Certified Everlasting Zero-Knowledge Proof for QMA

Abstract: In known constructions of classical zero-knowledge protocols for NP, either of zero-knowledge or soundness holds only against computationally bounded adversaries. Indeed, achieving both statistical zero-knowledge and statistical soundness at the same time with classical verifier is impossible for NP unless the polynomial-time hierarchy collapses, and it is also believed to be impossible even with a quantum verifier. In this work, we introduce a novel compromise, which we call the certified everlasting zero-kno… Show more

“…For instance, based on quantum information engineering, a technique for local energy distribution to numerous remote nodes is presented in [42], while a verification scheme applicable in a quantum channel is developed in [43]. On the other hand, a blind quantum-based protocol is presented in [44], while a zero-knowledge proof is developed in [45]. However, comparative performance analyses have not been carried out in [42][43][44][45].…”

“…On the other hand, a blind quantum-based protocol is presented in [44], while a zero-knowledge proof is developed in [45]. However, comparative performance analyses have not been carried out in [42][43][44][45]. As explained in [46], blockchain technology can ensure privacy and security devoid of an authorized third party.…”

A Provably Secure Anonymous Authentication Protocol for Consumer and Service Provider Information Transmissions in Smart Grids

“…For instance, based on quantum information engineering, a technique for local energy distribution to numerous remote nodes is presented in [42], while a verification scheme applicable in a quantum channel is developed in [43]. On the other hand, a blind quantum-based protocol is presented in [44], while a zero-knowledge proof is developed in [45]. However, comparative performance analyses have not been carried out in [42][43][44][45].…”

“…On the other hand, a blind quantum-based protocol is presented in [44], while a zero-knowledge proof is developed in [45]. However, comparative performance analyses have not been carried out in [42][43][44][45]. As explained in [46], blockchain technology can ensure privacy and security devoid of an authorized third party.…”

A Provably Secure Anonymous Authentication Protocol for Consumer and Service Provider Information Transmissions in Smart Grids