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Lattice-Based Post-Quantum Public Key Encryption Scheme Using ElGamal’s Principles

Dana Sairangazhykyzy Amirkhanova, Maksim Iavich, Оrken Mamyrbayev

2024Cryptography20 citationsDOIOpen Access PDF

Abstract

Modern technologies like quantum and cloud computing have reshaped computing, offering immense power and scalability. While beneficial, they also challenge the security of traditional cryptographic systems. Quantum computing threatens RSA and ECC with algorithms like Shor’s algorithm, which can accelerate computations exponentially. This risks exposing these systems to attacks, necessitating quantum-resistant cryptography. Cloud computing poses data security concerns, requiring robust cryptographic mechanisms and access controls. Lattice-based cryptography, leveraging problems like the Short Integer Solution (SIS), emerges as a solution. This paper presents a novel quantum-resistant public key encryption scheme based on ElGamal and SIS, ensuring security against quantum and classical threats in modern cryptographic environments.

Topics & Concepts

ElGamal encryptionComputer scienceQuantum computerLattice-based cryptographyCryptographyQuantum cryptographyEncryptionKey encapsulationPost-quantum cryptographyCryptographic primitiveDistributed computingTheoretical computer sciencePublic-key cryptographyComputer securitySymmetric-key algorithmCryptographic protocolQuantumQuantum informationPhysicsQuantum mechanicsCryptography and Data SecurityComplexity and Algorithms in GraphsBlockchain Technology Applications and Security
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