Ching-Hua Yu scite author profile

Abstract. We present a new framework to design secure two-party computation protocols for exponentiation over integers and over ZQ where Q is a publicly-known prime. Using our framework, we realize efficient protocols in the semi-honest setting. Assuming the base is non-zero, and the exponent is at most Q/2 for the ZQ case, our protocols consist of at most 5 rounds (each party sending 5 messages) and the total communication consists of a small constant number (≤ 18) of encrypted/encoded elements in ZQ. Without these assumptions, our protocols are still more efficient than a protocol recently proposed by Damgård et al. in TCC 2006 (24 vs. > 114 rounds, ≈ 279 +12t for an error rate of 2 −t vs. > 110 log secure multiplications, where is the bit length of the shares).Our protocols are constructed from different instantiations of our framework with different assumptions (homomorphic encryption or oblivious transfers) to achieve different advantages. Our key idea is to exploit the properties of both additive and multiplicative secret sharing. We also propose efficient transformation protocols between these sharings, which might be of independent interest.

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Probabilistically Correct Secure Arithmetic Computation for Modular Conversion, Zero Test, Comparison, MOD and Exponentiation

Yang

2012

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Mining Community Structures in Peer-to-Peer Environments

Peng

Lee

2008

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Ching-Hua Yu

Secure Protocol Transformations

Efficient Secure Two-Party Exponentiation

Probabilistically Correct Secure Arithmetic Computation for Modular Conversion, Zero Test, Comparison, MOD and Exponentiation

Mining Community Structures in Peer-to-Peer Environments

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