Enhancing detection of malicious profiles and spam tweets with an automated honeypot framework powered by deep learning

Social networks are widely used platforms for sharing various information and content, including text, images, and videos.The main challenge in social networking today is the verification of data credibility and the identification of genuine social media profiles. Cybercriminals take advantage of th...

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Veröffentlicht in:International journal of information security 2024-04, Vol.23 (2), p.1359-1388
Hauptverfasser: El Mendili, Fatna, Fattah, Mohammed, Berros, Nisrine, Filaly, Youness, El Bouzekri El Idrissi, Younès
Format: Artikel
Sprache:eng
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Zusammenfassung:Social networks are widely used platforms for sharing various information and content, including text, images, and videos.The main challenge in social networking today is the verification of data credibility and the identification of genuine social media profiles. Cybercriminals take advantage of this by utilizing fake profiles to disseminate false information. However, current research mainly concentrates on spam filtering and analyzing malicious behavior separately, disregarding the interrelated nature of these issues. We propose a more desirable global, hybrid solution that encompasses both malicious profile detection and spam detection to mitigate the spread of spam effectively. This paper offers a deep learning-based method for detecting malicious profiles and spam tweets. For the profiles to interact with them as legitimate profiles, we first provide the detection of fake profiles using an automated honeypot. Next, we detect those who make interactions as malicious profiles, and finally, we collect their shared content to find spam tweets using a convolution neural network algorithm. We suggest using collaborative filtering and content filtering algorithms from recommender systems to define accounts similar to harmful profiles and spam similar to spam material picked up by convolution neural networks. We get a highly compelling and intriguing outcome with higher accuracy (99.23%) and lesser loss than typical learning algorithms.
ISSN:1615-5262
1615-5270
DOI:10.1007/s10207-023-00796-7