Abstract:
Fake news and misinformation have wreaked havoc on our lives in recent years. Today,
fake news spreads faster and has a greater impact than ever before because of the
maximum number of people who use networking as the origin of news, that happens
for the prevalence of microblogs. With the rise in social media usage, it's become more
important than ever to counteract the dissemination of misleading information and
reduce reliance on such sites for information retrieval. Because users' interactions with
fake and unreliable news contribute to its proliferation at an individual level, social
networks are constantly under pressure to develop effective solutions to this problem.
The public faith in the medium has been undermined as a result, having left readers
puzzled. Artificial Intelligence methods for identifying false news have been the subject
of extensive research. In the past, classifying online evaluations and publicly visible
online social media articles received a lot of attention.
In this research aims to create a model that predicts fake news, propose an optimal
architecture, and then present a scientific report. This scientific paper details the most
effective architecture for detecting fake news. It also aids makers of anti-fake news
detection technologies in making an early choice regarding the method to take.
In this study, we present a Long short-term memory (LSTM) for identifying false news.
Instead of relying on custom features, our model (LSTM) employs many dense layers
in a DNN (deep neural network) to extract knowledge the discriminating properties for
fake news identification. Binary classifiers give prediction, cross-validation, and crips
prediction at first. For improved training, time, and complexity, our model works well
with this dataset. We utilize a dense layer, as do all deep learning models, to improve
prediction. It works effectively and allows us to make more accurate predictions in our
proposed model. We employ dropout in our model to prevent the problem of overfitting,
and it works well. For recurrent neural network architecture, optimized parameters and
two forms of adaptive learning algorithms were employed, in combination with which
a superior outcome was picked.
The proposed model was trained and evaluated using a benchmark dataset, and it
provided state of the art results upon this test data, with such a 99.86% accuracy. The
results were validated using several performance assessment metrics such as precision,
recall, F1, accuracy, false positive, true negative, etc. These findings show considerable
improvements in the identification of false news in comparison to previous state of the
art results, proving the efficacy of our technique for detecting false news.
The present, as well as variants of fake news, were identified using a deep learning
approach. It has been observed that by combining a hybrid model with a large dataset,
a better approach for detecting fake news may be proposed. Also, we didn't apply any
algorithm to a dataset that was based on video or images. As we all know, these
mediums may be used to promote fake news.