Lossy-to-Lossless Compression of Biomedical Images Based on Image Decomposition

Matos, Luís M. O.; Neves, António J. R.; Pinho, Armando J.

doi:10.5772/60650

Applications of Digital Signal Processing Through Practical Approach 2015

DOI: 10.5772/60650

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Lossy-to-Lossless Compression of Biomedical Images Based on Image Decomposition

Luís M. O. Matos¹,

António J. R. Neves²,

Armando J. Pinho³

Abstract: The use of medical imaging has increased in the last years, especially with magnetic resonance imaging (MRI) and computed tomography (CT). Microarray imaging and images that can be extracted from RNA interference (RNAi) experiments also play an important role for large-scale gene sequence and gene expression analysis, allowing the study of gene function, regulation, and interaction across a large number of genes and even across an entire genome. These types of medical image modalities produce huge amounts of d… Show more

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2024

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Cited by 1 publication

References 26 publications

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PC-bzip2: a phase-space continuity-enhanced lossless compression algorithm for light-field microscopy data

Su,

Lin,

Zhou

et al. 2024

Adv. Photon. Nexus

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Light-field fluorescence microscopy (LFM) is a powerful elegant compact method for long-term highspeed imaging of complex biological systems, such as neuron activities and rapid movements of organelles. LFM experiments typically generate terabytes of image data and require a substantial amount of storage space. Some lossy compression algorithms have been proposed recently with good compression performance. However, since the specimen usually only tolerates low-power density illumination for longterm imaging with low phototoxicity, the image signal-to-noise ratio (SNR) is relatively low, which will cause the loss of some efficient position or intensity information using such lossy compression algorithms. Here, we propose a phase-space continuity-enhanced bzip2 (PC-bzip2) lossless compression method for LFM data as a high-efficiency and open-source tool that combines graphics processing unit-based fast entropy judgment and multicore-CPU-based high-speed lossless compression. Our proposed method achieves almost 10% compression ratio improvement while keeping the capability of high-speed compression, compared with the original bzip2. We evaluated our method on fluorescence beads data and fluorescence staining cells data with different SNRs. Moreover, by introducing temporal continuity, our method shows the superior compression ratio on time series data of zebrafish blood vessels.

show abstract

PC-bzip2: a phase-space continuity-enhanced lossless compression algorithm for light-field microscopy data

Su,

Lin,

Zhou

et al. 2024

Adv. Photon. Nexus

View full text Add to dashboard Cite

show abstract

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Lossy-to-Lossless Compression of Biomedical Images Based on Image Decomposition

Cited by 1 publication

References 26 publications

PC-bzip2: a phase-space continuity-enhanced lossless compression algorithm for light-field microscopy data

PC-bzip2: a phase-space continuity-enhanced lossless compression algorithm for light-field microscopy data

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