QUANTUM-RESISTANT CRYPTOGRAPHIC FRAMEWORK FOR SECURE INTERNET OF THINGS COMMUNICATION
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The rapid growth of the Internet of Things (IoT) has connected billions of smart devices across healthcare, transportation, industrial automation, and smart home environments. While IoT has enhanced automation and data-driven decision-making, its widespread deployment has also increased the risk of cyberattacks. Conventional public-key cryptographic algorithms such as RSA and Elliptic Curve Cryptography (ECC) are vulnerable to future quantum computing attacks, particularly those based on Shor's algorithm. This paper proposes a Quantum-Resistant Cryptographic Framework (QRCF) for secure IoT communication using lattice-based cryptography integrated with lightweight authentication and efficient key management. The framework is designed to meet the computational limitations of IoT devices while ensuring long-term confidentiality and integrity. Performance evaluation demonstrates improvements in security resilience, authentication efficiency, and communication reliability compared with traditional cryptographic approaches. The proposed framework offers a scalable and future-ready solution for protecting IoT ecosystems in the post-quantum era.
Olivia R. Hayes et,al (2026); QUANTUM-RESISTANT CRYPTOGRAPHIC FRAMEWORK FOR SECURE INTERNET OF THINGS COMMUNICATION, Jana Nexus: Journal of Computer Science, 2 (06), 17-20, ISSN (O): 3108-1916. DOI URL: https://dx.doi.org/10.21474/JNCS01/140
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