Department of Computer Science, University of Houston, Houston, TX 77204-3010, USA.
IEEE Trans Biomed Eng. 2012 Jun;59(6):1539-49. doi: 10.1109/TBME.2012.2188892. Epub 2012 Feb 24.
Segmentation of cells/nuclei is a challenging problem in 2-D histological and cytological images. Although a large number of algorithms have been proposed, newer efforts continue to be devoted to investigate robust models that could have high level of adaptability with regard to considerable amount of image variability. In this paper, we propose a multiclassification conditional random fields (CRFs) model using a combination of low-level cues (bottom-up) and high-level contextual information (top-down) for separating nuclei from the background. In our approach, the contextual information is extracted by an unsupervised topic discovery process, which efficiently helps to suppress segmentation errors caused by intensity inhomogeneity and variable chromatin texture. In addition, we propose a multilayer CRF, an extension of the traditional single-layer CRF, to handle high-dimensional dataset obtained through spectral microscopy, which provides combined benefits of spectroscopy and imaging microscopy, resulting in the ability to acquire spectral images of microscopic specimen. The approach is evaluated with color images, as well as spectral images. The overall accuracy of the proposed segmentation algorithm reaches 95% when applying multilayer CRF model to the spectral microscopy dataset. Experiments also show that our method outperforms seeded watershed, a widely used algorithm for cell segmentation.
细胞/细胞核分割是二维组织学和细胞学图像中的一个具有挑战性的问题。尽管已经提出了大量的算法,但新的研究仍在继续致力于研究能够在相当大的图像可变性方面具有高度适应性的稳健模型。在本文中,我们提出了一种使用低级线索(自下而上)和高级上下文信息(自上而下)的多分类条件随机场(CRF)模型,用于从背景中分离细胞核。在我们的方法中,上下文信息是通过无监督的主题发现过程提取的,该过程有效地有助于抑制由于强度不均匀和可变染色质纹理引起的分割错误。此外,我们提出了一种多层 CRF,即传统单层 CRF 的扩展,用于处理通过光谱显微镜获得的高维数据集,该数据集提供了光谱和成像显微镜的组合优势,从而能够获取微观标本的光谱图像。该方法使用彩色图像和光谱图像进行评估。当将多层 CRF 模型应用于光谱显微镜数据集时,所提出的分割算法的整体准确性达到 95%。实验还表明,我们的方法优于广泛用于细胞分割的种子分水岭算法。
