Traditional and lightweight cryptography primitives and protocols are insecure against quantum attacks. Thus, a real-time application using traditional or lightweight cryptography primitives and protocols does not ensure full-proof security. Post-quantum Cryptography is important for the Internet of Things (IoT) due to its security against Quantum attacks. This paper offers a broad literature analysis of post-quantum cryptography for IoT networks, including the challenges and research directions to adopt in real-time applications. The work draws focus towards post-quantum cryptosystems that are useful for resource-constraint devices. Further, those quantum attacks are surveyed, which may occur over traditional and lightweight cryptographic primitives.
翻译:传统和轻量级加密原始物和协议对量子攻击没有保障,因此,使用传统或轻量级加密原始物和协议的实时应用并不能确保充分的安全;由于对量子攻击的安全性,等离子加密法对物的互联网十分重要;本文件对硫酸铁网络的量子后加密法进行了广泛的文献分析,包括实时应用的挑战和研究方向;这项工作侧重于对资源控制装置有用的量子加密系统;此外,对量子攻击进行了调查,这些攻击可能发生在传统和轻量级加密原始物之上。