Efficient Attribute-Based Signatures for Non-Monotone Predicates in the Standard Model

Author

Okamoto, Tatsuaki ; Takashima, Katsuyuki

Author_Institution

Secure Platform Labs., NTT, Musashino, Japan

Volume

2

Issue

4

fYear

2014

fDate

Oct.-Dec. 1 2014

Firstpage

409

Lastpage

421

Abstract

This paper presents a fully secure (adaptive-predicate unforgeable and private) attribute-based signature (ABS) scheme in the standard model. The security of the proposed ABS scheme is proven under standard assumptions, the decisional linear (DLIN) assumption and the existence of collision resistant (CR) hash functions. The admissible predicates of the proposed ABS scheme are more general than those of the existing ABS schemes, i.e., the proposed ABS scheme is the first to support general non-monotone predicates, which can be expressed using NOT gates as well as AND, OR, and Threshold gates, while the existing ABS schemes only support monotone predicates. The proposed ABS scheme is comparably as efficient as (several times worse than) one of the most efficient ABS schemes, which is proven to be secure in the generic group model.

Keywords

cryptography; digital signatures; ABS scheme; AND gates; CR hash functions; DLIN assumption; NOT gates; OR gates; Threshold gates; attribute-based signature; attribute-based signatures; collision resistant hash functions; decisional linear assumption; generic group model; nonmonotone predicates; Cloud computing; Computational modeling; Computer security; Logic gates; Privacy; Standards; Attribute-based signatures; non-monotone predicates; standard model security;

fLanguage

English

Journal_Title

Cloud Computing, IEEE Transactions on

Publisher

ieee

ISSN

2168-7161

Type

jour

DOI

10.1109/TCC.2014.2353053

Filename

6887292