Litcius/Paper detail

Verifiable Mix-Nets and Distributed Decryption for Voting from Lattice-Based Assumptions

Diego F. Aranha, Carsten Baum, Kristian Gjøsteen, Tjerand Silde

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Abstract

Cryptographic voting protocols have recently seen much interest from practitioners due to their (planned) use in countries such as Estonia, Switzerland, France, and Australia. Practical protocols usually rely on tested designs such as the mixing-and-decryption paradigm. There, multiple servers verifiably shuffle encrypted ballots, which are then decrypted in a distributed manner. While several efficient protocols implementing this paradigm exist from discrete log-type assumptions, the situation is less clear for post-quantum alternatives such as lattices. This is because the design ideas of the discrete log-based voting protocols do not carry over easily to the lattice setting, due to specific problems such as noise growth and approximate relations.

Topics & Concepts

Verifiable secret sharingComputer scienceVotingComputer securityLattice (music)Theoretical computer scienceDistributed computingProgramming languagePolitical scienceLawPhysicsAcousticsPoliticsSet (abstract data type)Cryptography and Data SecurityInternet Traffic Analysis and Secure E-votingPrivacy-Preserving Technologies in Data