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T‐SNERF: A novel high accuracy machine learning approach for Intrusion Detection Systems

Mohamed Hammad, Nabil M. Hewahi, Wael Elmedany

2021IET Information Security28 citationsDOIOpen Access PDF

Abstract

Abstract In the last few decades, Intrusion Detection System (IDS), in particular, machine learning‐based anomaly detection, has gained importance over Signature Detection Systems (SDSs) in the novel attacks detection. Herein, a novel approach called T‐Distributed Stochastic Neighbour Embedding and Random Forest Algorithm (T‐SNERF) is presented for the classification of cyber‐attacks. The approach consists of three different steps. First, the examination of feature correlations is provided. Second, the T‐Distributed Stochastic Neighbour Embedding (T‐SNE) data dimensional reduction technique is used. Third, Random Forest (RF) technique is utilised to evaluate the complications in the accuracy and False‐Positive Rate (FPR). The proposed approach has been tested on various well‐known datasets, namely, UNSW‐NB 15, CICIDS‐2017, and phishing datasets. The proposed novel approach achieved significant results compared with existing approaches, achieving 100% accuracy, and 0% FPR for the UNSW‐NB15 dataset, and achieving high accuracy rates, up to 99.7878%, and 99.7044%, for CICIDS‐2017 and Phishing datasets respectively.

Topics & Concepts

Random forestComputer scienceIntrusion detection systemEmbeddingData miningPhishingArtificial intelligenceFalse positive rateAnomaly-based intrusion detection systemMachine learningFeature (linguistics)Anomaly detectionPattern recognition (psychology)The InternetLinguisticsPhilosophyWorld Wide WebNetwork Security and Intrusion DetectionAdvanced Malware Detection TechniquesAnomaly Detection Techniques and Applications
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