Iterative ensemble feature selection for multiclass classification of imbalanced microarray data.

IF 1.9 3区 生物学 Q2 BIOLOGY
Journal of Biological Research-Thessaloniki Pub Date : 2016-07-04 eCollection Date: 2016-05-01 DOI:10.1186/s40709-016-0045-8
Junshan Yang, Jiarui Zhou, Zexuan Zhu, Xiaoliang Ma, Zhen Ji
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引用次数: 30

Abstract

Background: Microarray technology allows biologists to monitor expression levels of thousands of genes among various tumor tissues. Identifying relevant genes for sample classification of various tumor types is beneficial to clinical studies. One of the most widely used classification strategies for multiclass classification data is the One-Versus-All (OVA) schema that divides the original problem into multiple binary classification of one class against the rest. Nevertheless, multiclass microarray data tend to suffer from imbalanced class distribution between majority and minority classes, which inevitably deteriorates the performance of the OVA classification.

Results: In this study, we propose a novel iterative ensemble feature selection (IEFS) framework for multiclass classification of imbalanced microarray data. In particular, filter feature selection and balanced sampling are performed iteratively and alternatively to boost the performance of each binary classification in the OVA schema. The proposed framework is tested and compared with other representative state-of-the-art filter feature selection methods using six benchmark multiclass microarray data sets. The experimental results show that IEFS framework provides superior or comparable performance to the other methods in terms of both classification accuracy and area under receiver operating characteristic curve. The more number of classes the data have, the better performance of IEFS framework achieves.

Conclusions: Balanced sampling and feature selection together work well in improving the performance of multiclass classification of imbalanced microarray data. The IEFS framework is readily applicable to other biological data analysis tasks facing the same problem.

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不平衡微阵列数据多类分类的迭代集成特征选择。
背景:微阵列技术允许生物学家监测各种肿瘤组织中数千种基因的表达水平。识别相关基因对各种肿瘤类型进行样本分类,有利于临床研究。对于多类分类数据,最广泛使用的分类策略之一是One- versus - all (OVA)模式,它将原始问题划分为一个类对其他类的多个二元分类。然而,多类微阵列数据往往存在多数类和少数类之间的类分布不平衡的问题,这不可避免地会影响OVA分类的性能。结果:在本研究中,我们提出了一种新的迭代集成特征选择(IEFS)框架,用于不平衡微阵列数据的多类分类。特别是,过滤器特征选择和平衡采样是迭代地或交替地执行的,以提高OVA模式中每个二元分类的性能。使用六个基准多类微阵列数据集对所提出的框架进行了测试,并与其他具有代表性的最先进的滤波器特征选择方法进行了比较。实验结果表明,IEFS框架在分类精度和接收者工作特征曲线下面积方面均优于或与其他方法相当。类的数量越多,IEFS框架的性能越好。结论:平衡采样和特征选择相结合可以很好地提高对不平衡微阵列数据的多类分类性能。IEFS框架很容易适用于面临同样问题的其他生物数据分析任务。
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来源期刊
CiteScore
5.20
自引率
0.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: Journal of Biological Research-Thessaloniki is a peer-reviewed, open access, international journal that publishes articles providing novel insights into the major fields of biology. Topics covered in Journal of Biological Research-Thessaloniki include, but are not limited to: molecular biology, cytology, genetics, evolutionary biology, morphology, development and differentiation, taxonomy, bioinformatics, physiology, marine biology, behaviour, ecology and conservation.
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