Towards Secure and Verifiable Database-Driven Spectrum Sharing

2017 47th Annual IEEE/IFIP International Conference on Dependable Systems and Networks (DSN) Pub Date : 2017-06-01 DOI:10.1109/DSN.2017.17

Zhili Chen, Lin Chen, Hong Zhong

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引用次数: 4

Abstract

Database-driven spectrum access is regarded as an effective spectrum redistribution mechanism. However, dialoguing with the spectrum database requires both primary and secondary users to reveal their sensitive data to the spectrum database manager (SDM), leading to serious privacy concerns. In this paper, we show that the SDM can perform database operations (both updates and queries) without knowing any information about the users' sensitive inputs and the database contents, by combining garbled circuits and secret sharing. Our design uses data-oblivious sorting networks to leverage parallelism of query operations, yielding an efficient query algorithm. We further combine secure computations with authentication techniques to get a verification mechanism for correctness checking. As far as we know, our proposal is the first secure and verifiable database-driven spectrum sharing scheme protecting both primary users' (PUs') and secondary users' (SUs') privacies. Finally, we fully implement our system, and demonstrate that even on commodity PC, our implementation suffers mild performance overhead.

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面向安全、可验证的数据库驱动频谱共享

数据库驱动的频谱接入被认为是一种有效的频谱再分配机制。然而，与频谱数据库对话需要主用户和辅助用户向频谱数据库管理器(SDM)透露他们的敏感数据，这导致了严重的隐私问题。在本文中，我们证明了SDM可以在不知道用户敏感输入和数据库内容的任何信息的情况下执行数据库操作(包括更新和查询)，通过结合乱码电路和秘密共享。我们的设计使用数据无关排序网络来利用查询操作的并行性，从而产生高效的查询算法。我们进一步将安全计算与身份验证技术结合起来，以获得用于正确性检查的验证机制。据我们所知，我们的提议是第一个安全且可验证的数据库驱动的频谱共享方案，可以保护主用户(pu)和副用户(su)的隐私。最后，我们完全实现了我们的系统，并证明即使在商用PC上，我们的实现也会遭受轻微的性能开销。

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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2017 47th Annual IEEE/IFIP International Conference on Dependable Systems and Networks (DSN)

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