基于Twitter数据的极性疫苗情感分析和预测,使用深度自然语言处理技术

Q3 Computer Science
H. Badi, Imad Badi, K. E. Moutaouakil, Aziz Khamjane, Abdelkhalek Bahri
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引用次数: 3

摘要

新冠肺炎对全球的影响是巨大的,已经开发了几种疫苗来对抗这种病毒。然而,这些疫苗在预防疾病和提供免疫力方面具有不同程度的疗效和有效性。随着世界继续与持续的疫情作斗争,开发和分发有效的疫苗仍然是当务之急,这使得监测预防策略成为强制性的,也是减缓疾病传播的必要手段。这些疫苗在社交网络和媒体上引发了关于其有效性和副作用的巨大辩论。这就产生了大数据,需要能够深入分析这些数据并提取潜在知识和感受的智能工具。很少有作品同时分析情感和基于估计的极性来预测这些情感。在这项工作中,首先,我们使用大数据和自然语言处理(NLP)工具提取关于阿斯利康和辉瑞的推文中表达的实体,并估计它们的极性;其次,我们使用长短期记忆(LSTM)神经网络来预测这两种疫苗在未来的极性。为了确保通过集群系统进行大规模处理的并行数据处理,我们使用了Apache Spark框架(ASF),它能够以分布式方式处理大量数据。结果显示,辉瑞疫苗比阿斯利康更受欢迎,更值得信赖。此外,根据长短期记忆(LSTM)模型产生的预测,辉瑞很可能在可预见的未来继续保持其强大的市场地位。这些使用先进机器学习技术的预测分析已被证明在预测趋势和识别数据模式方面是准确的。因此,我们对LSTM对辉瑞在该行业持续主导地位的预测充满信心。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sentiment analysis and prediction of polarity vaccines based on Twitter data using deep NLP techniques
The global impact of COVID-19 has been significant and several vaccines have been developed to combat this virus. However, these vaccines have varying levels of efficacy and effectiveness in preventing illness and providing immunity. As the world continues to grapple with the ongoing pandemic, the development and distribution of effective vaccines remains a top priority, making monitoring prevention strategies mandatory and necessary to mitigate the spread of the disease. These vaccines have raised a huge debate on social networks and in the media about their effectiveness and secondary effects. This has generated big data, requiring intelligent tools capable of analyzing these data in depth and extracting the underlying knowledge and feelings. There is a scarcity of works that analyze feelings and the prediction of these feelings based on their estimated polarities at the same time. In this work, first, we use big data and Natural Language Processing (NLP) tools to extract the entities expressed in tweets about AstraZeneca and Pfizer and estimate their polarities; second, we use a Long Short-Term Memory (LSTM) neural network to predict the polarities of these two vaccines in the future. To ensure parallel data treatment for large-scale processing via clustered systems, we use the Apache Spark Framework (ASF) which enables the treatment of massive amounts of data in a distributed way. Results showed that the Pfizer vaccine is more popular and trustworthy than AstraZeneca. Additionally, according to the predictions generated by Long Short-Term Memory (LSTM) model, it is likely that Pfizer will continue to maintain its strong market position in the foreseeable future. These predictive analytics, which uses advanced machine learning techniques, have proven to be accurate in forecasting trends and identifying patterns in data. As such, we have confidence in the LSTM's prediction of Pfizer's ongoing dominance in the industry.
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来源期刊
Radioelectronic and Computer Systems
Radioelectronic and Computer Systems Computer Science-Computer Graphics and Computer-Aided Design
CiteScore
3.60
自引率
0.00%
发文量
50
审稿时长
2 weeks
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