Title :
Cryptographically resilient functions
Author :
Zhang, Xian-Mo ; Zheng, Yuliang
Author_Institution :
Dept. of Comput. Sci., Wollongong Univ., NSW, Australia
fDate :
9/1/1997 12:00:00 AM
Abstract :
This correspondence studies resilient functions which have applications in fault-tolerant distributed computing, quantum cryptographic key distribution, and random sequence generation for stream ciphers. We present a number of new methods for synthesizing resilient functions. An interesting aspect of these methods is that they are applicable both to linear and nonlinear resilient functions. Our second major contribution is to show that every linear resilient function can be transformed into a large number of nonlinear resilient functions with the same parameters. As a result, we obtain resilient functions that are highly nonlinear and have a high algebraic degree
Keywords :
cryptography; functions; algebraic degree; cryptographically resilient functions; fault-tolerant distributed computing; linear resilient functions; nonlinear resilient functions; quantum cryptographic key distribution; random sequence generation; stream ciphers; Australia Council; Computer science; Cryptography; Data security; Distributed computing; Fault tolerance; Filtering; Information technology; Quantum computing; Random sequences;
Journal_Title :
Information Theory, IEEE Transactions on
