Privacy in Index Coding: Improved Bounds and Coding Schemes
Abstract
It was recently observed in [1], that in index coding, learning the coding matrix used by the server can pose privacy concerns: curious clients can extract information about the requests and side information of other clients. One approach to mitigate such concerns is the use of -limited-access schemes [1], that restrict each client to learn only part of the index coding matrix, and in particular, at most rows. These schemes transform a linear index coding matrix of rank to an alternate one, such that each client needs to learn at most of the coding matrix rows to decode its requested message. This paper analyzes -limited-access schemes. First, a worst-case scenario, where the total number of clients is is studied. For this case, a novel construction of the coding matrix is provided and shown to be order-optimal in the number of transmissions. Then, the case of a general is considered and two different schemes are designed and analytically and numerically assessed in their performance. It is shown that these schemes perform better than the one designed for the case .
Cite
@article{arxiv.1801.03892,
title = {Privacy in Index Coding: Improved Bounds and Coding Schemes},
author = {Mohammed Karmoose and Linqi Song and Martina Cardone and Christina Fragouli},
journal= {arXiv preprint arXiv:1801.03892},
year = {2018}
}