CLDAE: A Two Stage EEG-based Emotion Recognition Framework Combining Contrastive Learning and Dual-Attention Encoder

计算机科学 判别式 人工智能 特征提取 语音识别 编码器 情绪识别 特征(语言学) 模式识别(心理学) 自编码 面部识别系统 任务分析 机器学习 面子(社会学概念) 特征学习 深度学习 脑电图 人工神经网络 数据建模 试验数据 基线(sea) 频道(广播) 支持向量机
作者
Rongqi Cao,Jian He,Yu Liang,Xiyuan Hu,Tianhao Peng,Wei Wu,Shuang Niu,Shahid Mumtaz
出处
期刊:IEEE Journal of Biomedical and Health Informatics [Institute of Electrical and Electronics Engineers]
卷期号:PP: 1-13
标识
DOI:10.1109/jbhi.2026.3668381
摘要

Electroencephalogram (EEG)-based emotion recognition systems face a persistent challenge in maintaining robust performance across subjects (generalization) and within subjects (personalization). Existing models for cross-subject recognition generally struggle to adapt to individual-specific neural signatures, while models with optimized within-subject performance typically require a large amount of personalized data. To address these limitations, this study proposes an EEG-based emotion recognition framework, CLDAE, that integrates a contrastive learning strategy and a dual-attention feature extraction mechanism. The CLDAE framework includes two stages: contrastive learning pre-training and emotion recognition fine-tuning. During the pre-training stage, a data augmentation method that combines EEG signals from different subjects is used to generate new training samples. Moreover, to extract discriminative features from the augmented data, the dual-attention encoder combines temporal and channel attention mechanisms. After pre-training, the CLDAE is fine-tuned for final recognition tasks. The proposed CLDAE is verified by experiments on two public datasets (DEAP and SEED-IV) and a private dataset (MAN). The experimental results demonstrate that the CLDAE achieves competitive performance in both within-subject and cross-subject emotion recognition, with 95.12% and 75.29% accuracy on the MAN dataset, respectively; thus, outperforming the baseline methods. These results validate the effectiveness of the proposed framework in both within-subject and cross-subject emotion recognition.
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