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Papers/Geometry-Aware Contrastive Learning for Few-Shot Automatic Modulation Recognition
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Geometry-Aware Contrastive Learning for Few-Shot Automatic Modulation Recognition

May 26, 2026

arXiv
Abstract

Standard Self-Supervised Learning (SSL) for Automatic Modulation Recognition (AMR) struggles with ineffective isotropic augmentations, spectral instability, and semantic drift. To address these challenges, we propose Dynamic-Consistency Contrastive Learning (DyCo-CL), a geometry-aware framework that couples Virtual Adversarial Augmentation (VAA) with a semantic consistency loss. We provide a theoretical analysis indicating that this strategy acts as an implicit spectral regularizer for the encoder, enabling stable manifold exploration. Complementing this, our Signal-Adaptive Swin Backbone with fixed-window attention improves structural stability by constraining attention locality, while a Hybrid Knowledge Fusion module anchors representations with physical priors. Experiments on RML benchmarks show that DyCo-CL achieves a 6.27% accuracy gain in 1-shot settings over prior methods.

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Authors
Guanqun Zhao, Yitong Liu, Jiaxuan Fang, Yufei Mao, Hongwen Yang
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arXiv:2605.26600