文本挖掘——Twitter情感分析的比较综述

Q3 Computer Science
Sandeep Kumar, Sushma Patil, Dewang Subil, Noureen Nasar, Sujatha Arun Kokatnoor, Balachandran Krishnan
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引用次数: 0

摘要

文本挖掘从文本数据中获取信息和模式。最近引起极大兴趣的在线社交媒体平台根据人类行为的互动生成了大量关于人类行为的文本数据。这些数据通常是不明确的和非结构化的。数据包括导致词汇、句法和语义不确定性的打字错误和语法错误。这导致不正确的模式检测和分析。研究人员正在使用各种文本挖掘技术,这些技术可以帮助主题建模、趋势主题的检测、仇恨言论的识别以及在线社交媒体网络中社区的发展。这篇综述文章比较了十种机器学习分类技术在Twitter数据集上的性能,以分析用户对与航空公司使用相关帖子的情绪。回顾和比较分析用于情绪分析的高斯朴素贝叶斯、随机森林、多项式朴素贝叶斯、带Bagging的多项式朴素Bayes、自适应Boosting(AdaBoost)、优化AdaBoosting、支持向量机(SVM)、优化SVM、逻辑回归和长短期记忆(LSTM)。实验研究结果表明,优化后的SVM比其他分类器表现更好,与其他模型相比,训练准确率为99.73%,测试准确率为89.74%。优化SVM使用RBF核函数和非线性超平面将数据集划分为多个类,正确地将数据集分类为不同的极性。这与利用前向三角图和加权TF-IDF的特征工程一起,提高了优化SVM分类器在训练和测试精度方面的性能。因此,优化支持向量机的训练准确率和测试准确率分别为99.73%和89.74%。与随机森林相比,在训练和测试精度方面观察到0.09%和1.73%的边际性能增强,与LSTM相比,观察到1.29%(训练精度)和3.63%(测试精度)的性能改进。同样,与高斯朴素贝叶斯、多项式朴素贝叶斯、带Bagging的多项式朴素贝叶斯和Logistic回归相比,优化SVM在训练精度方面的性能提高了10%以上,并且在实验过程中观察到AdaBoost和优化AdaBooster这两个集成模型的类似增强。优化的SVM在AUC-ROC训练和测试得分方面也优于所有分类模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Text Mining – A Comparative Review of Twitter Sentiments Analysis
Text mining derives information and patterns from textual data. Online social media platforms, which have recently acquired great interest, generate vast text data about human behaviors based on their interactions. This data is generally ambiguous and unstructured. The data includes typing errors and errors in grammar that cause lexical, syntactic, and semantic uncertainties. This results in incorrect pattern detection and analysis. Researchers are employing various text mining techniques that can aid in Topic Modeling, the detection of Trending Topics, the identification of Hate Speeches, and the growth of communities in online social media networks. This review paper compares the performance of ten machine learning classification techniques on a Twitter data set for analyzing users' sentiments on posts related to airline usage. Review and comparative analysis of Gaussian Naive Bayes, Random Forest, Multinomial Naive Bayes, Multinomial Naive Bayes with Bagging, Adaptive Boosting (AdaBoost), Optimized AdaBoost, Support Vector Machine (SVM), Optimized SVM, Logistic Regression, and Long-Short Term Memory (LSTM) for sentiment analysis. The results of the experimental study showed that the Optimized SVM performed better than the other classifiers, with a training accuracy of 99.73% and testing accuracy of 89.74% compared to other models. Optimized SVM uses the RBF kernel function and nonlinear hyperplanes to split the dataset into classes, correctly classifying the dataset into distinct polarity. This, together with Feature Engineering utilizing Forward Trigrams and Weighted TF-IDF, has improved Optimized SVM classifier performance regarding train and test accuracy. Therefore, the train and test accuracy of Optimized SVM are 99.73% and 89.74% respectively. When compared to Random Forest, a marginal of 0.09% and 1.73% performance enhancement is observed in terms of train and test accuracy and 1.29% (train accuracy) and 3.63% (test accuracy) of improved performance when compared with LSTM. Likewise, Optimized SVM, gave more than 10% of enhanced performance in terms of train accuracy when compared with Gaussian Naïve Bayes, Multinomial Naïve Bayes, Multinomial Naïve Bayes with Bagging, Logistic Regression and a similar enhancement is observed with AdaBoost and Optimized AdaBoost which are ensemble models during the experimental process. Optimized SVM also has outperformed all the classification models in terms of AUC-ROC train and test scores.
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来源期刊
Recent Advances in Computer Science and Communications
Recent Advances in Computer Science and Communications Computer Science-Computer Science (all)
CiteScore
2.50
自引率
0.00%
发文量
142
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