Secure Auctions without an Auctioneer via Verifiable Secret Sharing

Proceedings of the 2015 Workshop on Privacy-Aware Mobile Computing Pub Date : 2015-06-22 DOI:10.1145/2757302.2757305

Maya Larson, Chun-qiang Hu, Ruinian Li, Wei Li, Xiuzhen Cheng

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引用次数: 16

Abstract

Combinatorial auctions are a research hot spot. They impact people's daily lives in many applications such as spectrum auctions held by the FCC. In such auctions, bidders may want to submit bids for combinations of goods. The challenge is how to protect the privacy of bidding prices and ensure data security in these auctions? To tackle this challenge, we present an approach based on verifiable secret sharing. The approach is to represent the price in the degree of a polynomial; thus the maximum/sum of the degree of two polynomials can be obtained by the degree of the sum/product of the two polynomials based on secret sharing. This protocol hides the information of bidders (bidding price) from the auction servers. The auctioneers can obtain their secret shares from bidders without a secure channel. Since it doesn't need a secure channel, this scheme is more practical and applicable to more scenarios. This scheme provides resistance to collusion attacks, conspiracy attacks, passive attacks and so on. Compared to [11, 12], our proposed scheme provides authentication without increasing the communication cost.

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安全拍卖没有拍卖商通过可验证的秘密共享

组合拍卖是一个研究热点。它们在许多应用中影响着人们的日常生活，例如FCC举行的频谱拍卖。在这种拍卖中，竞标者可能想要对商品的组合出价。面临的挑战是如何保护竞标价格的隐私，并确保这些拍卖中的数据安全?为了解决这一挑战，我们提出了一种基于可验证秘密共享的方法。该方法是用多项式的次数来表示价格;因此，基于秘密共享的两个多项式的和/积的次数可以得到两个多项式的次数的最大值/和。该协议对拍卖服务器隐藏了投标人的信息(投标价格)。拍卖人可以在没有安全渠道的情况下从竞买人那里获得秘密股份。由于不需要安全通道，因此该方案更加实用，适用于更多的场景。该方案可以抵抗共谋攻击、阴谋攻击、被动攻击等。与[11,12]相比，我们提出的方案在不增加通信成本的情况下提供认证。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 2015 Workshop on Privacy-Aware Mobile Computing

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