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Convergent algorithms for successive approximation vector quantisation with applications to wavelet image compression

Convergent algorithms for successive approximation vector quantisation with applications to wavelet image compression

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Embedded wavelet coders have become very popular in image compression applications, owing to their simplicity and high coding efficiency. Most of them incorporate some form of successive approximation scalar quantisation. Recently developed algorithms for successive approximation vector quantisation have been shown to be capable of outperforming successive approximation scalar quantisation ones. In the paper, some algorithms for successive approximation vector quantisation we analysed. Results that were previously known only on an experimental basis are derived analytically. An improved algorithm is also developed and is proved to be convergent. These algorithms are applied to the coding of wavelet coefficients of images. Experimental results show that the improved algorithm is more stable in a rate×distortion sense, while maintaining coding performances compatible with the state-of-the-art.

Inspec keywords: vector quantisation; convergence of numerical methods; image coding; wavelet transforms; rate distortion theory; transform coding

Other keywords: successive approximation vector quantisation; rate-distortion performance; convergent algorithms; image coding; embedded wavelet coders; wavelet image compression

Subjects: Computer vision and image processing techniques; Integral transforms in numerical analysis; Image and video coding; Integral transforms in numerical analysis

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