A Unified Framework for Constructing Information-Theoretic Private Information Retrieval

TL;DR

This paper introduces a unified framework for constructing information-theoretic private information retrieval protocols using a new discrete structure, aiming to improve communication efficiency and encompass existing protocols.

Contribution

It proposes FOASC, a novel discrete structure, and a unified framework that captures existing IT-PIR protocols and opens avenues for future protocol development.

Findings

Framework captures most influential IT-PIR protocols

Introduces FOASC, a new discrete structure

Highlights open problems for future research

Abstract

Retrieving up-to-date information from a publicly accessible database poses significant threats to the user's privacy. {\em Private information retrieval} (PIR) protocols allow a user to retrieve any entry from a database, without revealing the identity of the entry being retrieved to the server(s). Such protocols have found numerous applications in both theoretical studies and real-life scenarios. The existing PIR constructions mainly give multi-server {\em information-theoretic} PIR (IT-PIR) protocols or single-server computational PIR (CPIR) protocols. Compared with CPIR, IT-PIR protocols are computationally more efficient and secure in the presence of unbounded servers. The most classical and challenging problem in the realm of IT-PIR is constructing protocols with lower {\em communication complexity}. In this review, we introduce a new discrete structure called {\em families of orthogonal arrays with span capability} (FOASC) and propose a unified framework for constructing IT-PIR protocols. We show how the most influential IT-PIR protocols in the literature can be captured by the framework. We also put forward several interesting open problems concerning FOASC, whose solutions may result in innovative IT-PIR protocols.