基于矢量量化的医学图像分块分割

Proceedings of 16th Annual International Conference of the IEEE Engineering in Medicine and Biology Society Pub Date : 1994-11-03 DOI:10.1109/IEMBS.1994.412185

T. Adalı, Y. Wang, N. Gupta

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引用次数: 7

摘要

提出了一种新的基于矢量量化的医学图像分割和建模方案，该方案的响应速度非常快，并且可以避免计算中的局部最小值。特征向量由分块图像上的局部直方图定义，局部直方图用正态分布近似。这是一种适用于医学图像的特征提取方法，因为大多数医学图像都是短期相关的色调图像。在此框架中，选择最小的相对熵作为特征向量与模板之间有意义的距离度量。然后通过块分类期望算法进行分割，并通过多分辨率过程进行改进。用模拟和真实医学图像对该学习方法进行了性能测试，结果表明该方法是一种高效的分割方案。

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Block-wise segmentation via vector quantization for medical image analysis

We present a new segmentation and modeling scheme for medical images based on vector quantization which yields very fast responses and can avoid local minima in the computation. The feature vectors are defined by the local histogram on a block partioned image, and the local histograms are approximated by normal distributions. This is a suitable feature extraction for medical images since most are tone images with short-term correlation. Within this framework, the least relative entropy is chosen as the meaningful distance measure between the feature vectors and the templates. The segmentation is then performed by a block-wise classification-expectation algorithm, and is improved by a multiresolution procedure. The performance of this learning technique is tested with both simulated and real medical images, and is shown to be a highly efficient segmentation scheme.<>

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Proceedings of 16th Annual International Conference of the IEEE Engineering in Medicine and Biology Society

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