CAIC-Net: Robust Radio Modulation Classification via Unified Dynamic Cross-Attention and Cross-Signal-to-Noise Ratio Contrastive Learning
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| Title: | CAIC-Net: Robust Radio Modulation Classification via Unified Dynamic Cross-Attention and Cross-Signal-to-Noise Ratio Contrastive Learning |
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| Authors: | Teng Wu, Quan Zhu, Runze Mao, Changzhen Hu, Shengjun Wei |
| Source: | Sensors ; Volume 26 ; Issue 3 ; Pages: 756 |
| Publisher Information: | Multidisciplinary Digital Publishing Institute |
| Publication Year: | 2026 |
| Collection: | MDPI Open Access Publishing |
| Subject Terms: | automatic modulation classification, deep learning techniques, feature-based extraction, dynamic cross-attention |
| Description: | In complex wireless communication environments, automatic modulation classification (AMC) faces two critical challenges: the lack of robustness under low-signal-to-noise ratio (SNR) conditions and the inefficiency of integrating multi-scale feature representations. To address these issues, this paper proposes CAIC-Net, a robust modulation classification network that integrates a dynamic cross-attention mechanism with a cross-SNR contrastive learning strategy. CAIC-Net employs a dual-stream feature extractor composed of ConvLSTM2D and Transformer blocks to capture local temporal dependencies and global contextual relationships, respectively. To enhance fusion effectiveness, we design a Dynamic Cross-Attention Unit (CAU) that enables deep bidirectional interaction between the two branches while incorporating an SNR-aware mechanism to adaptively adjust the fusion strategy under varying channel conditions. In addition, a Cross-SNR Contrastive Learning (CSCL) module is introduced as an auxiliary task, where positive and negative sample pairs are constructed across different SNR levels and optimized using InfoNCE loss. This design significantly strengthens the intrinsic noise-invariant properties of the learned representations. Extensive experiments conducted on two standard datasets demonstrate that CAIC-Net achieves competitive classification performance at moderate-to-high SNRs and exhibits clear advantages in extremely low-SNR scenarios, validating the effectiveness and strong generalization capability of the proposed approach. |
| Document Type: | text |
| File Description: | application/pdf |
| Language: | English |
| Relation: | Communications; https://dx.doi.org/10.3390/s26030756 |
| DOI: | 10.3390/s26030756 |
| Availability: | https://doi.org/10.3390/s26030756 |
| Rights: | https://creativecommons.org/licenses/by/4.0/ |
| Accession Number: | edsbas.57DCDC72 |
| Database: | BASE |
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