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Benchmarking datasets for Anomaly-based Network Intrusion Detection: KDD CUP 99 alternatives

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arxiv 1811.05372 v1 pith:R7XAQD6U submitted 2018-11-13 cs.LG cs.AIcs.CRstat.ML

Benchmarking datasets for Anomaly-based Network Intrusion Detection: KDD CUP 99 alternatives

classification cs.LG cs.AIcs.CRstat.ML
keywords kdd-99modernnetworknsl-kddtrainedunsw-nb15alternativesanomaly-based
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Machine Learning has been steadily gaining traction for its use in Anomaly-based Network Intrusion Detection Systems (A-NIDS). Research into this domain is frequently performed using the KDD~CUP~99 dataset as a benchmark. Several studies question its usability while constructing a contemporary NIDS, due to the skewed response distribution, non-stationarity, and failure to incorporate modern attacks. In this paper, we compare the performance for KDD-99 alternatives when trained using classification models commonly found in literature: Neural Network, Support Vector Machine, Decision Tree, Random Forest, Naive Bayes and K-Means. Applying the SMOTE oversampling technique and random undersampling, we create a balanced version of NSL-KDD and prove that skewed target classes in KDD-99 and NSL-KDD hamper the efficacy of classifiers on minority classes (U2R and R2L), leading to possible security risks. We explore UNSW-NB15, a modern substitute to KDD-99 with greater uniformity of pattern distribution. We benchmark this dataset before and after SMOTE oversampling to observe the effect on minority performance. Our results indicate that classifiers trained on UNSW-NB15 match or better the Weighted F1-Score of those trained on NSL-KDD and KDD-99 in the binary case, thus advocating UNSW-NB15 as a modern substitute to these datasets.

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