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Symmetric Private Information Retrieval with User-Side Common Randomness

Abstract

We consider the problem of symmetric private information retrieval (SPIR) with user-side common randomness. In SPIR, a user retrieves a message out of KK messages from NN non-colluding and replicated databases in such a way that no single database knows the retrieved message index (user privacy), and the user gets to know nothing further than the retrieved message (database privacy). SPIR has a capacity smaller than the PIR capacity which requires only user privacy, is infeasible in the case of a single database, and requires shared common randomness among the databases. We introduce a new variant of SPIR where the user is provided with a random subset of the shared database common randomness, which is unknown to the databases. We determine the exact capacity region of the triple (d,ρS,ρU)(d, \rho_S, \rho_U), where dd is the download cost, ρS\rho_S is the amount of shared database (server) common randomness, and ρU\rho_U is the amount of available user-side common randomness. We show that with a suitable amount of ρU\rho_U, this new SPIR achieves the capacity of conventional PIR. As a corollary, single-database SPIR becomes feasible. Further, the presence of user-side ρU\rho_U reduces the amount of required server-side ρS\rho_S.

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