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30 May 2000 New method for reducing boundary artifacts in block-based wavelet image compression
Jianxin Wei, Mark R. Pickering, Michael R. Frater, John F. Arnold
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Proceedings Volume 4067, Visual Communications and Image Processing 2000; (2000) https://doi.org/10.1117/12.386560
Event: Visual Communications and Image Processing 2000, 2000, Perth, Australia
Abstract
The wavelet transform is usually performed on a whole image. However when the amount of memory available for the transformation is limited, the input image is partitioned into non-overlapping blocks and then each block is processed independently. Quantization, that typically follows the transformation procedure in a compression system, inevitably introduces distortion, which becomes especially pronounced along the boundaries of the blocks. In this paper we show that a significant reduction in these block boundary artifacts can be achieved by choosing odd block sizes given by 2N + 1 rather than the conventional even block sizes given by 2N. We show that, for the same coefficient entropy, an image compressed using 17 X 17 blocks of wavelet coefficients has at least 1 dB higher PSNR than an image compressed using 16 X 16 blocks of wavelet coefficients.
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Jianxin Wei, Mark R. Pickering, Michael R. Frater, and John F. Arnold "New method for reducing boundary artifacts in block-based wavelet image compression", Proc. SPIE 4067, Visual Communications and Image Processing 2000, (30 May 2000); https://doi.org/10.1117/12.386560
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Cited by 4 scholarly publications and 3 patents.
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KEYWORDS
Image compression
Wavelets
Discrete wavelet transforms
Image processing
Quantization
Distortion
Image filtering
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