基于DNA微阵列的基因选择和肿瘤分类的改进双粒子群优化方法

2018 Conference on Information and Communication Technology (CICT) Pub Date : 2018-10-01 DOI:10.1109/INFOCOMTECH.2018.8722351

Indu Jain, V. Jain, R. Jain

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引用次数: 4

摘要

DNA微阵列能够通过同时分析数千个基因的表达来检测可归因于癌症的遗传变化。然而，从每个生物样本中数千个可用的基因表达中鉴定出大多数相关基因，对癌症分类提出了巨大的挑战。虽然在癌症分类之前，研究者已经使用基于BPSO的包装方法获得了大多数相关基因，但由于局部停滞问题导致的过早收敛，这些方法并没有达到很好的分类精度。本文提出了一种改进的二进制粒子群优化算法(iBPSO)来解决这些问题。采用朴素贝叶斯(NB)、k近邻(kNN)和支持向量机(SVM)分类器对基于iBPSO的包装器进行了分层5次交叉验证。在六个基准癌症微阵列数据集上，与标准BPSO相比，所提出的iBPSO在分类准确性和选择基因数量方面表现出了其有效性。我们提出的iBPSO也有效地摆脱了局部最小停滞。

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An improved Binary Particle Swarm Optimization (iBPSO) for Gene Selection and Cancer Classification using DNA Microarrays

DNA Microarrays enable the detection of genetic changes attributable to cancer by simultaneously analyzing the expression of thousands of genes. However, the identification of most relevant genes from thousands of gene expressions available in each biological sample, for cancer classification pose a great challenge. Although researchers have applied BPSO based wrapper approaches to get most relevant genes prior to cancer classification, these approaches didn’t achieve good classification accuracy due to the premature convergence caused by local stagnation problem. This paper proposes an improved Binary Particle Swarm Optimization (iBPSO) to tackle these issues. The proposed iBPSO based wrapper is examined using Naive-Bayes (NB), k-Nearest Neighbor (kNN), and Support Vector Machines (SVM) classifiers with stratified 5-fold cross-validation. The proposed iBPSO exhibited its efficacy in terms of classification accuracy and the number of selected genes in comparison to standard BPSO on six benchmark cancer microarray datasets. Our proposed iBPSO also effectively escapes from local minima stagnation.

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2018 Conference on Information and Communication Technology (CICT)

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