Weizmann Logo
ECCC
Electronic Colloquium on Computational Complexity

Under the auspices of the Computational Complexity Foundation (CCF)

Login | Register | Classic Style



REPORTS > DETAIL:

Paper:

TR06-056 | 27th April 2006 00:00

An Unconditional Study of Computational Zero Knowledge

RSS-Feed

Abstract:

We prove a number of general theorems about ZK, the class of problems possessing (computational) zero-knowledge proofs. Our results are unconditional, in contrast to most previous works on ZK, which rely on the assumption that one-way functions exist.

We establish several new characterizations of ZK, and use these characterizations to prove results such as:
1. Honest-verifier ZK equals general ZK.
2. Public-coin ZK equals private-coin ZK.
3. ZK is closed under union.
4. ZK with imperfect completeness equals ZK with perfect completeness.
5. Any problem in ZK intersect NP can be proven in computational zero knowledge by a BPP^NP prover.
6. ZK with black-box simulators equals ZK with general, non-black-box simulators.
The above equalities refer to the resulting class of problems (and
do not necessarily preserve other efficiency measures such as round complexity).

Our approach is to combine the conditional techniques previously used in the study of ZK with the unconditional techniques developed in the study of SZK, the class of problems possessing statistical zero-knowledge proofs. To enable this combination, we prove that every problem in ZK can be decomposed into a problem in SZK together with a set of instances from which a one-way function can be constructed.



ISSN 1433-8092 | Imprint