Paper 2015/954
Online-Offline Homomorphic Signatures for Polynomial Functions
Kaoutar Elkhiyaoui and Melek Önen and Refik Molva
Abstract
The advent of cloud computing has given rise to a plethora of work on verifiable delegation of computation. Homomorphic signatures are a powerful tool that can be tailored for verifiable computation, as long as they are efficiently verifiable. The main advantages of homomorphic signatures are twofold: (i) public verifiability: Any third party can verify the correctness of the delegated computation; (ii) statelessness: The verifier is not required to have access to the dataset on which the computation was performed. Thus in this paper, we design a homomorphic signature suitable for multivariate polynomials of bounded degree, and which draws upon the algebraic properties of eigenvectors and leveled multilinear maps. The proposed signature yields an efficient verification process (in an amortized sense) and supports offline-online signing. Furthermore, our signature is provably secure and its size grows only linearly with the degree of the evaluated polynomial.
Metadata
- Available format(s)
- Category
- Cryptographic protocols
- Publication info
- Preprint. MINOR revision.
- Keywords
- Homomorphic SignaturesOnline-Offline Signatures
- Contact author(s)
- elkhiyao @ eurecom fr
- History
- 2017-06-12: revised
- 2015-10-01: received
- See all versions
- Short URL
- https://ia.cr/2015/954
- License
-
CC BY