Two-Party Function Computation on the Reconciled Data
Abstract
In this paper, we initiate a study of a new problem termed function computation on the reconciled data, which generalizes a set reconciliation problem in the literature. Assume a distributed data storage system with two users and . The users possess a collection of binary vectors and , respectively. They are interested in computing a function of the reconciled data . It is shown that any deterministic protocol, which computes a sum and a product of reconciled sets of binary vectors represented as nonnegative integers, has to communicate at least and bits in the worst-case scenario, respectively, where is the length of the binary vectors. Connections to other problems in computer science, such as set disjointness and finding the intersection, are established, yielding a variety of additional upper and lower bounds on the communication complexity. A protocol for computation of a sum function, which is based on use of a family of hash functions, is presented, and its characteristics are analyzed.
Cite
@article{arxiv.1701.07495,
title = {Two-Party Function Computation on the Reconciled Data},
author = {Ivo Kubjas and Vitaly Skachek},
journal= {arXiv preprint arXiv:1701.07495},
year = {2017}
}