Cyclostationary Feature Distortion for Secure Underwater Acoustic Transmissions

IF 3.8 2区工程技术 Q1 ENGINEERING, CIVIL

IEEE Journal of Oceanic Engineering Pub Date : 2024-04-09 DOI:10.1109/JOE.2024.3366283

François-Xavier Socheleau;Christophe Laot;Sébastien Houcke

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引用次数: 0

Abstract

Cyclostationary features of communication signals are known to compromise the security of transmissions against eavesdropping attacks. They can be used for signal detection, modulation recognition, or for the blind estimation of physical layer parameters. This work presents a method that voluntarily distorts the transmitted signal to hide the cyclostationary patterns. This distortion is obtained with a pseudorandom time-varying filter that combines time warping and dispersive filtering. The proposed method acts as a plug-in that is applicable to most of the existing transmission schemes. It is shown that this distortion can be easily reversed by the cooperative receiver using a simple matched filter combined with resampling. In the context of underwater acoustic communications, numerical results with replay simulations of channels measured at sea illustrate the benefits of the proposed method. For both a coherent and a noncoherent modem, the induced distortion is shown to be robust to existing cyclostationary attacks, at the cost of a slight reduction in data rate. Furthermore, no performance degradation in terms of packet error ratio is observed for cooperative transmissions.

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用于安全水下声波传输的环静止特征失真

众所周知，通信信号的环静止特征会损害传输的安全性，使其无法抵御窃听攻击。它们可用于信号检测、调制识别或物理层参数的盲估计。这项研究提出了一种主动扭曲传输信号的方法，以隐藏环状静态模式。这种畸变是通过结合了时间扭曲和分散滤波的伪随机时变滤波器获得的。所提出的方法就像一个插件，适用于大多数现有的传输方案。研究表明，合作接收器可以使用简单的匹配滤波器结合重采样，轻松扭转这种失真。在水下声学通信方面，对海上测量的信道进行重放模拟的数值结果表明了所提方法的优势。对于相干和非相干调制解调器来说，诱导失真都能抵御现有的环静止攻击，但数据速率会略有降低。此外，合作传输的数据包错误率也没有下降。

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

IEEE Journal of Oceanic Engineering 工程技术-工程：大洋

CiteScore

9.60

自引率

12.20%

发文量

审稿时长

12 months

期刊介绍： The IEEE Journal of Oceanic Engineering (ISSN 0364-9059) is the online-only quarterly publication of the IEEE Oceanic Engineering Society (IEEE OES). The scope of the Journal is the field of interest of the IEEE OES, which encompasses all aspects of science, engineering, and technology that address research, development, and operations pertaining to all bodies of water. This includes the creation of new capabilities and technologies from concept design through prototypes, testing, and operational systems to sense, explore, understand, develop, use, and responsibly manage natural resources.