基于随机最优搜索的显著基因识别与疾病样本分类

J. B. Bell, S. Vigila
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引用次数: 1

摘要

在数据挖掘和机器学习的前沿领域,出现了许多解决高维问题的方法和算法,近年来出现了许多基于过滤的技术来从基因表达疾病数据集中选择基因子集。在这里,我们使用基于学习者的包装特征选择,通过随机搜索机制选择最优基因,并使用分类器对显著基因表达集进行分类。利用线性判别分析分类器基于随机优化搜索的主成分分析和t检验来选择特征,并利用自组织映射作为分类器对基于PCA的聚类进行评估以获得显著特征。采用遗传算法进行分类特征选择。性能也验证了各种基于基因选择的分类器方法使用各种性能指标。通过随机优化搜索,通过基因选择获得前10个显著基因的列表,并使用显著基因作为表达数据集,对分类器进行训练,验证和测试,将互斥的疾病样本分类为不同的分类类。因此,可以通过各种测试措施来计算分类器的性能。基于PCA的随机搜索技术在SOM学习器上分类具有较高的准确率。采用基于遗传算法的嵌入式分类器对样本进行分类,检索出高度明显的基因特征。通过对基因集表达的最佳特征进行训练,分类器的性能得到了很大的提高,并且通过这种降维变化,人们可以更快地学习处理。因此,通过这些方法,可以很容易地学习到执行最佳样本分类的主要特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Random Optimal Search Based Significant Gene Identification and Classification of Disease Samples
In the advanced field of data mining and machine learning fields, there has been an arise of many methods and algorithms to solve high dimensionality problem, at recent times there are many filter based techniques to select the subset of genes from the gene expression disease dataset. Here we have used a learner based wrapper feature selection for selecting the optimal genes by random search mechanism and classified the significant gene expression set using a classifier. The Principal Component Analysis and t-test based on Random Optimized Search by Linear Discriminant Analysis classifier is used to select the features also PCA based clusters are evaluated by Self Organizing Map as classifier to obtain significant features. Also Genetic Algorithm based approach is used for performing classification based feature selection. The performance is also verified for the various gene selection based classifier approaches using various performance measures. A list of top 10 significant genes are retrieved by gene selection by random optimized search and using the significant genes as expression dataset the classifier is trained validated and tested for classifying mutually exclusive disease samples into various categorical classes. Thus one can calculate the classifier's performance by various test measures. The PCA based random search technique exhibits a higher accuracy while classified on SOM learner. Genetic Algorithm based embedded classifier is used to classify the samples and highly distinct gene features are retrieved. The classifiers performance is improved much by training on the best features of gene set expression and by this reduced dimensional change one can learn much faster at processing. So by these approaches one can easily learn the principle features for performing best sample classification.
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