Efficient Machine Learning for Prediction of Malicious URLs under Neutrosophic Uncertainty Framework

Efficient Machine Learning for Prediction of Malicious URLs under Neutrosophic Uncertainty Framework

With more than 5.44 billion users, the Internet is an essential component of everyday life, facilitating e-commerce, interaction, learning, and more. But with the proliferation of harmful Uniform Resource Locators (URLs), this widespread Internet access also raises questions about online security an...

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Bibliographic Details
Main Authors: Mohamed Eassa, Ahmed Abdelhafeez, Ahmed A. Metwaly, Ahmed S. Salama
Format: Article
Language:English
Published: University of New Mexico 2025-05-01
Series:Neutrosophic Sets and Systems
Subjects:
prediction of malicious urls
neutrosophic sets
uncertainty
machine learning
security
Online Access:https://fs.unm.edu/NSS/26MaliciousURLs.pdf
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Summary:With more than 5.44 billion users, the Internet is an essential component of everyday life, facilitating e-commerce, interaction, learning, and more. But with the proliferation of harmful Uniform Resource Locators (URLs), this widespread Internet access also raises questions about online security and privacy. Due to their significant advantages of lowering model variance, increasing predictive performance, raising prediction accuracy, and exhibiting strong generalization potential, traditional ensemble models have recently drawn interest. However, there is still work to be done on how to use it to combat rogue URLs. These URLs are dangerous to people and organizations because they frequently lurk behind static links in emails or web pages. Many malicious websites avoid detection despite blacklisting services because they are either newly created or not closely monitored. Hence, we use different machine learning (ML) models such as decision tree, AdaBoosting, Naïve Bayes, random forest, gradient boosting, and XGBoosting. Then these models are evaluated under the neutrosophic framework to deal with uncertainty. The WASPAS method is used to select the best ML model from different models. The results show that the random forest is the best ML model.
ISSN:2331-6055
2331-608X

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