小样本条件下LPI雷达信号的双通道识别

李 辉; $2; $2; $2; $2

引用本文:	李辉，秦怡博，王欣然，王伟东，李小磊. 小样本条件下LPI雷达信号的双通道识别[J]. 雷达科学与技术, 2025, 23(1): 109-118.[点击复制]
	LI Hui, QIN Yibo, WANG Xinran, WANG Weidong, LI Xiaolei. Dual⁃Channel Recognition of LPI Radar Signals Under Small Sample Conditions[J]. Radar Science and Technology, 2025, 23(1): 109-118.[点击复制]

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小样本条件下LPI雷达信号的双通道识别
李辉，秦怡博，王欣然，王伟东，李小磊
1. 河南理工大学物理与电子信息学院，河南焦作 454000;2. 河南理工大学资源环境学院，河南焦作 454000

摘要:

针对小样本条件下且低信噪比时低截获概率（Low Probability of Intercept, LPI）雷达信号识别精度低的问题，本文提出了一种基于局部最大化同步压缩变换（Local Maximum Synchrosqueezing Transform, LMSST）与平滑伪维格纳维尔变换（Smoothed Pseudo Wigner?Ville Distribution, SPWVD）的双通道特征融合网络模型。利用LMSST和SPWVD对仅有的小样本LPI雷达信号分别进行时频分析，获取二维时频图像；使用循环对抗生成网络对其进行扩充并送入双通道网络对其进行特征提取和特征早融合；采用Softmax分类器对融合后的特征进行分选识别。研究结果表明，在信噪比为-8 dB时，所设计的模型的整体识别率达到93.1%；相较于单通道识别模型，在小样本条件下的识别精度有效提高6%~7%。此研究为小样本时LPI雷达信号的识别提供了一种理论依据。

关键词: 小样本信号识别时频分析循环对抗生成网络早特征融合双通道网络

DOI：DOI:10.3969/j.issn.1672-2337.2025.01.012

分类号:TN957.51

基金项目:国家自然科学基金（No.62101176）

Dual⁃Channel Recognition of LPI Radar Signals Under Small Sample Conditions

LI Hui, QIN Yibo, WANG Xinran, WANG Weidong, LI Xiaolei

1. School of Physics and Electronic Information Engineering, Henan Polytechnic University, Jiaozuo 454000, China;2. School of Resources and Environment, Henan Polytechnic University, Jiaozuo 454000, China

Abstract:

Aiming at the problem of low recognition accuracy of radar signals with low probability of intercept （LPI） under small sample conditions and low signal?to?noise ratios （SNRs）, this paper proposes a dual?channel feature fusion network model based on local maximum synchrosqueezing transform （LMSST） and smoothed pseudo wigner?ville distribution （SPWVD）. LMSST and SPWVD are used to perform time?frequency analysis on the only small sample of LPI radar signal to obtain 2D time?frequency images. It is expanded by using cycle generative adversarial networks （Cyclegan） and sent into a dual?channel network for feature extraction and early fusion of features. The Softmax classifier is used to sort and identify the fused features. The results show that the overall recognition rate of the designed model reaches 93.1% when the signal?to?noise ratio is -8 dB. Compared with the single?channel recognition model, the recognition accuracy under small sample conditions is effectively improved by 6%~7%. This research provides a theoretical basis for the recognition of LPI radar signals with small samples.

Key words: small⁃sample signal recognition time⁃frequency analysis Cyclegan early feature fusion dual⁃channel network