基于混合多分辨率统计方法的三维医学体分割

Shadi Alzu'bi, A. Amira
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引用次数: 36

摘要

三维体分割是将体素划分为代表有意义的物理实体的三维区域(子体)的过程,这些物理实体更有意义,更容易在未来的应用中分析和使用。多分辨率分析(MRA)可以根据一定的分辨率或模糊程度来保存图像。由于具有多分辨率的特性,小波被广泛应用于图像压缩、去噪和分类等领域。本文主要研究高效医学体分割技术的实现。利用三维小波和脊波等多分辨率分析方法进行特征提取,并利用隐马尔可夫模型(hmm)对体切片进行分割。进行了一项比较研究,以评估2D和3D技术,揭示了3D方法可以准确地检测感兴趣区域(ROI)。利用hmm实现了对感兴趣点的自动分割,虽然可以准确地检测到感兴趣点,但其计算时间较长。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
3D Medical Volume Segmentation Using Hybrid Multiresolution Statistical Approaches
3D volume segmentation is the process of partitioning voxels into 3D regions (subvolumes) that represent meaningful physical entities which are more meaningful and easier to analyze and usable in future applications. Multiresolution Analysis (MRA) enables the preservation of an image according to certain levels of resolution or blurring. Because of multiresolution quality, wavelets have been deployed in image compression, denoising, and classification. This paper focuses on the implementation of efficient medical volume segmentation techniques. Multiresolution analysis including 3D wavelet and ridgelet has been used for feature extraction which can be modeled using Hidden Markov Models (HMMs) to segment the volume slices. A comparison study has been carried out to evaluate 2D and 3D techniques which reveals that 3D methodologies can accurately detect the Region Of Interest (ROI). Automatic segmentation has been achieved using HMMs where the ROI is detected accurately but suffers a long computation time for its calculations.
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