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Provably Secure Symmetric Private Information Retrieval with Quantum Cryptography

机译：通过量子密码术检索可证明安全的对称私人信息

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摘要

Private information retrieval (PIR) is a database query protocol that provides user privacy in that the user can learn a particular entry of the database of his interest but his query would be hidden from the data centre. Symmetric private information retrieval (SPIR) takes PIR further by additionally offering database privacy, where the user cannot learn any additional entries of the database. Unconditionally secure SPIR solutions with multiple databases are known classically, but are unrealistic because they require long shared secret keys between the parties for secure communication and shared randomness in the protocol. Here, we propose using quantum key distribution (QKD) instead for a practical implementation, which can realise both the secure communication and shared randomness requirements. We prove that QKD maintains the security of the SPIR protocol and that it is also secure against any external eavesdropper. We also show how such a classical-quantum system could be implemented practically, using the example of a two-database SPIR protocol with keys generated by measurement device-independent QKD. Through key rate calculations, we show that such an implementation is feasible at the metropolitan level with current QKD technology.

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期刊名称 Entropy
作者
Wen Yu Kon; Charles Ci Wen Lim;
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年(卷),期 2021(23),1
年度 2021
页码 54
总页数 27
原文格式 PDF
正文语种
中图分类
关键词
quantum key distribution; symmetric private information retrieval; quantum cryptography; information theoretic security;

机译：量子密钥分布;对称私人信息检索;量子密码学;信息理论安全;

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专利

1. Quantum Oblivious Transfer Based on a Quantum Symmetrically Private Information Retrieval Protocol [J] . Yang Yu-Guang, Sun Si-Jia, Wang Yan International Journal of Theoretical Physics: A Journal of Original Research and Reviews in Theoretical Physics and Related Mathematics, Dedicated to the Unification of Physics . 2015,第3期

机译：基于量子对称私有信息检索协议的量子遗忘传输
2. Quantum Oblivious Transfer Based on a Quantum Symmetrically Private Information Retrieval Protocol [J] . Yang Yu-Guang, Sun Si-Jia, Wang Yan International Journal of Theoretical Physics: A Journal of Original Research and Reviews in Theoretical Physics and Related Mathematics, Dedicated to the Unification of Physics . 2015,第3期

机译：基于量子对称私有信息检索协议的量子遗忘传输
3. Private classical capacity with a symmetric side channel and its application to quantum cryptography [J] . Graeme Smith Physical Review, A. Atomic, molecular, and optical physics . 2008,第2aPta1期

机译：具有对称侧信道的私有经典容量及其在量子密码学中的应用
4. Secure symmetric private information retrieval from colluding databases with adversaries [C] . Qiwen Wang, Mikael Skoglund Annual Allerton Conference on Communication, Control, and Computing . 2017

机译：从具有敌手的共谋数据库中安全地对称检索私人信息
5. Provably-secure cryptographic hash functions [D] . Shrimpton, Thomas Eric 2004

机译：可能安全的加密哈希函数
6. Securing IoT-Based RFID Systems: A Robust Authentication Protocol Using Symmetric Cryptography [O] . Khwaja Mansoor, Anwar Ghani, Shehzad Ashraf Chaudhry, 2019

机译：保护基于物联网的RFID系统：使用对称密码的可靠认证协议
7. Why quantum computing is hard - and quantum cryptography is not provably secure [O] . Anderson, Ross, Brady, Robert 2013

机译：为什么量子计算很难 - 量子密码学是不可证明的安全

Provably Secure Symmetric Private Information Retrieval with Quantum Cryptography

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