Authors: Randy Kuang

Published on: February 02, 2024

Impact Score: 8.52

Arxiv code: Arxiv:2402.01852

Summary

• What is new: Introduction of a unified cryptographic framework leveraging quantum-secure algorithms: Quantum Permutation Pad and Homomorphic Polynomial Public Key.
• Why this is important: The emerging threats quantum computing poses to classical cryptographic systems.
• What the research proposes: A new cryptographic framework utilizing Quantum Permutation Pad for symmetric key encryption and Homomorphic Polynomial Public Key for Key Encapsulation Mechanism and Digital Signatures.
• Results: Exceptional performance with compact key, cipher, and signature sizes; a robust solution against quantum threats, ensuring secure communication.

Technical Details

Technological frameworks used: Unified cryptographic framework rooted in the Galois Permutation Group.

Models used: Quantum Permutation Pad (QPP) and Homomorphic Polynomial Public Key (HPPK)

Data used: Matrix representations of Galois Permutation Group

Potential Impact

Cybersecurity firms, Quantum computing companies, Financial services, Government defense sectors

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