Beyond Yao's Millionaires: Secure Multi-Party Computation of Non-Polynomial Functions

Abstract

In this paper, we present an unconditionally secure N-party comparison scheme based on Shamir secret sharing, utilizing the binary representation of private inputs to determine the without disclosing any private inputs or intermediate results. Specifically, each party holds a private number and aims to ascertain the greatest number among the N available private numbers without revealing its input, assuming that there are at most T < N2 honest-but-curious parties. The proposed scheme demonstrates a lower computational complexity compared to existing schemes that can only compare two secret numbers at a time. To the best of our knowledge, our scheme is the only information-theoretically secure method for comparing N private numbers without revealing either the private inputs or any intermediate results. We demonstrate that by modifying the proposed scheme, we can compute other well-known non-polynomial functions of the inputs, including the minimum, median, and rank. Additionally, in the proposed scheme, before the final reveal phase, each party possesses a share of the result, enabling the nodes to compute any polynomial function of the comparison result. We also explore various applications of the proposed comparison scheme, including federated learning.

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