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    • Capacity-Achieving Private Information Retrieval Codes with Optimal Message Size and Upload Cost.

    Chao Tian,Hua Sun,Jun Chen

    IEEE Transactions on Information Theory(2019)

    Texas A&M Univ | Univ North Texas | McMaster Univ

    Cited 120|Views1
    Abstract
    We propose a new capacity-achieving code for the private information retrieval (PIR) problem, and show that it has the minimum message size (being one less than the number of servers) and the minimum upload cost (being roughly linear in the number of messages) among a general class of capacity-achieving codes, and in particular, among all capacity-achieving linear codes. Different from existing code constructions, the proposed code is asymmetric, and this asymmetry appears to be the key factor leading to the optimal message size and the optimal upload cost. The converse results on the message size and the upload cost are obtained by a strategic analysis of the information theoretic proof of the PIR capacity, from which a set of critical properties of any capacity-achieving code in the code class of interest is extracted.
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    Privacy-Preserving Computation
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    Chat Paper
    要点】:本文提出了一种新的容量达成私有信息检索(PIR)编码方法,具有最优的消息大小和上传成本,其创新点在于编码的不对称性,这在实现最优性能中起到关键作用。
    

    方法】:通过构建一种不对称的容量达成编码方法,该方法在保证消息大小最小(比服务器数量少一)和上传成本最小(与消息数量大致成线性关系)方面优于其他通用类容量达成编码,特别是所有线性容量达成编码。
    

    实验】:文章通过策略性分析信息论中PIR容量的证明,得到了关于消息大小和上传成本的反证结果,并从中提取了任何容量达成编码的关键特性。具体实验和数据集名称未在摘要中提及。
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