Secrecy in Cascade Networks
Abstract
We consider a cascade network where a sequence of nodes each send a message to their downstream neighbor to enable coordination, the first node having access to an information signal. An adversary also receives all of the communication as well as additional side-information. The performance of the system is measured by a payoff function evaluated on actions produced at each of the nodes, including the adversary. The challenge is to effectively use a secret key to infuse some level of privacy into the encoding, in order thwart the adversary's attempt to reduce the payoff. We obtain information-theoretic inner and outer bounds on performance, and give examples where they are tight. From these bounds, we also derive the optimal equivocation for this setting as a special case.
Cite
@article{arxiv.1411.0060,
title = {Secrecy in Cascade Networks},
author = {Paul Cuff},
journal= {arXiv preprint arXiv:1411.0060},
year = {2014}
}
Comments
ITW Sept. 2013, 5 pages, uses IEEEtran.cls