Bias field estimation and adaptive segmentation of MRI data using a modified fuzzy C-means algorithm

M. N. Ahmed, S. Yamany, A. Farag, T. Moriarty
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引用次数: 73

Abstract

In this paper, we present a novel algorithm for adaptive fuzzy segmentation of MRI data and estimation of intensity inhomogeneities using fuzzy logic. MRI intensity inhomogeneities can be attributed to imperfections in the RF coils or some problems associated with the acquisition sequences. The result is a slowly-varying shading artifact over the image that can produce errors with conventional intensity-based classification. Our algorithm is formulated by modifying the objective function of the standard fuzzy c-means (FCM) algorithm to compensate for such inhomogeneities and to allow the labeling of a pixel (voxel) to be influenced by the labels in its immediate neighborhood. The neighborhood effect acts as a regularizer and biases the solution towards piecewise-homogeneous labelings. Such a regularization is useful in segmenting scans corrupted by salt and pepper noise. Experimental results on both synthetic images and MR data are given to demonstrate the effectiveness and efficiency of the proposed algorithm.
基于改进模糊c均值算法的MRI数据偏置场估计与自适应分割
本文提出了一种利用模糊逻辑对MRI数据进行自适应模糊分割和强度不均匀性估计的新算法。MRI强度不均匀可归因于射频线圈的缺陷或与采集序列相关的一些问题。结果是图像上缓慢变化的阴影伪影,这可能会产生传统的基于强度的分类错误。我们的算法是通过修改标准模糊c均值(FCM)算法的目标函数来制定的,以补偿这种不均匀性,并允许像素(体素)的标记受到其邻近区域标签的影响。邻域效应作为正则化器,使解决方案偏向于分段同质标记。这种正则化在分割被椒盐噪声破坏的扫描时很有用。在合成图像和MR数据上的实验结果证明了该算法的有效性和高效性。
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