Hevia, Alejandro.

Progress in Cryptology – LATINCRYPT 2012 2nd International Conference on Cryptology and Information Security in Latin America, Santiago, Chile, October 7-10, 2012. Proceedings / [electronic resource] : edited by Alejandro Hevia, Gregory Neven. - XII, 323 p. 26 illus. online resource. - Lecture Notes in Computer Science, 7533 0302-9743 ; .

Indifferentiable Hashing to Barreto–Naehrig Curves -- Semi-bent Functions with Multiple Trace Terms and Hyperelliptic Curves -- Complete Atomic Blocks for Elliptic Curves in Jacobian Coordinates over Prime Fields -- Message-Based Traitor Tracing with Optimal Ciphertext Rate -- Leakage-Resilient Spatial Encryption -- On the Pseudorandom Function Assumption in (Secure) Distance- Bounding Protocols: PRF-ness alone Does Not Stop the Frauds! -- Lattice-Based Hierarchical Inner Product Encryption -- Towards Efficient Arithmetic for Lattice-Based Cryptography on Reconfigurable Hardware -- The Security Impact of a New Cryptographic Library -- Faster Implementation of Scalar Multiplication on Koblitz Curves -- Zero-Knowledge for Multivariate Polynomials -- Improved Exponentiation and Key Agreement in the Infrastructure of a Real Quadratic Field -- UOWHFs from OWFs: Trading Regularity for Efficiency -- Random Mappings with Restricted Preimages -- On the Sosemanuk Related Key-IV Sets -- High Speed Implementation of Authenticated Encryption for the MSP430X Microcontroller -- Infective Computation and Dummy Rounds: Fault Protection for Block Ciphers without Check-before-Output.

This book constitutes the proceedings of the 2nd International Conference on Cryptology and Information Security in Latin America, LATINCRYPT 2012, held in Santiago, Chile, on October 7-10, 2012. The 17 papers presented together with four invited talks and one student poster session were carefully reviewed and selected from 47 submissions. The papers are organized in topical sections on elliptic curves, cryptographic protocols, implementations, foundations, and symmetric-key cryptography.


Computer science.
Computer Communication Networks.
Data protection.
Data encryption (Computer science).
Coding theory.
Computational complexity.
Computer vision.
Computer Science.
Data Encryption.
Systems and Data Security.
Computer Communication Networks.
Discrete Mathematics in Computer Science.
Coding and Information Theory.
Computer Imaging, Vision, Pattern Recognition and Graphics.