A co-design of obfuscated arbiter PUF and protocol achieves low-overhead IoT authentication while resisting modeling attacks when a stated condition is met.
A machine learning- based security vulnerability study on xor pufs for resource-constraint internet of things
3 Pith papers cite this work. Polarity classification is still indexing.
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cs.CR 3verdicts
UNVERDICTED 3representative citing papers
A combined parameter-and-usage strategy for component-differentially challenged XOR Arbiter PUFs yields lightweight designs that resist state-of-the-art ML attacks while preserving reliability metrics.
Optimized CDC-XPUFs with pre-selection and reduced stages lower resource use while resisting ML and reliability attacks.
citing papers explorer
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A lightweight PUF-based authentication protocol
A co-design of obfuscated arbiter PUF and protocol achieves low-overhead IoT authentication while resisting modeling attacks when a stated condition is met.
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Lightweight Strategy for XOR PUFs as Security Primitives for Resource-constrained IoT device
A combined parameter-and-usage strategy for component-differentially challenged XOR Arbiter PUFs yields lightweight designs that resist state-of-the-art ML attacks while preserving reliability metrics.
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Designing Short-Stage CDC-XPUFs: Balancing Reliability, Cost, and Security in IoT Devices
Optimized CDC-XPUFs with pre-selection and reduced stages lower resource use while resisting ML and reliability attacks.