Achieving Bilateral Utility Maximization and Location Privacy Preservation in Database-Driven Cognitive Radio Networks

2015 IEEE 12th International Conference on Mobile Ad Hoc and Sensor Systems Pub Date : 2015-10-19 DOI:10.1109/MASS.2015.93

Zhikun Zhang, Heng Zhang, Shibo He, Peng Cheng

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引用次数: 27

Abstract

Database-driven cognitive radio has been well recognized as an efficient way to reduce interference between Primary Users (PUs) and Secondary Users (SUs). In database-driven cognitive radio, PUs and SUs must provide their locations to enable dynamic channel allocation, which raises location privacy breach concern. Previous studies only focus on unilateral privacy preservation, i.e., Only PUs' or SUs' privacy is preserved. In this paper, we propose to protect bilateral location privacy of a PU and an SU. The main challenge lies in how to coordinate the PU and SU to maximize their utility provided that their location privacy is protected. We first introduce a quantitative method to calculate both PU's and SU's location privacy, and then design a novel privacy preserving Utility Maximization protocol (UMax). UMax allows for both PU and SU to adjust their privacy preserving levels and optimize transmit power iteratively to achieve the maximum utility. Through extensive evaluations, we demonstrate that our proposed mechanism can efficiently increase the utility of both PU and SU while preserving their location privacy.

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数据库驱动的认知无线网络双边效用最大化与位置隐私保护

数据库驱动的认知无线电是一种有效的减少主用户(pu)和从用户(SUs)之间干扰的方法。在数据库驱动的认知无线电中，pu和su必须提供其位置以实现动态信道分配，这引起了位置隐私泄露问题。以往的研究只关注单方面的隐私保护，即只保护用户或用户的隐私。在本文中，我们提出保护PU和SU的双边位置隐私，主要挑战在于如何协调PU和SU在保护其位置隐私的前提下最大化其效用。首先引入一种定量计算PU和SU位置隐私的方法，然后设计一种新的保护隐私的效用最大化协议(UMax)。UMax允许PU和SU调整其隐私保护级别并迭代优化传输功率，以实现最大效用。通过广泛的评估，我们证明了我们提出的机制可以有效地提高PU和SU的效用，同时保护它们的位置隐私。

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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来源期刊

2015 IEEE 12th International Conference on Mobile Ad Hoc and Sensor Systems

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