Authentication of Underwater Acoustic Transmissions via Machine Learning Techniques

2021 IEEE International Conference on Microwaves, Antennas, Communications and Electronic Systems (COMCAS) Pub Date : 2021-11-01 DOI:10.1109/comcas52219.2021.9629031

L. Bragagnolo, F. Ardizzon, N. Laurenti, P. Casari, R. Diamant, S. Tomasin

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引用次数: 9

Abstract

We consider the problem of discriminating a legitimate transmitter from an impersonating attacker in an underwater acoustic network under a physical layer security framework. In particular, we utilize features of the underwater acoustic channel such as the number of taps, the delay spread, and the received power. In the absence of a reliable statistical model of the underwater channel, we turn to a machine learning technique to extract the feature statistics and utilize them to distinguish between legitimate and fake transmissions. Numerical results show how, using only four channel features as input of either a neural network or an autoencoder, we achieve a good trade off between false alarm and detection rates. Moreover, cooperative techniques fusing soft decision statistics from multiple trusted nodes further outperform the discrimination capability of each separate node. Data from a sea trial carried out in Israeli eastern Mediterranean waters demonstrate the applicability of our approach.

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基于机器学习技术的水声传输认证

我们考虑了在物理层安全框架下水声网络中识别合法发射机和冒充攻击者的问题。特别地，我们利用了水声信道的特征，如抽头数量、延迟扩展和接收功率。在缺乏可靠的水下信道统计模型的情况下，我们转向机器学习技术来提取特征统计数据，并利用它们来区分合法和虚假的传输。数值结果表明，仅使用四个通道特征作为神经网络或自编码器的输入，我们如何在虚警和检测率之间实现良好的权衡。此外，融合来自多个可信节点的软决策统计的协作技术进一步优于每个独立节点的识别能力。在以色列地中海东部水域进行的海上试验的数据表明，我们的办法是适用的。

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2021 IEEE International Conference on Microwaves, Antennas, Communications and Electronic Systems (COMCAS)

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