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Complexity-constrained best-basis wavelet packet algorithm for image compression

 
: Marpe, D.; Cycon, H.L.; Li, W.

:

IEE proceedings. Vision, image and signal processing 145 (1998), No.6, pp.391-398
ISSN: 1350-245X
English
Journal Article
Fraunhofer HHI ()
computational complexity; data compression; discrete wavelet transforms; image coding; image representation; rate distortion theory; transform coding; best-basis wavelet packet algorithm; image compression; adapted waveform analysis; complexity constrained best-basis algorithm; wavelet transformation; wavelet packet basis; suboptimal best basis; coding efficiency; compression speed; rate-distortion performance

Abstract
The concept of adapted waveform analysis using a best-basis selection out of a predefined library of wavelet packet (WP) bases allows an efficient image representation for the purpose of compression. Image coding methods based on the best-basis WP representation have shown significant coding gains for some image classes compared with methods using a fixed dyadic structured wavelet basis, at the expense however, of considerably higher computational complexity. A modification of the best-basis method, the so-called complexity constrained best-basis algorithm (CCBB), is proposed which parameterises the complexity gap between the fast (standard) wavelet transform and the best wavelet packet basis of a maximal WP library. This new approach allows a 'suboptimal' best basis to be found with respect to a given budget of computational complexity or, in other words, it offers an instrument to control the trade-off between compression speed and, coding efficiency. Experimental results are presented for image coding applications showing a highly nonlinear relationship between the rate-distortion performance and the computational complexity in such a way that a relatively small increase in complexity with respect to the standard wavelet basis results in a relatively high rate distortion gain.

: http://publica.fraunhofer.de/documents/N-13081.html