Title :
Bound for linear complexity of quadratic functions in Fp
Author :
Vitini, F. Montoya ; Masque, J. Munoz ; Dominguez, A. Peinado
Author_Institution :
Dept. Tratamiento de la Inf. y Codificacion, CSIC, Spain
Abstract :
Information security is of capital importance, and several cryptographic techniques have been developed to perform the security services required, not only data confidentiality. Taking into account the high speed of the current broadband, the only cryptographic techniques one can use are those based on symmetric systems, and more precisely, those based on stream ciphers. Pseudorandom sequences are the basis of these cryptosystems, and many different generators have been defined. This paper deals with quadratic functions in finite fields, frequently used in cryptography, as a pseudorandom number generation. The importance of this kind of function is not limited to pseudorandom sequence generation, but to public-key cryptosystems. We focus on an important parameter regarding the randomness of the sequences generated: linear complexity as an unpredictability measurement
Keywords :
computational complexity; cryptography; random number generation; broadband; cryptosystems; finite fields; information security; linear complexity bound; pseudorandom number generation; pseudorandom sequence generation; public-key cryptosystems; quadratic functions; stream ciphers; symmetric systems; unpredictability measurement; Computer network management; Cryptography; Galois fields; Information management; Information security; Intelligent networks; Orbits; Polynomials; Random sequences; Videoconference;
Conference_Titel :
Security Technology, 1999. Proceedings. IEEE 33rd Annual 1999 International Carnahan Conference on
Conference_Location :
Madrid
Print_ISBN :
0-7803-5247-5
DOI :
10.1109/CCST.1999.797936
