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Embedded zerotree wavelet (EZW) coding, introduced by J. M. Shapiro, is a very effective and computationally simple technique for image compression. Here we offer an alternative explanation of the principles of its operation, so that the reasons for its excellent performance can be better understood. These principles are partial ordering by magnitude with a set partitioning sorting algorithm, ordered bit plane transmission, and exploitation of self-similarity across different scales of an image wavelet transform. Moreover, we present a new and different implementation, based on set partitioning in hierarchical trees (SPIHT), which provides even better performance than our previosly reported extension of the EZW that surpassed the performance of the original EZW. The image coding results, calculated from actual file sizes and images reconstructed by the decoding algorithm, are either comparable to or surpass previous results obtained through much more sophisticated and computationally complex methods. In addition, the new coding and decoding procedures are extremely fast, and they can be made even faster, with only small loss in performance, by omitting entropy coding of the bit stream by arithmetic code.

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A new, fast, and efficient image codec based on set partitioning in hierarchical trees

Said

Pearlman

1996

IEEE Trans. Circuits Syst. Video Technol.

4,508

440

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An image multiresolution representation for lossless and lossy compression

Said

Pearlman

1996

IEEE Trans. on Image Process.

545

225

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We propose a new image multiresolution transform that is suited for both lossless (reversible) and lossy compression. The new transformation is similar to the subband decomposition, but can be computed with only integer addition and bit-shift operations. During its calculation, the number of bits required to represent the transformed image is kept small through careful scaling and truncations. Numerical results show that the entropy obtained with the new transform is smaller than that obtained with predictive coding of similar complexity. In addition, we propose entropy-coding methods that exploit the multiresolution structure, and can efficiently compress the transformed image for progressive transmission (up to exact recovery). The lossless compression ratios are among the best in the literature, and simultaneously the rate versus distortion performance is comparable to those of the most efficient lossy compression methods.

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Efficient, Low-Complexity Image Coding With a Set-Partitioning Embedded Block Coder

Pearlman

Islam

Nagaraj

et al. 2004

IEEE Trans. Circuits Syst. Video Technol.

328

184

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<title>Steganalysis of additive-noise modelable information hiding</title>

2003

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William A. Pearlman

A New Fast/Efficient Image Codec Based on Set Partitioning in Hierarchical Trees

A new, fast, and efficient image codec based on set partitioning in hierarchical trees

An image multiresolution representation for lossless and lossy compression

Efficient, Low-Complexity Image Coding With a Set-Partitioning Embedded Block Coder

<title>Steganalysis of additive-noise modelable information hiding</title>

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