Presents the first comprehensive systematization of post-quantum resistant network architectures with a taxonomy of cryptographic foundations, key-distribution methods, trust models, and trade-offs under quantum adversary assumptions.
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A literature survey concludes that PUF-based and hybrid hardware trust anchors provide the best balance of security, scalability, and cost for AI-enabled IoT systems, while software-only methods are insufficient against physical tampering and cloning.
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Physically Unclonable Functions for Secure IoT Authentication and Hardware-Anchored AI Model Integrity
A literature survey concludes that PUF-based and hybrid hardware trust anchors provide the best balance of security, scalability, and cost for AI-enabled IoT systems, while software-only methods are insufficient against physical tampering and cloning.