Lattice-based proof of a shuffle

B Terelius; C Baum; D Micciancio; D Unruh; D Unruh; D Wikström; D Wikström; DL Chaum; F Benhamouda; I Chillotti; J Furukawa; J Furukawa; J Groth; J Groth; J Groth; K Sako; K Singh; M Abe; M Abe; M Abe; M Strand; N Costa; PW Shor; R Cramer; R Pino del; S Bayer; V Lyubashevsky

Lattice-based proof of a shuffle

Authors: B Terelius
C Baum
D Micciancio
D Unruh
D Unruh
D Wikström
D Wikström
DL Chaum
F Benhamouda
I Chillotti
J Furukawa
J Furukawa
J Groth
J Groth
J Groth
K Sako
K Singh
M Abe
M Abe
M Abe
M Strand
N Costa
PW Shor
R Cramer
R Pino del
S Bayer
V Lyubashevsky
Publication date: 21 October 2020
Publisher: International Association for Cryptologic Research (IACR)
Doi

Abstract

In this paper we present the first fully post-quantum proof of a shuffle for RLWE encryption schemes. Shuffles are commonly used to construct mixing networks (mix-nets), a key element to ensure anonymity in many applications such as electronic voting systems. They should preserve anonymity even against an attack using quantum computers in order to guarantee long-term privacy. The proof presented in this paper is built over RLWE commitments which are perfectly binding and computationally hiding under the RLWE assumption, thus achieving security in a post-quantum scenario. Furthermore we provide a new definition for a secure mixing node (mix-node) and prove that our construction satisfies this definition

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Last time updated on 10/08/2021

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oai:eprint.iacr.org:2019/357

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