Title :
Cube-Type Algebraic Attacks on Wireless Encryption Protocols
Author :
Petrakos, Nikolaos ; Dinolt, George W. ; Michael, James Bret ; Stanica, Pantelimon
Abstract :
Formally evaluating the strengths of a given cryptosystem will ensure that no flaws have crept into the application. During our investigation, we adopted Armknecht and Krause´s approach to model the E0 encryption function, which does not depend on memory bits and will hold for every clock tick. We devised a polynomial of degree four consisting of 20 variables, 16 considered unknown and four known. We then created an automated tool in the Maple 12 environment (www. maplesoft.com) that finds all the maxterms and their corresponding linear-coefficient superpolys for the E0 encryption function.
Keywords :
cryptographic protocols; mathematics computing; radio networks; telecommunication security; E0 encryption function; Maple 12; cryptosystem; cube-type algebraic attacks; linear-coefficient superpolys; wireless encryption protocols; Clocks; Cryptography; Polynomials; Wireless application protocol; World Wide Web; Cube-type algebraic attacks; Linear-feedback shift registers; Security; Wireless-encryption protocols;
DOI :
10.1109/MC.2009.318
