Probabilistic Existence Results for Parent-Identifying Schemes
Abstract
Parent-identifying schemes provide a way to identify causes from effects for some information systems such as digital fingerprinting and group testing. In this paper, we consider combinatorial structures for parent-identifying schemes. First, we establish an equivalent relationship between parent-identifying schemes and forbidden configurations. Based on this relationship, we derive probabilistic existence lower bounds for two related combinatorial structures, that is, -parent-identifying set systems (-IPPS) and -multimedia parent-identifying codes (-MIPPC), which are used in broadcast encryption and multimedia fingerprinting respectively. The probabilistic lower bound for the maximum size of a -IPPS has the asymptotically optimal order of magnitude in many cases, and that for -MIPPC provides the asymptotically optimal code rate when and the best known asymptotic code rate when . Furthermore, we analyze the structure of -IPPS and prove some bounds for certain cases.
Keywords
Cite
@article{arxiv.1906.01031,
title = {Probabilistic Existence Results for Parent-Identifying Schemes},
author = {Yujie Gu and Minquan Cheng and Grigory Kabatiansky and Ying Miao},
journal= {arXiv preprint arXiv:1906.01031},
year = {2019}
}
Comments
14 pages