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COCO
2010
Springer
2010
Springer
A New Sampling Protocol and Applications to Basing Cryptographic Primitives on the Hardness of NP
We investigate the question of what languages can be decided efficiently with the help of a recursive collisionfinding oracle. Such an oracle can be used to break collisionresistant hash functions or, more generally, statistically hiding commitments. The oracle we consider, Samd where d is the recursion depth, is based on the identically-named oracle defined in the work of Haitner et al. (FOCS '07). Our main result is a constant-round public-coin protocol "AM-Sam" that allows an efficient verifier to emulate a Samd oracle for any constant depth d = O(1) with the help of a BPPNP prover. AM-Sam allows us to conclude that if L is decidable by a k-adaptive randomized oracle algorithm with access to a SamO(1) oracle, then L AM[k] coAM[k]. The above yields the following corollary: assume there exists an O(1)-adaptive reduction that bases constant-round statistically hiding commitment on NP-hardness, then NP coAM and the polynomial hierarchy collapses. The same result holds ...
Real-time TrafficAlgorithms | COCO 2010 | Collisionresistant Hash Functions | Constant-round Public-coin Protocol | Oracle |
| Added | 08 Nov 2010 |
| Updated | 08 Nov 2010 |
| Type | Conference |
| Year | 2010 |
| Where | COCO |
| Authors | Iftach Haitner, Mohammad Mahmoody, David Xiao |
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