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TCC
2007
Springer
2007
Springer
Lower Bounds for Non-interactive Zero-Knowledge
Abstract. We establish new lower bounds and impossibility results for noninteractive zero-knowledge proofs and arguments with set-up assumptions. – For the common random string model, we exhibit a lower bound for the trade-off between hardness assumptions and the length of the random string for non-interactive zero-knowledge proofs. This generalizes a previous result ruling out non-interactive zero-knowledge proofs for non-trivial languages with a random string of length O(log n). – In the registered public key model, we show that there does not exist a noninteractive zero-knowledge proof for a non-trivial language. – In the bare public key model with fully nonuniform simulation wherein the size of the simulator is also allowed to depend on the size of the distinguisher and the distinguishing gap, there does not exist a non-interactive zeroknowledge proof for an NP-complete language, unless the polynomial hierarchy collapses. On the other hand, there is a non-interactive zeroknow...
Real-time TrafficCryptography | Non-interactive Zero-knowledge Proofs | Noninteractive Zero-knowledge Proof | TCC 2007 | Zero-knowledge Proof |
| Added | 09 Jun 2010 |
| Updated | 09 Jun 2010 |
| Type | Conference |
| Year | 2007 |
| Where | TCC |
| Authors | Hoeteck Wee |
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