Performance Evaluation of an Indistinguishability Based Attack Against Spreading Code Secured GNSS Signals

2023 IEEE/ION Position, Location and Navigation Symposium (PLANS) Pub Date : 2023-04-24 DOI:10.1109/PLANS53410.2023.10140063

Laura Crosara, F. Ardizzon, S. Tomasin, N. Laurenti

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Abstract

A growing number of services rely on global navigation satellite systems (GNSSs) for positioning and timing, but the widespread adoption of GNSSs has also increased the incentive to mount attacks against them, such as jamming and spoofing. While several security mechanisms have been proposed against these attacks, the most promising solution relies on spreading code authentication (SCA) or spreading code encryption (SCE). This paper analyzes the performance of a novel attack strategy targeting GNSS signals protected by SCE or SCA, assuming that the attacker has no prior knowledge about the secret part of the spreading code sequence. The considered attack strategy minimizes the distinguishability between authentic and forged signals, and turns out to be a linear transformation of the signal received at the attacker position, combined with an independent additive white Gaussian noise. The performance of the attack is evaluated through simulated GNSS signals, considering different scenarios and synchronization non idealities, such as code phase and carrier phase estimation errors.

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基于不可区分性的扩频码安全GNSS信号攻击性能评估

越来越多的服务依赖全球导航卫星系统(gnss)进行定位和授时，但gnss的广泛采用也增加了对其进行攻击的动机，例如干扰和欺骗。虽然针对这些攻击已经提出了几种安全机制，但最有希望的解决方案依赖于扩展代码身份验证(SCA)或扩展代码加密(SCE)。本文分析了一种针对受SCE或SCA保护的GNSS信号的新型攻击策略的性能，假设攻击者不知道传播码序列的秘密部分。所考虑的攻击策略最大限度地减少了真实信号和伪造信号之间的可区分性，并且是在攻击者位置接收到的信号的线性变换，结合独立的加性高斯白噪声。通过模拟GNSS信号评估攻击性能，考虑不同场景和同步非理想性，如码相位和载波相位估计误差。

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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2023 IEEE/ION Position, Location and Navigation Symposium (PLANS)

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