基于分类确定性和语义相关性的新集合学习算法

You-wei Wang, Lizhou Feng
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摘要

基于分类确定性和语义相关性,提出了一种新的引导-聚合(bagging)集合学习算法,以提高集合学习的分类准确性。首先,引入两个预定阈值来构建长、短文本样本子集,并比较不同的深度学习方法,为每个样本子集构建最优的基础分类器组。然后,改进了传统袋式分类算法中采用的随机抽样方法,提出了一种基于阈值组的随机抽样方法,以获得每次迭代的长文和短文训练样本子集。最后,定义了基础分类器对不同类别的样本分类确定性,并将语义相关信息与传统的加权投票分类器集合方法相结合,避免了抽样过程中重要信息的丢失。在多个数据集上的实验结果表明,该算法显著提高了文本分类的准确性,并优于典型的深度学习算法。与随机森林、M_ADA_A_SMV 和 CNN_SVM_LR 等传统的集合学习算法相比,在 CNews 数据集上使用 F1 测量时,提出的算法分别提高了约 0.082、0.061 和 0.019。此外,与使用不同基础分类器的集合学习算法相比,它在垃圾邮件数据集、CNews 数据集和 SogouCS 数据集上的最佳 F1 值分别为 0.995、0.985 和 0.989。
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New ensemble learning algorithm based on classification certainty and semantic correlation
A new bootstrap-aggregating (bagging) ensemble learning algorithm is proposed based on classification certainty and semantic correlation to improve the classification accuracy of ensemble learning. First, two predetermined thresholds are introduced to construct the long and short-text sample subsets, and different deep learning methods are compared to construct the optimal base classifier groups for each sample subsets. Then, the random sampling method employed in traditional bagging classification algorithms is improved, and a threshold group based random sampling method is proposed to obtain long and short training sample subsets of each iteration. Finally, the sample classification certainty of the base classifiers for different categories is defined, and the semantic correlation information is integrated with the traditional weighted voting classifier ensemble method to avoid the loss of important information during the sampling process. The experimental results on multiple datasets demonstrate that the algorithm significantly improves text classification accuracy and outperforms typical deep learning algorithms. The proposed algorithm achieves the improvements of approximately 0.082, 0.061 and 0.019 on CNews dataset when the F1 measurement is used over the traditional ensemble learning algorithms such as random forest, M_ADA_A_SMV and CNN_SVM_LR. Moreover, it achieves the best F1 values of 0.995, 0.985, and 0.989 on the datasets of Spam, CNews, and SogouCS datasets, respectively, when compared with the ensemble learning algorithms using different base classifiers.
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