Litcius/Paper detail

Specific Emitter Identification Based on Self-Supervised Contrast Learning

Bo Liu, Hongyi Yu, Jianping Du, You Wu, Yongbin Li, Zhaorui Zhu, Zhenyu Wang

2022Electronics21 citationsDOIOpen Access PDF

Abstract

The current deep learning (DL)-based Specific Emitter Identification (SEI) methods rely heavily on the training of massive labeled data during the training process. However, the lack of labeled data in a real application would lead to a decrease in the method’s identification performance. In this paper, we propose a self-supervised method via contrast learning (SSCL), which is used to extract fingerprint features from unlabeled data. The proposed method uses large amounts of unlabeled data to constitute positive and negative pairs by designing a composition of data augmentation operations for emitter signals. Then, the pairs would be input into the neural network (NN) for feature extraction, and a contrastive loss function is introduced to drive the network to measure the similarity among data. Finally, the identification model can be completed by fixing the parameters of the feature extraction network and fine-tuning with few labeled data. The simulation experiment result shows that, after being fine-tuned, the proposed method can effectively extract fingerprint features. When the SNR is 20 dB, the identification accuracy reaches 94.45%, which is better than the current mainstream DL approaches.

Topics & Concepts

Computer scienceArtificial intelligencePattern recognition (psychology)Identification (biology)Artificial neural networkSimilarity (geometry)Fingerprint (computing)Contrast (vision)Feature (linguistics)Feature extractionCommon emitterProcess (computing)Supervised learningMachine learningData miningEngineeringImage (mathematics)Electronic engineeringBotanyPhilosophyOperating systemBiologyLinguisticsWireless Signal Modulation Classification