Proxy Signature Scheme with Effective Revocation Using Bilinear Pairings

We present a proxy signature scheme using bilinear pairings that provides effective proxy revocation. The scheme uses a binding-blinding technique to avoid secure channel requirements in the key issuance stage. With this technique, the signer receives a partial private key from a trusted authority and unblinds it to get his private key, in turn, overcomes the key escrow problem which is a constraint in most of the pairing-based proxy signature schemes. The scheme fulfills the necessary security requirements of proxy signature and resists other possible threats

A Strong Proxy Signature Scheme based on Partial Delegation

Proxy signature scheme is an extension of digital signature scheme first introduced by Mambo et al. in 1996, which allows a signer to delegate the signing capability to a designated person, called a proxy signer. There are three types of delegation, namely, full delegation, partial delegation, and delegation by warrant. In early proxy signature schemes, the identity of the proxy signer can be revealed by any trusted authority if needed. How- ever, a secured proxy signature scheme must satisfy various properties, such as, verifiability, strong un-forgeability, nonrepudiation, privacy, and strong identifiability. In this thesis, we propose a strong proxy signature scheme based on two computationally hard assumptions, namely, Discrete Logarithmic Problem (DLP) and Computational Die-Helmann (CDH) problem, which satisfies all the security properties of a standard proxy signature scheme. The property `strong' refers to the fact that only a designated person can only verify the authenticity of the proxy signature

Strong identity-based proxy signature schemes, revisited

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Security Arguments for Partial Delegation with Warrant Proxy Signature Schemes

Proxy signature is an important cryptographic primitive and has been suggested in numerous applications. In this paper, we present an attack on the aggregate-signature-based proxy signature schemes, then point out there are two flaws in BPW notion of security for proxy signature. Furthermore, we give arguments for partial delegation with warrant proxy signature schemes. We construct a new proxy signature scheme and prove that it is secure against existentially forgery on adaptively chosen-message attacks and adaptively chosen-warrant attacks under the random oracle model

A Scheme for obtaining a Warrant Message from the Digital Proxy Signatures

Mambo et al [6-7] introduced a proxy signature scheme. Neuman [8] extended the scheme for delegation by warrant, which was further extended by Kim et al [4] to partial delegation with a warrant. In this paper we propose a new type of digital proxy signature scheme in which the warrant message can be recovered from the proxy signature. In this scheme the warrant message is conveyed within the proxy signature and recovered by the verifier, i.e., the warrant need not be hashed or sent along with the proxy signature. It saves both communication bandwidth and storage space

Strong proxy signature scheme with proxy signer privacy protection.

by Shum Kwan.Thesis (M.Phil.)--Chinese University of Hong Kong, 2002.Includes bibliographical references (leaves 30-32).Abstracts in English and Chinese.Acknowledgement --- p.iiAbstract --- p.iii□ □ --- p.ivChapter 1 . --- Introduction --- p.1Chapter 1.1 --- Introduction to topic --- p.1Chapter 1.2 --- What is proxy signature? --- p.2Chapter 1.3 --- Terminologies in proxy signature --- p.2Chapter 1.4 --- Levels of delegation --- p.3Chapter 1.5 --- Previous work on Proxy Signature --- p.4Chapter 1.6 --- Our Contributions --- p.4Chapter 1.7 --- Thesis Organization --- p.4Chapter 2. --- Backgroun d --- p.6Chapter 2.1 --- Digital Signature --- p.6Chapter 2.2 --- Digital Certificate and CA --- p.6Chapter 2.3 --- Hash Functions --- p.7Chapter 2.4 --- Bit commitment --- p.7Chapter 3. --- Brief introduction to Our Result --- p.8Chapter 3.1 --- A Proxy Signature Scheme with Proxy Signer Privacy Protection --- p.8Chapter 3.2 --- Applications of Proxy Signature --- p.9Chapter 4. --- Detail Explanation of Certified Alias and its Application on Proxy Signature --- p.10Chapter 4.1 --- Introduction --- p.10Chapter 4.2 --- Protecting Signer Privacy Using Certified Alias Definition 4.2.3 --- p.10Chapter 4.3 --- Constructing Proxy signature Scheme by Consecutive Execution of Cryptographic Primitives (Scheme CE) --- p.11Chapter 4.4 --- Constructing Proxy signature Scheme by Direct Form Equations (Scheme DF) --- p.15Chapter 4.5 --- Comparison between scheme CE and scheme DF --- p.19Chapter 4.6 --- Chapter Summary --- p.20Chapter 5 . --- Applications of Proxy Signature with Proxy Signer Privacy Protection --- p.21Chapter 5.1 --- Secure Mobile agent Signature with Itinerary Privacy --- p.21Chapter 5.1.1 --- Introduction to Mobile Agent --- p.21Chapter 5.1.2 --- "Review on Lee, et al. strong non-designated proxy signature scheme for mobile agents" --- p.21Chapter 5.1.3 --- Constructing Signature scheme for Mobile Agent using Proxy signature with Proxy Signer Privacy Protection --- p.22Chapter 5.1.4 --- Remarks --- p.23Chapter 5.2 --- Group Signature with Unlimited Group Size --- p.24Chapter 5.2.1 --- Introduction to group signature --- p.24Chapter 5.2.2 --- Constructing group signature scheme using certified alias --- p.24Chapter 5.2.4 --- Remarks --- p.26Chapter 5.3 --- Chapter Summary --- p.27Chapter 6. --- Conclusions --- p.28Appendix: Paper derived from this thesis --- p.29Bibliography --- p.3