a difficult searching problem. While our solutions are therefore not time efficient, we do observe good denoising and compression performance.
Keywords :
data compression; graph theory; image denoising; search problems; Kolmogorov complexity; algorithmic rate distortion theory; data compression technique; image denoising; lossy compression; natural generalization; rate distortion graph; search problem; source distribution; Approximation methods; Complexity theory; Mice; Noise; Noise reduction; Pixel; Rate-distortion; Compression; Kolmogorov complexity.; denoising; rate-distortion; structure function;
Journal_Title :
Computers, IEEE Transactions on
