使用秘密传播码混淆IEEE 802.15.4通信

2012 9th Annual Conference on Wireless On-Demand Network Systems and Services (WONS) Pub Date : 2012-02-16 DOI:10.1109/WONS.2012.6152228

Bjorn Muntwyler, Vincent Lenders, F. Legendre, B. Plattner

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引用次数: 21

摘要

IEEE 802.15.4标准规定了一个具有公共和固定扩展序列的m级扩展频谱系统。我们建议使用秘密的、动态的、随机传播的序列来混淆通信。通过一个原型IEEE 802.15.4发射器和接收器的理论和实验，我们已经适应使用随机和动态代码，我们量化了我们的方法的好处和性能影响。我们首先给出了当使用秘密随机码代替IEEE 802.15.4码时性能损失的理论近似。然后，我们确定了IEEE 802.15.4通信高于热噪声的三个过渡区域，即攻击者的输入功率高于热噪声时。在这些区域分别推导了信号检测和信号拦截攻击的混淆增益。我们的实现表明了我们的方法的可行性。它还用于评估在实际无线条件下对系统进行攻击的性能损失和时间要求。

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Obfuscating IEEE 802.15.4 communication using secret spreading codes

The IEEE 802.15.4 standard specifies an M-ary spread spectrum system with public and fixed spreading sequences. We propose instead to use secret and dynamic, random spreading sequences to obfuscate communications. Through theory and experiments with a prototype IEEE 802.15.4 transmitter and receiver that have been adapted to use random and dynamic codes, we quantify the benefits and performance implications of our approach. We first give a theoretical approximation of the performance loss when secret random codes are used instead of the IEEE 802.15.4 codes. We identify then three transitional regions for IEEE 802.15.4 communication above thermal noise i.e., when the incoming power level at the attacker is above thermal noise. We derive the obfuscation gain for signal detection and signal interception attacks respectively in these regions. Our implementation shows the feasibility of our approach. It is also used to evaluate the performance loss and time requirements to perform attacks on the system under realistic wireless conditions.

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来源期刊

2012 9th Annual Conference on Wireless On-Demand Network Systems and Services (WONS)

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