Secrecy Communication with Security Rate Measure
Abstract
We introduce a new measure on secrecy, which is established based on rate-distortion theory. It is named \emph{security rate}, which is the minimum (infimum) of the additional rate needed to reconstruct the source within target distortion level with any positive probability for wiretapper. It denotes the minimum distance in information metric (bits) from what wiretapper has received to any decrypted reconstruction (where decryption is defined as reconstruction within target distortion level with some positive possibility). By source coding theorem, it is equivalent to a distortion-based equivocation which can be seen as a direct extension of equivocation to lossy decryption case, given distortion level and the received (encrypted) message of wiretapper. In this paper, we study it in Shannon cipher system with lossless communication, where a source is transmitted from sender to legitimate receiver secretly and losslessly, and also eavesdropped by a wiretapper. We characterize the admissible region of secret key rate, coding rate of the source, wiretapper distortion, and security rate (distortion-based equivocation). Since the security rate equals the distortion-based equivocation, and the equivocation is a special case of the distortion-based equivocation (with Hamming distortion measure and ), this gives an answer for the meaning of the maximum equivocation.
Cite
@article{arxiv.1504.04239,
title = {Secrecy Communication with Security Rate Measure},
author = {Lei Yu and Houqiang Li and Weiping Li},
journal= {arXiv preprint arXiv:1504.04239},
year = {2015}
}
Comments
10 pages, submitted to IEEE ITW 2015. arXiv admin note: text overlap with arXiv:1410.2881 by other authors