3D scalable lossless compression of medical images based on global and local symmetries

Authors:
Victor Sanchez;Rafeef Abugharbieh;Panos Nasiopoulos
Affiliations:
Electrical and Computer Engineering, The University of British Columbia, Canada;Electrical and Computer Engineering, The University of British Columbia, Canada;Electrical and Computer Engineering, The University of British Columbia, Canada
Venue:
ICIP'09 Proceedings of the 16th IEEE international conference on Image processing
Year:
2009

Citing 2
Cited 0

Shape analysis and symmetry detection in gray-level objects using the analytical Fourier-Mellin representation

Signal Processing
High performance scalable image compression with EBCOT

IEEE Transactions on Image Processing

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Abstract

We recently proposed a symmetry-based scalable lossless compression method for 3D medical images using the 2D integer wavelet transform and the embedded block coder with optimized truncation (EBCOT). In this paper, we present two major contributions that enhance our early work: 1) a new block-based intra-band prediction method that exploits the global and local symmetries of the wavelet-transform sub-bands based on the main axis of symmetry as detected using the analytical Fourier-Mellin transform; and 2) a new inter-slice DPCM prediction method that exploits the correlation between slices. Performance evaluations on real 3D medical images show an average improvement of up to 17% in lossless compression ratios when compared to the state-ofthe-art compression methods including 3D-JPEG2000, JPEG2000 and H.264 intra-coding.