无核L1范数正则化支持向量机模型及其应用

IF 1.6 3区 工程技术 Q4 ENGINEERING, INDUSTRIAL
Junyuan Xiao, Guoyi Liu, Min Huang, Zhihua Yin, Zheming Gao
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引用次数: 1

摘要

为了克服基于核的支持向量机模型存在的一些不足,对无核支持向量机模型进行了新的推广和研究。为了进一步提高现有无核二次曲面支持向量机(QSSVM)模型的分类精度,同时避免计算复杂度,提出了一种新型的L1范数正则化无核模糊约简QSSVM模型。该模型具有良好的稀疏性,避免了计算复杂性和过拟合,并在数据点(几乎)线性可分的条件下简化为这些标准线性模型。在几个公共基准数据集上进行了计算测试,以显示所提出的模型与一些已知的二元分类模型相比具有更好的性能。同样,与其他无核SVM模型相比,数值结果支持所提出模型的训练效率更高。此外,通过使用TCGA数据库中基于基因表达rnaseq的肺癌亚型(LUAD/LUSC)数据集,该模型顺利地应用于肺癌亚型诊断,并具有良好的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A kernel-free L1 norm regularized ν-support vector machine model with application
With a view to overcoming a few shortcomings resulting from the kernel-based SVM models, these kernel-free support vector machine (SVM) models are newly promoted and researched. With the aim of deeply enhancing the classification accuracy of present kernel-free quadratic surface support vector machine (QSSVM) models while avoiding computational complexity, an emerging kernel-free ν-fuzzy reduced QSSVM with L1 norm regularization model is proposed. The model has well-developed sparsity to avoid computational complexity and overfitting and has been simplified as these standard linear models on condition that the data points are (nearly) linearly separable. Computational tests are implemented on several public benchmark datasets for the purpose of showing the better performance of the presented model compared with a few known binary classification models. Similarly, the numerical consequences support the more elevated training effectiveness of the presented model in comparison with those of other kernel-free SVM models. What`s more, the presented model is smoothly employed in lung cancer subtype diagnosis with good performance, by using the gene expression RNAseq-based lung cancer subtype (LUAD/LUSC) dataset in the TCGA database.
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来源期刊
CiteScore
5.70
自引率
9.10%
发文量
35
审稿时长
20 weeks
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