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Quantum-safe cryptography: crossroads of coding theory and cryptography

Jiabo Wang, Линг Лиу, Shanxiang Lyu, Zheng Wang, Mengfan Zheng, Fuchun Lin, Chen Zhao, Liuguo Yin, Xiaofu Wu, Cong Ling

2021Science China Information Sciences28 citationsDOIOpen Access PDF

Abstract

Abstract We present an overview of quantum-safe cryptography (QSC) with a focus on post-quantum cryptography (PQC) and information-theoretic security. From a cryptographic point of view, lattice and code-based schemes are among the most promising PQC solutions. Both approaches are based on the hardness of decoding problems of linear codes with different metrics. From an information-theoretic point of view, lattices and linear codes can be constructed to achieve certain secrecy quantities for wiretap channels as is intrinsically classical- and quantum-safe. Historically, coding theory and cryptography are intimately connected since Shannon’s pioneering studies but have somehow diverged later. QSC offers an opportunity to rebuild the synergy of the two areas, hopefully leading to further development beyond the NIST PQC standardization process. In this paper, we provide a survey of lattice and code designs that are believed to be quantum-safe in the area of cryptography or coding theory. The interplay and similarities between the two areas are discussed. We also conclude our understandings and prospects of future research after NIST PQC standardisation.

Topics & Concepts

CryptographyQuantum cryptographyComputer scienceSecrecyPost-quantum cryptographyCoding theoryTheoretical computer scienceLattice-based cryptographyNISTCryptographic primitiveInformation-theoretic securityEncryptionComputer securityQuantum informationQuantumCryptographic protocolPublic-key cryptographyQuantum mechanicsPhysicsNatural language processingCoding theory and cryptographyCryptography and Data SecurityWireless Communication Security Techniques
Quantum-safe cryptography: crossroads of coding theory and cryptography | Litcius