Browsers often include security features to detect phishing web pages. In the
past, some browsers evaluated an unknown URL for inclusion in a list of known
phishing pages. However, as the number of URLs and known phishing pages
continued to increase at a rapid pace, browsers started to include one or more
machine learning classifiers as part of their security services that aim to
better protect end users from harm. While additional information could be used,
browsers typically evaluate every unknown URL using some classifier in order to
quickly detect these phishing pages. Early phishing detection used standard
machine learning classifiers, but recent research has instead proposed the use
of deep learning models for the phishing URL detection task. Concurrently, text
embedding research using transformers has led to state-of-the-art results in
many natural language processing tasks. In this work, we perform a
comprehensive analysis of transformer models on the phishing URL detection
task. We consider standard masked language model and additional domain-specific
pre-training tasks, and compare these models to fine-tuned BERT and RoBERTa
models. Combining the insights from these experiments, we propose URLTran which
uses transformers to significantly improve the performance of phishing URL
detection over a wide range of very low false positive rates (FPRs) compared to
other deep learning-based methods. For example, URLTran yields a true positive
rate (TPR) of 86.80% compared to 71.20% for the next best baseline at an FPR of
0.01%, resulting in a relative improvement of over 21.9%. Further, we consider
some classical adversarial black-box phishing attacks such as those based on
homoglyphs and compound word splits to improve the robustness of URLTran. We
consider additional fine tuning with these adversarial samples and demonstrate
that URLTran can maintain low FPRs under these scenarios.

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Author Of this post: <a href="">Pranav Maneriker</a>, <a href="">Jack W. Stokes</a>, <a href="">Edir Garcia Lazo</a>, <a href="">Diana Carutasu</a>, <a href="">Farid Tajaddodianfar</a>, <a href="">Arun Gururajan</a>

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