English

Multi-Server Private Linear Transformation with Joint Privacy

Information Theory 2021-08-24 v1 Information Retrieval math.IT

Abstract

This paper focuses on the Private Linear Transformation (PLT) problem in the multi-server scenario. In this problem, there are NN servers, each of which stores an identical copy of a database consisting of KK independent messages, and there is a user who wishes to compute LL independent linear combinations of a subset of DD messages in the database while leaking no information to the servers about the identity of the entire set of these DD messages required for the computation. We focus on the setting in which the coefficient matrix of the desired LL linear combinations generates a Maximum Distance Separable (MDS) code. We characterize the capacity of the PLT problem, defined as the supremum of all achievable download rates, for all parameters N,K,D1N, K, D \geq 1 and L=1L=1, i.e., when the user wishes to compute one linear combination of DD messages. Moreover, we establish an upper bound on the capacity of PLT problem for all parameters N,K,D,L1N, K, D, L \geq 1, and leveraging some known capacity results, we show the tightness of this bound in the following regimes: (i) the case when there is a single server (i.e., N=1N=1), (ii) the case when L=1L=1, and (iii) the case when L=DL=D.

Keywords

Cite

@article{arxiv.2108.09843,
  title  = {Multi-Server Private Linear Transformation with Joint Privacy},
  author = {Fatemeh Kazemi and Alex Sprintson},
  journal= {arXiv preprint arXiv:2108.09843},
  year   = {2021}
}

Comments

arXiv admin note: text overlap with arXiv:1906.11278

R2 v1 2026-06-24T05:19:42.289Z