A Deep Learning Model to Detect Fake News About Covid-19

Q3 Computer Science Recent Advances in Computer Science and Communications Pub Date : 2023-08-25 DOI:10.2174/2666255816666230825100307

S. S. Birunda, R. Kanniga Devi, M. Muthukannan

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Abstract

Twitter has rapidly become a go-to source for current events coverage. The more people rely on it, the more important it is to provide accurate data. Twitter makes it easy to spread misinformation, which can have a significant impact on how people feel, especially if false information spreads around COVID-19. Unfortunately, twitter was also used to spread myths and misinformation about the illness and its preventative immunization. So, it is crucial to identify false information before its spread gets out of hand. In this research, we look into the efficacy of several different types of deep neural networks in automatically classifying and identifying fake news content posted on social media platforms in relation to the COVID-19 pandemic. These networks include long short-term memory (LSTM), bi-directional LSTM, convolutional-neural-networks (CNN), and a hybrid of CNN-LSTM networks. The "COVID-19 Fake News" dataset includes 42,280, actual and fake news cases for the COVID-19 pandemic and associated vaccines and has been used to train and test these deep neural networks. The proposed models are executed and compared to other deep neural networks, the CNN model was found to have the highest accuracy at 95.6%.

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一种检测新冠肺炎虚假新闻的深度学习模型

推特已经迅速成为时事报道的热门来源。人们对它的依赖程度越高，提供准确数据就越重要。推特很容易传播错误信息，这可能会对人们的感受产生重大影响，尤其是在新冠肺炎周围传播虚假信息的情况下。不幸的是，推特还被用来传播有关该疾病及其预防性免疫接种的神话和错误信息。因此，在虚假信息传播失控之前，识别虚假信息至关重要。在这项研究中，我们研究了几种不同类型的深度神经网络在自动分类和识别社交媒体平台上发布的与新冠肺炎大流行有关的假新闻内容方面的功效。这些网络包括长短期记忆（LSTM）、双向LSTM、卷积神经网络（CNN）和CNN-LSTM网络的混合。“新冠肺炎假新闻”数据集包括42280例新冠肺炎大流行和相关疫苗的实际和假新闻病例，已用于训练和测试这些深度神经网络。执行所提出的模型，并与其他深度神经网络进行比较，发现CNN模型的准确率最高，为95.6%。

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