Temporal Privacy in Wireless Sensor Networks

27th International Conference on Distributed Computing Systems (ICDCS '07) Pub Date : 2007-06-25 DOI:10.1109/ICDCS.2007.146

P. Kamat, Wenyuan Xu, W. Trappe, Yanyong Zhang

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引用次数: 82

Abstract

Although the content of sensor messages describing "events of interest" may be encrypted to provide confidentiality, the context surrounding these events may also be sensitive and therefore should be protected from eavesdroppers. An adversary armed with knowledge of the network deployment, routing algorithms, and the base-station (data sink) location can infer the temporal patterns of interesting events by merely monitoring the arrival of packets at the sink, thereby allowing the adversary to remotely track the spatio-temporal evolution of a sensed event. In this paper, we introduce the problem of temporal privacy for delay- tolerant sensor networks and propose adaptive buffering at intermediate nodes on the source-sink routing path to obfuscate temporal information from an adversary. We first present the effect of buffering on temporal privacy using an information-theoretic formulation and then examine the effect that delaying packets has on buffer occupancy. We evaluate our privacy enhancement strategies using simulations, where privacy is quantified in terms of the adversary's estimation error.

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无线传感器网络中的时间隐私

尽管描述“感兴趣的事件”的传感器消息的内容可以加密以提供机密性，但围绕这些事件的上下文也可能是敏感的，因此应该保护它们不被窃听。拥有网络部署、路由算法和基站(数据接收器)位置知识的攻击者可以仅通过监视数据包到达接收器来推断感兴趣事件的时间模式，从而允许攻击者远程跟踪感知事件的时空演变。在本文中，我们引入了延迟容忍传感器网络的时间隐私问题，并提出了在源-汇路由路径上的中间节点上的自适应缓冲，以混淆来自对手的时间信息。我们首先使用信息论公式提出缓冲对时间隐私的影响，然后检查延迟数据包对缓冲区占用的影响。我们使用模拟来评估我们的隐私增强策略，其中隐私是根据对手的估计误差来量化的。

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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27th International Conference on Distributed Computing Systems (ICDCS '07)

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