Enhancing Zero-Day Attack Detection with XAI-Driven ML Models and SMOTE Analysis | |
---|---|
Author | |
Abstract |
Zero-day attacks, which are defined by their abrupt appearance without any previous detection mechanisms, present a substantial obstacle in the field of network security. To address this difficulty, a wide variety of machine learning and deep learning models have been used to identify and minimize zeroday assaults. The models have been assessed for both binary and multi-class classification situations, The objective of this work is to do a thorough comparison and analysis of these models, including the impact of class imbalance and utilizing SHAP (SHapley Additive exPlanations) explainability approaches. Class imbalance is a prevalent problem in cybersecurity datasets, characterized by a considerable disparity between the number of attack cases and non-attack instances. By equalizing the dataset, we guarantee equitable depiction of both categories, so preventing prejudice towards the dominant category throughout the training and assessment of the model. Moreover, the application of SHAP XAI facilitates a more profound comprehension of model predictions, empowering analysts to analyze the fundamental aspects that contribute to the detection of zero-day attacks. |
Year of Publication |
2024
|
Date Published |
may
|
URL |
https://ieeexplore.ieee.org/document/10574566
|
DOI |
10.1109/AIIoT58432.2024.10574566
|
Google Scholar | BibTeX | DOI |