Abstract. We design an efficient commitment scheme, and companion zero-knowledge proofs of knowledge, based on the learning with errors over rings (RLWE) problem. In particular, for rings in which almost all elements have inverses, we construct a perfectly binding commitment scheme whose hiding property relies on the RLWE assumption. Our scheme maps elements from the ring (or equivalently, n elements from Fq) to a small constant number of ring elements. We then construct Σ-protocols for proving, in a zero-knowledge manner, knowledge of the message contained in a commitment. We are able to further extend our basic protocol to allow us to prove additive and multiplicative relations among committed values. Our protocols have a communication co...
In order to solve the problem of large key size and low efficiency in the linkable ring signature sc...
Abstract. We propose a general technique that allows improving the complexity of zero-knowledge prot...
We construct a perfectly binding string commitment scheme whose security is based on the learning pa...
We extend a commitment scheme based on the learning with errors over rings (RLWE) problem, and prese...
We extend a commitment scheme based on the learning with errors over rings (RLWE) problem, and prese...
Zero-Knowledge proof is a very basic and important primitive, which allows a prover to prove some st...
We present efficient Zero-Knowledge Proofs of Knowledge (ZKPoK) for linear and multiplicative relati...
We present a zero-knowledge proof system [19] for any NP language L, whichallows showing that x in L...
Abstract. We study the question whether the number of rounds in public-coin perfect zero-knowledge (...
The Learning with Errors (LWE) problem is the fundamental backbone of modern lattice-based cryptogra...
Abstract. Even though Zero-knowledge has existed for more than 30 years, few generic constructions f...
We propose a new zero-knowledge protocol for proving knowledge of short preimages under additively h...
We construct a practical lattice-based zero-knowledge argument for proving multiplicative relations ...
With the recent emergence of efficient zero-knowledge (ZK) proofs for general circuits, while effici...
We give computationally efficient zero-knowledge proofs of knowledge for arithmetic circuit satisfia...
In order to solve the problem of large key size and low efficiency in the linkable ring signature sc...
Abstract. We propose a general technique that allows improving the complexity of zero-knowledge prot...
We construct a perfectly binding string commitment scheme whose security is based on the learning pa...
We extend a commitment scheme based on the learning with errors over rings (RLWE) problem, and prese...
We extend a commitment scheme based on the learning with errors over rings (RLWE) problem, and prese...
Zero-Knowledge proof is a very basic and important primitive, which allows a prover to prove some st...
We present efficient Zero-Knowledge Proofs of Knowledge (ZKPoK) for linear and multiplicative relati...
We present a zero-knowledge proof system [19] for any NP language L, whichallows showing that x in L...
Abstract. We study the question whether the number of rounds in public-coin perfect zero-knowledge (...
The Learning with Errors (LWE) problem is the fundamental backbone of modern lattice-based cryptogra...
Abstract. Even though Zero-knowledge has existed for more than 30 years, few generic constructions f...
We propose a new zero-knowledge protocol for proving knowledge of short preimages under additively h...
We construct a practical lattice-based zero-knowledge argument for proving multiplicative relations ...
With the recent emergence of efficient zero-knowledge (ZK) proofs for general circuits, while effici...
We give computationally efficient zero-knowledge proofs of knowledge for arithmetic circuit satisfia...
In order to solve the problem of large key size and low efficiency in the linkable ring signature sc...
Abstract. We propose a general technique that allows improving the complexity of zero-knowledge prot...
We construct a perfectly binding string commitment scheme whose security is based on the learning pa...