1. An Ensemble Tree-Based Model for Intrusion Detection in Industrial Internet of Things Networks.
- Author
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Awotunde, Joseph Bamidele, Folorunso, Sakinat Oluwabukonla, Imoize, Agbotiname Lucky, Odunuga, Julius Olusola, Lee, Cheng-Chi, Li, Chun-Ta, and Do, Dinh-Thuan
- Subjects
INTRUSION detection systems (Computer security) ,FEATURE selection ,SMART devices ,MACHINE learning ,INTELLIGENT sensors ,RANDOM forest algorithms ,TELEMETRY ,INTERNET of things - Abstract
With less human involvement, the Industrial Internet of Things (IIoT) connects billions of heterogeneous and self-organized smart sensors and devices. Recently, IIoT-based technologies are now widely employed to enhance the user experience across numerous application domains. However, heterogeneity in the node source poses security concerns affecting the IIoT system, and due to device vulnerabilities, IIoT has encountered several attacks. Therefore, security features, such as encryption, authorization control, and verification, have been applied in IIoT networks to secure network nodes and devices. However, the requisite machine learning models require some time to detect assaults because of the diverse IIoT network traffic properties. Therefore, this study proposes ensemble models enabled with a feature selection classifier for Intrusion Detection in the IIoT network. The Chi-Square Statistical method was used for feature selection, and various ensemble classifiers, such as eXtreme gradient boosting (XGBoost), Bagging, extra trees (ET), random forest (RF), and AdaBoost can be used for the detection of intrusion applied to the Telemetry data of the TON_IoT datasets. The performance of these models is appraised based on accuracy, recall, precision, F1-score, and confusion matrix. The results indicate that the XGBoost ensemble showed superior performance with the highest accuracy over other models across the datasets in detecting and classifying IIoT attacks. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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