Author:
Langrehr Roman,Pan Jiaxin
Abstract
AbstractWe construct the first tightly secure hierarchical identity-based encryption (HIBE) scheme based
on standard assumptions, which solves an open problem from Blazy, Kiltz, and Pan (CRYPTO 2014).
At the core of our constructions is a novel randomization technique that enables us to randomize
user secret keys for identities with flexible length.The security reductions of previous HIBEs lose at least a factor of Q, which is the number of
user secret key queries. Different to that, the security loss of our schemes is only dependent on
the security parameter. Our schemes are adaptively secure based on the Matrix Diffie-Hellman
assumption, which is a generalization of standard Diffie-Hellman assumptions such as k-Linear. We
have two tightly secure constructions, one with constant ciphertext size, and the other with tighter
security at the cost of linear ciphertext size. Among other things, our schemes imply the first tightly
secure identity-based signature scheme by a variant of the Naor transformation.
Publisher
Springer Science and Business Media LLC
Subject
Applied Mathematics,Computer Science Applications,Software
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