Pairing-Based Cryptography Pairing 2007 [electronic resource] : First International Conference, Tokyo, Japan, July 2-4, 2007. Proceedings / edited by Tsuyoshi Takagi, Tatsuaki Okamoto, Eiji Okamoto, Takeshi Okamoto.
Tipo de material: TextoSeries Lecture Notes in Computer Science ; 4575 | Lecture Notes in Computer Science ; 4575Editor: Berlin, Heidelberg : Springer Berlin Heidelberg, 2007Descripción: XIII, 410 p. online resourceTipo de contenido:- text
- computer
- online resource
- 9783540734895
- SpringerLink (Online service)
- 005.82 23
- Libro electrónico
Invited Talk I -- Bilinear Groups of Composite Order -- Public Key Encryption with Conjunctive Keyword Search and Its Extension to a Multi-user System -- Practical Time Capsule Signatures in the Standard Model from Bilinear Maps -- Fully Collusion Secure Dynamic Broadcast Encryption with Constant-Size Ciphertexts or Decryption Keys -- Certificateless Public Key Encryption in the Selective-ID Security Model (Without Random Oracles) -- General and Efficient Certificateless Public Key Encryption Constructions -- Invited Talk II -- Hyperelliptic Pairings -- Zeta Function and Cryptographic Exponent of Supersingular Curves of Genus 2 -- Constructing Pairing-Friendly Genus 2 Curves with Ordinary Jacobians -- Invited Talk III -- Implementing Cryptographic Pairings over Barreto-Naehrig Curves -- Instruction Set Extensions for Pairing-Based Cryptography -- The Importance of the Final Exponentiation in Pairings When Considering Fault Attacks -- Protocol I -- Proxy Re-encryption Systems for Identity-Based Encryption -- Fair Blind Signatures Revisited -- Invited Talk IV -- Supersingular Elliptic Curves in Cryptography -- On the Minimal Embedding Field -- Remarks on Cheons Algorithms for Pairing-Related Problems -- Invited Talk V -- On Pairing Inversion Problems -- The Tate Pairing Via Elliptic Nets -- Eta Pairing Computation on General Divisors over Hyperelliptic Curves y 2?=?x 7???x Ø1 -- Protocol II -- Provably Secure Pairing-Based Convertible Undeniable Signature with Short Signature Length -- Identity-Based Encryption: How to Decrypt Multiple Ciphertexts Using a Single Decryption Key.
ZDB-2-SCS
ZDB-2-LNC
No hay comentarios en este titulo.