AI Article Synopsis
- A new network called ST-Net is introduced to improve emotion recognition from EEG signals by addressing individual differences and enhancing generalization.
- The architecture includes multi-branched learning for spatial-spectral features and a bi-directional LSTM to capture time dependencies with an attention mechanism.
- ST-Net shows superior performance in emotion recognition compared to existing models, with slight accuracy improvements in various test scenarios, demonstrating its potential for advancing human-computer interaction.
Article Abstract
In this paper, a novel skipping spatial-spectral-temporal network (ST-Net) is developed to handle intra-individual differences in electroencephalogram (EEG) signals for accurate, robust, and generalized emotion recognition. In particular, aiming at the 4D features extracted from the raw EEG signals, a multi-branch architecture is proposed to learn spatial-spectral cross-domain representations, which benefits enhancing the model generalization ability. Time dependency among different spatial-spectral features is further captured via a bi-directional long-short term memory module, which employs an attention mechanism to integrate context information. Moreover, a skip-change unit is designed to add another auxiliary pathway for updating model parameters, which alleviates the vanishing gradient problem in complex spatial-temporal network. Evaluation results show that the proposed ST-Net outperforms other advanced models in terms of the emotion recognition accuracy, which yields an performance improvement of 0.23% , 0.13%, and 0.43% as compared to the sub-optimal model in three test scenes, respectively. In addition, the effectiveness and superiority of the key components of ST-Net are demonstrated from various experiments. As a reliable and competent emotion recognition model, the proposed ST-Net contributes to the development of intelligent sentiment analysis in human-computer interaction (HCI) realm.
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| http://dx.doi.org/10.1016/j.compbiomed.2024.108808 | DOI Listing |
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