对CT扫描图像进行FCM和图切的初步脑区分割

2015 International Conference on BioSignal Analysis, Processing and Systems (ICBAPS) Pub Date : 2015-05-26 DOI:10.1109/ICBAPS.2015.7292217

C. R. Ng, J. Than, N. Noor, O. M. Rijal

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引用次数: 4

摘要

脑分割在神经精神疾病领域具有重要意义。随着计算机断层扫描(CT)成为脑扫描的金标准，CT图像中的脑分割在许多与脑相关的病理检测中也非常重要。模糊c均值(FCM)由于其鲁棒性而成为数据聚类和图像分割的常用方法。图割是一种分割算法，它能够根据图像中每个节点之间的相似性将图像分割成几个分区。本文首先对CT扫描图像进行FCM优化处理，并根据像素强度进行聚类。之后，将fcm后的图像加载到图切算法中，将图像分成分区，允许用户手动选择最能代表大脑区域的适当分区。结果表明，先用FCM聚类，再用图切算法聚类，错误率较低。

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Preliminary brain region segmentation using FCM and graph cut for CT scan images

Brain segmentation is important in the field of neuropsychiatric disorders. With Computed Tomography (CT) scan being the gold standard in brain scan, brain segmentation in CT images is also very important in the detection of many pathology related to the brain. Fuzzy c-Means (FCM) is a popular method in data clustering and also in image segmentation due to it being robust. Graph cut is a segmentation algorithm that is able to separate the image into several partitions based on the similarity between each nodes in the image. In this paper, the CT scan images were first processed with FCM optimization and are separated into clusters based on pixel intensity. After that the post-FCM images were then loaded into the graph cut algorithm to separate the images into partitions, allowing users to manually select the appropriate partitions that best represent the brain region. The results showed that the images are less erroneous when they are clustered first with FCM before going through the graph cut algorithm.

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2015 International Conference on BioSignal Analysis, Processing and Systems (ICBAPS)

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