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A Quantum-Resistant Face Template Protection Scheme using Kyber and Saber Public Key Encryption Algorithms

Roberto Román, Rosario Arjona, Paula López-González, Iluminada Baturone

202216 citationsDOIOpen Access PDF

Abstract

Considered sensitive information by the ISO/IEC 24745, biometric data should be stored and used in a protected way. If not, privacy and security of end-users can be compromised. Also, the advent of quantum computers demands quantum-resistant solutions. This work proposes the use of Kyber and Saber public key encryption (PKE) algorithms together with homomorphic encryption (HE) in a face recognition system. Kyber and Saber, both based on lattice cryptography, were two finalists of the third round of NIST post-quantum cryptography standardization process. After the third round was completed, Kyber was selected as the PKE algorithm to be standardized. Experimental results show that recognition performance of the non-protected face recognition system is preserved with the protection, achieving smaller sizes of protected templates and keys, and shorter execution times than other HE schemes reported in literature that employ lattices. The parameter sets considered achieve security levels of 128, 192 and 256 bits.

Topics & Concepts

Computer scienceHomomorphic encryptionEncryptionNISTCryptographyAlgorithmStandardizationPublic-key cryptographyQuantum cryptographyQuantum computerComputer securityTheoretical computer scienceQuantumQuantum informationOperating systemSpeech recognitionPhysicsQuantum mechanicsBiometric Identification and SecurityChaos-based Image/Signal EncryptionCryptography and Data Security
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