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DDoS Attack Simulation and Machine Learning-Based Detection Approach in Internet of Things Experimental Environment

Author

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  • Hongsong Chen

    (University of Science and Technology, Beijing, China)

  • Caixia Meng

    (Railway Police College, China)

  • Jingjiu Chen

    (University of Science and Technology, Beijing, China)

Abstract

Aiming at the problem of DDoS attack detection in internet of things (IoT) environment, statistical and machine-learning algorithms are proposed to model and analyze the network traffic of DDoS attack. Docker-based virtualization platform is designed and configured to collect IoT network traffic data. Then the packet-level, flow-level, and second-level network traffic datasets are generated, and the importance of features in different traffic datasets are sorted. By SKlearn and TensorFlow machine-learning software framework, different machine learning algorithms are researched and compared. In packet-level DDoS attack detection, KNN algorithm achieves the best results; the accuracy is 92.8%. In flow-level DDoS attack detection, the voting algorithm achieves the best results; the accuracy is 99.8%. In second-level DDoS attack detection, the RNN algorithm behaves best results; the accuracy is 97.1%. The DDoS attack detection method combined with statistical analysis and machine-learning can effectively detect large-scale DDoS attacks on the internet of things simulation experimental environment.

Suggested Citation

  • Hongsong Chen & Caixia Meng & Jingjiu Chen, 2021. "DDoS Attack Simulation and Machine Learning-Based Detection Approach in Internet of Things Experimental Environment," International Journal of Information Security and Privacy (IJISP), IGI Global, vol. 15(3), pages 1-18, July.
    • Handle: RePEc:igg:jisp00:v:15:y:2021:i:3:p:1-18
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