基于双路径稀释卷积注意力的雷达信号调制识别

IF 0.7 4区工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

Electronics Letters Pub Date : 2025-04-15 DOI:10.1049/ell2.70251

Wenwen Xu, Yulong Chen, Jianyin Cao, Hao Wang

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引用次数: 0

摘要

脉冲内调制雷达信号探测是当代电子情报侦察和其他领域必不可少的技术。然而，由于复杂的电磁环境和较差的信噪比，调制信号的识别存在困难。尽管目前的方法提高了识别精度，但计算压力大，泛化能力也有限。本文提出了双路径扩张卷积注意。该方法是一种轻量级改进技术，通过结合去噪卷积神经网络和改进的 MobileViT 来提高模型性能和轻量级识别方法。仿真结果表明，所提出的方法有效地减少了网络参数的大小。同时，还获得了可持续的高识别准确率，加快了网络推理速度，降低了硬件要求。根据仿真结果，当信噪比为 -16 dB 时，十种雷达信号的识别准确率高达 91.4%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Radar Signal Modulation Recognition Based on Dual-Path Dilated Convolutional Attention

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Radar Signal Modulation Recognition Based on Dual-Path Dilated Convolutional Attention

The intrapulse modulation radar signal detection is essential for contemporary electronic intelligence reconnaissance and other domains. However, there are difficulties in modulated signal recognition due to the complicated electromagnetic environment and poor signal-to-noise ratio. Even though the recognition accuracy has been increased by the current methodologies, the computing pressure is high, and the generalization capacity are limited either. In this paper, the dual-path dilated convolution attention is proposed. This method is proposed as a lightweight improvement technique to increase the model performance and a lightweight recognition method by combining denoising convolutional neural networks and improved MobileViT. The simulation results demonstrate that the proposed method effectively reduces the parameter size of the network. Meanwhile, a sustainable high recognition accuracy is obtained, the network inference speed is accelerated, and the hardware requirements are alleviated. Based on simulation, the recognition accuracy for ten types of radar signals attains as high as 91.4% when the signal-to-noise ratio is −16 dB.

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来源期刊

Electronics Letters 工程技术-工程：电子与电气

CiteScore

2.70

自引率

0.00%

发文量

268

审稿时长

3.6 months

期刊介绍： Electronics Letters is an internationally renowned peer-reviewed rapid-communication journal that publishes short original research papers every two weeks. Its broad and interdisciplinary scope covers the latest developments in all electronic engineering related fields including communication, biomedical, optical and device technologies. Electronics Letters also provides further insight into some of the latest developments through special features and interviews. Scope As a journal at the forefront of its field, Electronics Letters publishes papers covering all themes of electronic and electrical engineering. The major themes of the journal are listed below. Antennas and Propagation Biomedical and Bioinspired Technologies, Signal Processing and Applications Control Engineering Electromagnetism: Theory, Materials and Devices Electronic Circuits and Systems Image, Video and Vision Processing and Applications Information, Computing and Communications Instrumentation and Measurement Microwave Technology Optical Communications Photonics and Opto-Electronics Power Electronics, Energy and Sustainability Radar, Sonar and Navigation Semiconductor Technology Signal Processing MIMO