Information-Theoretically Secure Three-Party Computation with One Corrupted Party
Abstract
The problem in which one of three pairwise interacting parties is required to securely compute a function of the inputs held by the other two, when one party may arbitrarily deviate from the computation protocol (active behavioral model), is studied. An information-theoretic characterization of unconditionally secure computation protocols under the active behavioral model is provided. A protocol for Hamming distance computation is provided and shown to be unconditionally secure under both active and passive behavioral models using the information-theoretic characterization. The difference between the notions of security under the active and passive behavioral models is illustrated through the BGW protocol for computing quadratic and Hamming distances; this protocol is secure under the passive model, but is shown to be not secure under the active model.
Keywords
Cite
@article{arxiv.1206.2669,
title = {Information-Theoretically Secure Three-Party Computation with One Corrupted Party},
author = {Ye Wang and Prakash Ishwar and Shantanu Rane},
journal= {arXiv preprint arXiv:1206.2669},
year = {2013}
}
Comments
7 pages, 1 figure, submitted to ISIT 2013