DocumentCode
1915897
Title
Image compression based on a multipoint Taylor series representation
Author
Franssens, Ghislain ; De Maziere, Martine ; Fonteyn, Dominique ; Fussen, Didier
Author_Institution
Inst. for Space Aeronomy, Brussels, Belgium
fYear
1998
fDate
20-23 Oct 1998
Firstpage
174
Lastpage
184
Abstract
An image compression/decompression method is proposed, based on a new interpolation formula of Hermite-Birkhoff type. It is based on a function representation that uses a truncated multipoint Taylor (MT) series. Given a regularly tabulated image, first spatial derivatives (up to a chosen order) are computed by a FFT algorithm. Secondly a knot placing strategy selects sample point positions. The image values and spatial derivatives at these sample points are stored as the compressed data. Decompression is achieved by applying the MT interpolant to the compressed data. The quality of compression is user controlled by specifying the maximum order of spatial derivatives and the number of knots to be used. The method is found to be superior to JPEG in both reduction factor and quality, when reasonable smooth data is to be compressed with high accuracy. In this case, data reduction ratios in the range 10-100 can be obtained with a root mean square reconstruction error of the order of 1-2%. For compression of real-life color images it is inferior to JPEG and yields reduction ratios of about 4, at the threshold of notable picture degradation to the eye. A number of compression/decompression examples are shown
Keywords
data compression; data reduction; image coding; interpolation; series (mathematics); Hermite-Birkhoff type interpolation formula; data reduction ratios; fast Fourier transform algorith; function representation; image compression method; image decompression method; image values; knot placing strategy; picture degradation; quality; real-life color images; reduction factor; regularly tabulated image; root mean square reconstruction error; sample point positions; spatial derivatives; truncated multipoint Taylor series representation; Color; Data compression; Fractals; Humans; Image coding; Image reconstruction; Interpolation; Root mean square; Taylor series; Transform coding;
fLanguage
English
Publisher
ieee
Conference_Titel
Computer Graphics, Image Processing, and Vision, 1998. Proceedings. SIBGRAPI '98. International Symposium on
Conference_Location
Rio de Janeiro
Print_ISBN
0-8186-9215-4
Type
conf
DOI
10.1109/SIBGRA.1998.722748
Filename
722748
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