Publications

Journal Articles

  • A Computationally Efficient Card-Based Majority Voting Protocol with Fewer Cards in the Private Model
    Author(s)
    Y. Abe, T. Nakai, Y. Watanabe, M. Iwamoto, and K. Ohta
    Journal
    IEICE Transactions on Fundamentals
    Vol.
    E106-A
    No.
    3
    Pages
    315–324
    Publisher
    IEICE
    Publication Year
    2023
    Abstract

    Card-based cryptography realizes secure multiparty computation using physical cards. In 2018, Watanabe et al. proposed a card-based three-input majority voting protocol using three cards. In a card-based cryptographic protocol with n-bit inputs, it is known that a protocol using shuffles requires at least 2n cards. In contrast, as Watanabe et al.'s protocol, a protocol using private permutations can be constructed with fewer cards than the lower bounds above. Moreover, an n-input protocol using private permutations would not even require n cards in principle since a private permutation depending on an input can represent the input without using additional cards. However, there are only a few protocols with fewer than n cards. Recently, Abe et al. extended Watanabe et al.'s protocol and proposed an n-input majority voting protocol with n cards and n + \floor{n/2} + 1 private permutations. This paper proposes an n-input majority voting protocol with \ceil{n/2}+1 cards and 2n-1 private permutations, which is also obtained by extending Watanabe et al.'s protocol. Compared with Abe et al.'s protocol, although the number of private permutations increases by about n/2, the number of cards is reduced by about n/2. In addition, unlike Abe et al.'s protocol, our protocol includes Watanabe et al.'s protocol as a special case where n=3.