Fitting quantization scheme to multiresolution detail preserving compression algorithm

Author

Przelaskowski, Artur

Author_Institution

Inst. of Radioelectron., Warsaw Univ. of Technol., Poland

fYear

1998

Firstpage

485

Lastpage

488

Abstract

An adaptive space-frequency quantization scheme in a scalar fashion applied to wavelet-based compression is presented. Because of strong demands due to detail preservation in lossy image archiving and transmission, as in for example medical applications, different modifications of uniform threshold quantization are considered. The main features of the elaborated procedure are as follows: fitting the threshold value to the local data characteristics in a backward way and quantization step size estimation for each subband as a forward and backward framework in the optimization procedure. Many tests conducted with a real wavelet compression scheme confirm the significant efficiency of the presented quantization procedures. The achieved total compression effectiveness is promising in spite of the simple coding algorithm

Keywords

adaptive signal processing; data compression; image coding; image resolution; optimisation; quantisation (signal); transform coding; wavelet transforms; adaptive space-frequency quantization; backward framework; coding algorithm; efficiency; forward framework; local data characteristics; lossy image archiving; lossy image transmission; medical applications; multiresolution detail preserving compression algorithm; optimization procedure; quantization step size estimation; real wavelet compression; scalar quantization; subband; tests; threshold value; uniform threshold quantization; wavelet-based compression; Biomedical equipment; Bit rate; Compression algorithms; Context modeling; Image coding; Medical services; Quantization; Spatial resolution; Testing; Wavelet domain;

fLanguage

English

Publisher

ieee

Conference_Titel

Time-Frequency and Time-Scale Analysis, 1998. Proceedings of the IEEE-SP International Symposium on

Conference_Location

Pittsburgh, PA

Print_ISBN

0-7803-5073-1

Type

conf

DOI

10.1109/TFSA.1998.721467

Filename

721467