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Spatial-Temporal Transformer with Curriculum Learning for EEG-Based Emotion Recognition

Machine Learning 2025-08-20 v2 Artificial Intelligence Human-Computer Interaction Signal Processing

Abstract

EEG-based emotion recognition plays an important role in developing adaptive brain-computer communication systems, yet faces two fundamental challenges in practical implementations: (1) effective integration of non-stationary spatial-temporal neural patterns, (2) robust adaptation to dynamic emotional intensity variations in real-world scenarios. This paper proposes SST-CL, a novel framework integrating spatial-temporal transformers with curriculum learning. Our method introduces two core components: a spatial encoder that models inter-channel relationships and a temporal encoder that captures multi-scale dependencies through windowed attention mechanisms, enabling simultaneous extraction of spatial correlations and temporal dynamics from EEG signals. Complementing this architecture, an intensity-aware curriculum learning strategy progressively guides training from high-intensity to low-intensity emotional states through dynamic sample scheduling based on a dual difficulty assessment. Comprehensive experiments on three benchmark datasets demonstrate state-of-the-art performance across various emotional intensity levels, with ablation studies confirming the necessity of both architectural components and the curriculum learning mechanism.

Keywords

Cite

@article{arxiv.2507.14698,
  title  = {Spatial-Temporal Transformer with Curriculum Learning for EEG-Based Emotion Recognition},
  author = {Xuetao Lin and Tianhao Peng and Peihong Dai and Yu Liang and Wenjun Wu},
  journal= {arXiv preprint arXiv:2507.14698},
  year   = {2025}
}
R2 v1 2026-07-01T04:09:27.713Z