Litcius/Paper detail

Few-Shot Learning for Radar Signal Recognition Based on Tensor Imprint and Re-Parameterization Multi-Channel Multi-Branch Model

Jiaji Luo, Weijian Si, Zhian Deng

2022IEEE Signal Processing Letters13 citationsDOI

Abstract

In an ever-increasingly complex electromagnetic environment, automatic radar signal recognition is becoming vital. Convolutional neural networks have been widely used for radar signal recognition, but deep learning-based algorithms only recognize trained classes. Recognizing novel radar signals with few-shot samples in an open environment is still a challenging research problem. In this letter, a few-shot learning algorithm based on the tensor imprint algorithm and convolutional classification layer is proposed for radar signal recognition, and the proposed convolutional classification layer can avoid spatial information loss caused by the global pooling layer and the fully connected layer. In addition, the lightweight re-parameterization multi-channel multi-branch convolutional neural network (RepMCMBNet) is proposed for feature extraction. The model is trained on a dataset containing 8 types of radar signals, and achieves high recognition accuracy in a test dataset containing 12 types of radar signals. The overall recognition accuracy of the proposed tensor imprint algorithm achieves 93.9% at −6 dB when the number of samples is 5.

Topics & Concepts

Computer scienceArtificial intelligenceChannel (broadcasting)Tensor (intrinsic definition)SIGNAL (programming language)RadarRadar imagingComputer visionPattern recognition (psychology)MathematicsTelecommunicationsPure mathematicsProgramming languageAdvanced SAR Imaging TechniquesGeophysical Methods and ApplicationsGait Recognition and Analysis
Few-Shot Learning for Radar Signal Recognition Based on Tensor Imprint and Re-Parameterization Multi-Channel Multi-Branch Model | Litcius