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Award ID contains: 2128107

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  1. ; ; ; ; ; ; ( , 17th ACM ASIA Conference on Computer and Communications Security)
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  2. ; ; ; ( , Proceedings of the 16th IEEE International Conference on Networking, Architecture, and Storage)
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  3. ; ; ; ; ( , IEEE Security & Privacy)
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  4. ; ; ( , the 28th Network and Distributed System Security Symposium (NDSS 2021))
    null (Ed.)
    Accepted Manuscript Full Text Available
  5. ; ; ; ; ( , Journal of the Colloquium for Information System Security Education)
    Accepted Manuscript Full Text Available
  6. ; ; ; ; ( , Journal of the Colloquium for Information System Security Education)
    Accepted Manuscript Full Text Available
  7. ; ; ; ; ; ( , the ACM Conference on Computer and Communications Security (CCS 2020))
    null (Ed.)
    Accepted Manuscript Full Text Available
  8. ; ; ; ; ( , the 2020 Annual Computer Security Applications Conference (ACSAC 2020))
    null (Ed.)
    Accepted Manuscript Full Text Available
  9. ; ; ; ; ; ; ( , Computers & Security)
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  10. ; ; ( , Proceedings of the 2019 ACM International Workshop on Security in Software Defined Networks & Network Function Virtualization)
    In the Software Defined Networking (SDN) and Network Function Virtualization (NFV) era, it is critical to enable dynamic network access control. Traditionally, network access control policies are statically predefined as router entries or firewall rules. SDN enables more flexibility by re-actively installing flow rules into the switches to achieve dynamic network access control. However, SDN is limited in capturing network anomalies, which are usually important signs of security threats. In this paper, we propose to employ anomaly-based Intrusion Detection System (IDS) to capture network anomalies and generate SDN flow rules to enable dynamic network access control. We gain the knowledge of network anomalies from anomaly-based IDS by training an interpretable model to explain its outcome. Based on the explanation, we derive access control policies. We demonstrate the feasibility of our approach by explaining the outcome of an anomaly-based IDS built upon a Recurrent Neural Network (RNN) and generating SDN flow rules based on our explanation. 
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