Brunetta, CarloCarloBrunettaLiang, BeiBeiLiangMitrokotsa, AikateriniAikateriniMitrokotsa2023-04-132023-04-132018-11-30https://www.alexandria.unisg.ch/handle/20.500.14171/9982410.22667/JISIS.2018.11.30.057Lattice-based cryptography is evolving rapidly and is often employed to design cryptographic primitives that hold a great promise to be post-quantum resistant and can be employed in multiple application settings such as: e-cash, unique digital signatures, non-interactive lottery and others. In such application scenarios, a user is often required to prove non-interactively the correct computation of a pseudo-random function Fk(x) without revealing the secret key k used. Commitment schemes are also useful in application settings requiring to commit to a chosen but secret value that could be revealed later. In this short paper, we provide our insights on constructing a lattice-based simulatable verifiable random function (sVRF) using non interactive zero knowledge arguments and dual-mode commitment schemes and we point out the main challenges that need to be addressed in order to achieve it.enDual-Mode Commitment SchemeLattice-based CryptographyNon Interactive Zero Knowledge ArgumentsPseudo Random FunctionsVerifiable Random Functionsjournal article