Spread spectrum modulation recognition based on phase diagram entropy

IF 1.3 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Frontiers in signal processing Pub Date : 2023-07-05 DOI:10.3389/frsip.2023.1197619

Denis Stanescu, A. Digulescu, C. Ioana, A. Serbanescu

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Abstract

Wireless communication technologies are undergoing intensive study and are experiencing accelerated progress which leads to a large increase in the number of end-users. Because of this, the radio spectrum has become more crowded than ever. These previously mentioned aspects lead to the urgent need for more reliable and intelligent communication systems that can improve the spectrum efficiency. Specifically, modulation scheme recognition occupies a crucial position in the civil and military application, especially with the emergence of Software Defined Radio (SDR). The modulation recognition is an indispensable task while performing spectrum sensing in Cognitive Radio (CR). Spread spectrum (SS) techniques represent the foundation for the design of Cognitive Radio systems. In this work, we propose a new method of characterization of Spread spectrum modulations capable of providing relevant information for the process of recognition of this type of modulations. Using the proposed approach, results higher than 90% are obtained in the modulation classification process, thus bringing an advantage over the classical methods, whose performance is below 75%.

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基于相位图熵的扩频调制识别

无线通信技术正在进行深入的研究，并正在加速发展，从而导致最终用户数量的大量增加。正因为如此，无线电频谱比以往任何时候都更加拥挤。这些方面导致迫切需要更可靠和智能的通信系统，可以提高频谱效率。特别是随着软件定义无线电(SDR)的出现，调制方案识别在民用和军事应用中占有至关重要的地位。调制识别是认知无线电频谱感知中不可缺少的一项任务。扩频技术是认知无线电系统设计的基础。在这项工作中，我们提出了一种新的扩频调制表征方法，能够为识别这种类型的调制过程提供相关信息。该方法在调制分类过程中的准确率高于90%，优于传统方法的75%以下的准确率。

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Frontiers in signal processing

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