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Practical GAN-based synthetic IP header trace generation using NetShare

Yucheng Yin, Zinan Lin, Minhao Jin, Giulia Fanti, Vyas Sekar

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Abstract

We explore the feasibility of using Generative Adversarial Networks (GANs) to automatically learn generative models to generate synthetic packet- and flow header traces for networking tasks (e.g., telemetry, anomaly detection, provisioning). We identify key fidelity, scalability, and privacy challenges and tradeoffs in existing GAN-based approaches. By synthesizing domain-specific insights with recent advances in machine learning and privacy, we identify design choices to tackle these challenges. Building on these insights, we develop an end-to-end framework, NetShare. We evaluate NetShare on six diverse packet header traces and find that: (1) across all distributional metrics and traces, it achieves 46% more accuracy than baselines and (2) it meets users' requirements of downstream tasks in evaluating accuracy and rank ordering of candidate approaches.

Topics & Concepts

Computer scienceHeaderScalabilityProvisioningTRACE (psycholinguistics)FidelityKey (lock)Anomaly detectionNetwork packetData miningMachine learningDistributed computingArtificial intelligenceComputer architectureComputer engineeringComputer networkDatabaseComputer securityPhilosophyLinguisticsTelecommunicationsInternet Traffic Analysis and Secure E-votingNetwork Security and Intrusion DetectionAdversarial Robustness in Machine Learning