Paper Info
Title
Certificateless undeniable signatures from bilinear maps
Abstract
Certificateless public-key cryptosystem avoids the inherent key escrow problem in identity-based public-key cryptosystem, and does not need expensive certificates in the public key infrastructure. This cryptographic primitive has received a significant attention since it was introduced, and lots of certificateless schemes have been proposed in the past years. In this paper, we propose an certificateless undeniable signature scheme based on bilinear maps. To formally analyze the security of the proposed scheme, we extend security notions of undeniable signatures in the traditional public key infrastructure to the certificateless setting. Under the formally defined security models, we prove that our proposed scheme satisfies all the security properties under certain standard assumptions in the random oracle model. Compared with existed certificateless undeniable signatures, the sign algorithm of our scheme is more efficient, the weakness is that the unforgeability of our scheme is proved in a weak model.
Year
DOI
Venue
2012
10.1016/j.ins.2012.02.046
Inf. Sci.
Keywords
Field
DocType
bilinear map,security notion,certificateless undeniable signature,public key infrastructure,certificateless scheme,security property,proposed scheme,security model,certificateless undeniable signature scheme,certificateless setting,inherent key escrow problem,undeniable signature,random oracle model,provable security
Public key infrastructure,Undeniable signature,Computer security,Random oracle,Cryptosystem,Cryptographic primitive,Key escrow,Mathematics,Computer security model,Provable security
Journal
Volume
ISSN
Citations 
199,
0020-0255
5
PageRank 
References 
Authors
0.52
33
2
Name
Order
Citations
PageRank
Wei Zhao1266.40
Dingfeng Ye2547.67