Microscopic Cell Detection Based on Multiple Cell Image Segmentations and Fusion Algorithms

E. Cheng, S. Challa, R. Chakravorty
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引用次数: 8

Abstract

Automatic cell segmentation in phase contrast mi- croscopy images play a very important role in the study the be- havior of lymphocytes, such as cell motility, cell deformation, and cell population dynamics etc. In this paper, we have developed a set of algorithms for the microscopy image cell segmentation, in which three pairs of edge detection (Sobel, Prewitt and Laplace) based cell segmentation algorithms are developed in parallel to increase the probability of cell detection. Then, an hierarchical model is proposed and used in decision fusion that combine the three pair of detection results to increase the probability of final cell detection. After that, a false removal algorithm is proposed to remove false detections that may occur in the fusion process. The distance and watershed transforms have also been used to separate the connected cells. Experimental results have proved that these algorithms are pretty robust to variable microscopy image data, and variable cell densities, and with the proposed fusion and false removal algorithms, the cell detection rate has increased significantly to above 97% with the false detection rate about 7%. Index Terms—Microscopy Image, Cell Segmentation, Decision Fusion, Edge Detection, Distance Transform, Watershed Trans- form.
基于多细胞图像分割与融合算法的显微细胞检测
相衬显微镜图像中的细胞自动分割在研究淋巴细胞的细胞运动、细胞变形和细胞群体动力学等方面具有重要的意义。在本文中,我们开发了一套用于显微镜图像细胞分割的算法,其中并行开发了三对基于边缘检测(Sobel, Prewitt和Laplace)的细胞分割算法,以增加细胞检测的概率。然后,提出了一种层次模型,并将三对检测结果结合起来进行决策融合,以提高最终细胞检测的概率。然后,提出了一种去除融合过程中可能出现的假检测的算法。距离变换和分水岭变换也被用来分离连接的细胞。实验结果证明,这些算法对不同的显微图像数据和不同的细胞密度具有较强的鲁棒性,并且通过所提出的融合和去假算法,细胞检测率显著提高到97%以上,误检率约为7%。索引术语:显微图像,细胞分割,决策融合,边缘检测,距离变换,分水岭变换。
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