Title :
Tight Exponential Analysis of Universally Composable Privacy Amplification and Its Applications
Author_Institution :
Grad. Sch. of Inf. Sci., Tohoku Univ., Sendai, Japan
Abstract :
Motivated by the desirability of universal composability, we analyze in terms of L1 distinguishability the task of secret key generation from a joint random variable. Under this secrecy criterion, using the Rényi entropy of order 1+s for s ∈ [0,1], we derive a new upper bound of Eve´s distinguishability under the application of the universal2 hash functions. It is also shown that this bound gives the tight exponential rate of decrease in the case of independent and identical distributions. The result is applied to the wiretap channel model and to secret key generation (distillation) by public discussion.
Keywords :
cryptography; Rényi entropy; exponential rate; hash functions; identical distributions; independent distributions; joint random variable; secret key generation; tight exponential analysis; universally composable privacy amplification; wiretap channel model; Entropy; Mutual information; Privacy; Protocols; Random number generation; Random variables; $L_{1}$ norm distance; ${rm universal}_{2}$ hash functions; sacrifice bits; secret key distillation; universal composability; wiretap channel;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2013.2278971
