基于结构稀疏表示的多色荧光原位杂交(M-FISH)图像分类

Jingyao Li, D. Lin, Hongbao Cao, Yu-ping Wang
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引用次数: 6

摘要

我们开发了一种基于结构的稀疏表示模型用于M-FISH图像中的染色体分类。在我们之前的工作中使用的基于稀疏表示的分类模型只考虑一个像素,没有纳入任何结构信息。新提出的模型将之前的模型扩展到多像素的情况,其中每个目标像素及其相邻像素将同时用于分类。我们还将正交匹配追踪(OMP)算法扩展到多像素情况,称为同步OMP算法(SOMP),以解决基于结构的稀疏表示模型。分类结果表明,新模型在p值小于le-6的情况下优于先前的稀疏表示模型。我们还讨论了几个参数(邻域大小、稀疏度水平和训练样本大小)对分类准确性的影响。该方法受稀疏度和邻域大小的影响,但对训练样本大小不敏感。因此,比较表明,基于结构的稀疏表示模型可以显著提高染色体分类的准确性,从而提高遗传疾病和癌症的诊断。
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Classification of multicolor fluorescence in-situ hybridization (M-FISH) image using structure based sparse representation model
We developed a structure based sparse representation model for classifying chromosomes in M-FISH images. The sparse representation based classification model used in our previous work only considered one pixel without incorporating any structural information. The new proposed model extends the previous one to multiple pixels case, where each target pixel together with its neighboring pixels will be used simultaneously for classification. We also extend Orthogonal Matching Pursuit (OMP) algorithm to the multiple pixels case, named simultaneous OMP algorithm (SOMP), to solve the structure based sparse representation model. The classification results show that our new model outperforms the previous sparse representation model with the p-value less than le-6. We also discussed the effects of several parameters (neighborhood size, sparsity level, and training sample size) on the accuracy of the classification. Our proposed method can be affected by the sparsity level and the neighborhood size but is insensitive to the training sample size. Therefore, the comparison indicates that the structure based sparse representation model can significantly improve the accuracy of the chromosome classification, leading to improved diagnosis of genetic diseases and cancers.
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