Papers
Topics
Authors
Recent
Gemini 2.5 Flash
Gemini 2.5 Flash
139 tokens/sec
GPT-4o
7 tokens/sec
Gemini 2.5 Pro Pro
46 tokens/sec
o3 Pro
4 tokens/sec
GPT-4.1 Pro
38 tokens/sec
DeepSeek R1 via Azure Pro
28 tokens/sec
2000 character limit reached

One-Class Classification for Intrusion Detection on Vehicular Networks (2309.14134v1)

Published 25 Sep 2023 in cs.LG and cs.CR

Abstract: Controller Area Network bus systems within vehicular networks are not equipped with the tools necessary to ward off and protect themselves from modern cyber-security threats. Work has been done on using machine learning methods to detect and report these attacks, but common methods are not robust towards unknown attacks. These methods usually rely on there being a sufficient representation of attack data, which may not be available due to there either not being enough data present to adequately represent its distribution or the distribution itself is too diverse in nature for there to be a sufficient representation of it. With the use of one-class classification methods, this issue can be mitigated as only normal data is required to train a model for the detection of anomalous instances. Research has been done on the efficacy of these methods, most notably One-Class Support Vector Machine and Support Vector Data Description, but many new extensions of these works have been proposed and have yet to be tested for injection attacks in vehicular networks. In this paper, we investigate the performance of various state-of-the-art one-class classification methods for detecting injection attacks on Controller Area Network bus traffic. We investigate the effectiveness of these techniques on attacks launched on Controller Area Network buses from two different vehicles during normal operation and while being attacked. We observe that the Subspace Support Vector Data Description method outperformed all other tested methods with a Gmean of about 85%.

Definition Search Book Streamline Icon: https://streamlinehq.com
References (31)
  1. H. Lee, S. H. Jeong, and H. K. Kim, “Otids: A novel intrusion detection system for in-vehicle network by using remote frame,” in 2017 15th Annual Conference on Privacy, Security and Trust (PST), pp. 57–5709, IEEE, 2017.
  2. P. Carsten, T. R. Andel, M. Yampolskiy, and J. T. McDonald, “In-vehicle networks: Attacks, vulnerabilities, and proposed solutions,” in Proceedings of the 10th Annual Cyber and Information Security Research Conference, pp. 1–8, 2015.
  3. S. Checkoway, D. McCoy, B. Kantor, D. Anderson, H. Shacham, S. Savage, K. Koscher, A. Czeskis, F. Roesner, and T. Kohno, “Comprehensive experimental analyses of automotive attack surfaces,” in 20th USENIX security symposium (USENIX Security 11), 2011.
  4. I. Studnia, V. Nicomette, E. Alata, Y. Deswarte, M. Kaâniche, and Y. Laarouchi, “Survey on security threats and protection mechanisms in embedded automotive networks,” in 2013 43rd Annual IEEE/IFIP Conference on Dependable Systems and Networks Workshop (DSN-W), pp. 1–12, IEEE, 2013.
  5. F. Lambert, “Hackers crack tesla model 3 in competition, tesla gives them the car,” 2019.
  6. M. R. Moore, R. A. Bridges, F. L. Combs, M. S. Starr, and S. J. Prowell, “Modeling inter-signal arrival times for accurate detection of can bus signal injection attacks: a data-driven approach to in-vehicle intrusion detection,” in Proceedings of the 12th Annual Conference on Cyber and Information Security Research, pp. 1–4, 2017.
  7. A. Taylor, N. Japkowicz, and S. Leblanc, “Frequency-based anomaly detection for the automotive can bus,” in 2015 World Congress on Industrial Control Systems Security (WCICSS), pp. 45–49, IEEE, 2015.
  8. M. Marchetti and D. Stabili, “Anomaly detection of can bus messages through analysis of id sequences,” in 2017 IEEE Intelligent Vehicles Symposium (IV), pp. 1577–1583, IEEE, 2017.
  9. A. Bezemskij, G. Loukas, R. J. Anthony, and D. Gan, “Behaviour-based anomaly detection of cyber-physical attacks on a robotic vehicle,” in 2016 15th international conference on ubiquitous computing and communications and 2016 international symposium on cyberspace and security (IUCC-CSS), pp. 61–68, IEEE, 2016.
  10. H. M. Song and H. K. Kim, “Self-supervised anomaly detection for in-vehicle network using noised pseudo normal data,” IEEE Transactions on Vehicular Technology, vol. 70, no. 2, pp. 1098–1108, 2021.
  11. A. Degerli, F. Sohrab, S. Kiranyaz, and M. Gabbouj, “Early myocardial infarction detection with one-class classification over multi-view echocardiography,” in 2022 Computing in Cardiology (CinC), vol. 498, pp. 1–4, IEEE, 2022.
  12. F. Sohrab and J. Raitoharju, “Boosting rare benthic macroinvertebrates taxa identification with one-class classification,” in 2020 IEEE Symposium Series on Computational Intelligence (SSCI), pp. 928–933, IEEE, 2020.
  13. K. Koscher, A. Czeskis, F. Roesner, S. Patel, T. Kohno, S. Checkoway, D. McCoy, B. Kantor, D. Anderson, H. Shacham, et al., “Experimental security analysis of a modern automobile,” in 2010 IEEE symposium on security and privacy, pp. 447–462, IEEE, 2010.
  14. W. Wu, R. Li, G. Xie, J. An, Y. Bai, J. Zhou, and K. Li, “A survey of intrusion detection for in-vehicle networks,” IEEE Transactions on Intelligent Transportation Systems, vol. 21, no. 3, pp. 919–933, 2019.
  15. A. Taylor, S. Leblanc, and N. Japkowicz, “Anomaly detection in automobile control network data with long short-term memory networks,” in 2016 IEEE International Conference on Data Science and Advanced Analytics (DSAA), pp. 130–139, IEEE, 2016.
  16. M.-J. Kang and J.-W. Kang, “Intrusion detection system using deep neural network for in-vehicle network security,” PloS one, vol. 11, no. 6, p. e0155781, 2016.
  17. S. N. Narayanan, S. Mittal, and A. Joshi, “Using data analytics to detect anomalous states in vehicles,” arXiv preprint arXiv:1512.08048, 2015.
  18. F. Sohrab, A. Iosifidis, M. Gabbouj, and J. Raitoharju, “Graph-embedded subspace support vector data description,” Pattern Recognition, vol. 133, p. 108999, 2023.
  19. H. J. Shin, D.-H. Eom, and S.-S. Kim, “One-class support vector machines—an application in machine fault detection and classification,” Computers & Industrial Engineering, vol. 48, no. 2, pp. 395–408, 2005.
  20. C. Sanchez-Hernandez, D. S. Boyd, and G. M. Foody, “One-class classification for mapping a specific land-cover class: Svdd classification of fenland,” IEEE Transactions on Geoscience and Remote Sensing, vol. 45, no. 4, pp. 1061–1073, 2007.
  21. K.-L. Li, H.-K. Huang, S.-F. Tian, and W. Xu, “Improving one-class svm for anomaly detection,” in Proceedings of the 2003 international conference on machine learning and cybernetics (IEEE Cat. No. 03EX693), vol. 5, pp. 3077–3081, IEEE, 2003.
  22. R. Perdisci, G. Gu, and W. Lee, “Using an ensemble of one-class svm classifiers to harden payload-based anomaly detection systems,” in Sixth International Conference on Data Mining (ICDM’06), pp. 488–498, IEEE, 2006.
  23. A. Theissler, “Anomaly detection in recordings from in-vehicle networks,” Big data and applications, vol. 23, p. 26, 2014.
  24. L. A. Maglaras, “A novel distributed intrusion detection system for vehicular ad hoc networks,” International Journal of Advanced Computer Science and Applications, vol. 6, no. 4, pp. 101–106, 2015.
  25. R. Merchant, “Improving vehicle-to-infrastructure security through trusted authentication: Application to electric vehicles,” Master’s thesis, 2019.
  26. D. M. Tax and R. P. Duin, “Support vector data description,” Machine learning, vol. 54, no. 1, pp. 45–66, 2004.
  27. F. Sohrab, J. Raitoharju, M. Gabbouj, and A. Iosifidis, “Subspace support vector data description,” in 2018 24th International Conference on Pattern Recognition (ICPR), pp. 722–727, IEEE, 2018.
  28. F. Sohrab, J. Raitoharju, A. Iosifidis, and M. Gabbouj, “Ellipsoidal subspace support vector data description,” IEEE Access, vol. 8, pp. 122013–122025, 2020.
  29. B. Schölkopf, R. C. Williamson, A. Smola, J. Shawe-Taylor, and J. Platt, “Support vector method for novelty detection,” Advances in neural information processing systems, vol. 12, 1999.
  30. V. Mygdalis, A. Iosifidis, A. Tefas, and I. Pitas, “Graph embedded one-class classifiers for media data classification,” Pattern Recognition, vol. 60, pp. 585–595, 2016.
  31. F. Sohrab, J. Raitoharju, A. Iosifidis, and M. Gabbouj, “Multimodal subspace support vector data description,” Pattern Recognition, vol. 110, p. 107648, 2021.
Citations (2)
View on Semantic Scholar

Summary

We haven't generated a summary for this paper yet.

Ai Sparkles Streamline Icon: https://streamlinehq.com Summarize Now