Mingyuan Shao, Pengfei Deng, Dingzhao Li, Rongbin Lin, Haixin Sun
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引用次数: 0
摘要
特定的发射器识别技术能够通过其独特的射频指纹(RFF)区分不同的设备,从而提高设备之间的通信效率。然而,在非合作通信环境中,标记的发射器信号往往很少甚至不可用。我们为 SEI 设计了一种基于对比学习的有效自监督学习(Self-SL)方法,以解决无标记样本的极端情况。具体来说,我们将数据增强与具有对比度损失特征的深度神经网络相结合,从无标记数据中提取通用射频指纹特征,从而实现对各种设备的识别。实验结果表明,仅使用简单的线性分类器,获取的通用特征就能达到 91% 的识别准确率。
A Specific Emitter Identification Method Based on Self-Supervised Representation Learning
Specific emitter identification techniques excel in discerning between various devices through their unique radio frequency fingerprints (RFF), thereby enhancing the efficiency of communication among devices. However, in non-cooperative communication environments, the labeled emitter signal is often scarce or even unavailable. We design an effective self-supervised learning (Self-SL) approach based on contrastive learning for SEI to address the extreme scenario with no labeled samples. Specifically, we employ data augmentation in conjunction with deep neural networks featuring contrast loss to extract generic RF fingerprint features from unlabeled data, enabling the discrimination of various devices. Experimental results demonstrate that the acquired generic features can attain 91% recognition accuracy using just a simple linear classifier.
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