DocumentCode
1992869
Title
Wavelet transform image coding using vector quantization
Author
Barlaud, M. ; Mathieu, P. ; Antonini, M.
Author_Institution
Lab. de Signaux et Syst., Nice, France
fYear
1989
fDate
6-8 Sep 1989
Firstpage
103
Lastpage
104
Abstract
Summary form only given. A novel scheme for image compression is proposed. Wavelet transform is used to obtain a set of orthonormal subclasses of images. Wavelets are functions that allow the construction of an orthonormal basis of L 2(R ). The wavelet functions are well localized both in the space and frequency domains. The original image is decomposed on this orthonormal basis with a pyramidal algorithm architecture using quadrature mirror filters. This classification approach separates images (vectors) into perceptually distinct classes and thus matches the visual system model. The wavelet coefficients of each class are then vector quantized. The algorithm is based on a clustering approach and on the minimization of a distortion measure such as mean-squared error (MSE). A global codebook design unfortunately results in edge smoothing
Keywords
analogue-digital conversion; encoding; picture processing; transforms; wave equations; MSE; bit allocation; codebook; computational complexity; distortion measure; image coding; image compression; mean-squared error; orthonormal basis; orthonormal subclasses; pyramidal algorithm architecture; quadrature mirror filters; vector quantization; visual system model; wavelet coefficients; wavelet functions; wavelet transform; Clustering algorithms; Filters; Frequency domain analysis; Image coding; Mirrors; Vector quantization; Visual system; Wavelet coefficients; Wavelet domain; Wavelet transforms;
fLanguage
English
Publisher
ieee
Conference_Titel
Multidimensional Signal Processing Workshop, 1989., Sixth
Conference_Location
Pacific Grove, CA
Type
conf
DOI
10.1109/MDSP.1989.97056
Filename
97056
Link To Document