Title :
Keyless Authentication in a Noisy Model
Author_Institution :
Inst. of Inf. Security, Mianyang Normal Univ., Mianyang, China
Abstract :
We study a keyless authentication problem in a new noisy model, where there is a discrete memoryless channel (DMC) W1 from sender Alice to receiver Bob and a DMC W2 from adversary Oscar to Bob. In addition, there is an insecure noiseless channel between Alice and Bob. Under this model, we characterize the condition under which an authentication from Alice to Bob is possible. We also construct a secure authentication protocol that has an authentication rate approaching infinity. Finally, we prove that the authentication capacity of a noninteractive authentication over binary symmetric channels is exactly 1. This is an interesting result as Shannon capacity of channel W1 is strictly less than 1 while the noiseless channel is completely unreliable.
Keywords :
channel capacity; cryptographic protocols; memoryless systems; message authentication; DMC; Shannon capacity; authentication capacity; authentication rate; binary symmetric channel; discrete memoryless channel; insecure noiseless channel; keyless authentication; noisy model; noninteractive authentication; receiver Bob; secure authentication protocol; sender Alice; Authentication; Memoryless systems; Noise measurement; Protocols; Receivers; Zinc; Authentication; discrete memoryless channel; information theoretical security; wiretap channel;
Journal_Title :
Information Forensics and Security, IEEE Transactions on
DOI :
10.1109/TIFS.2014.2320634
