Transformer-based Self-supervised Multimodal Representation Learning for Wearable Emotion Recognition
March 29, 2023 Β· Declared Dead Β· π IEEE Transactions on Affective Computing
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Authors
Yujin Wu, Mohamed Daoudi, Ali Amad
arXiv ID
2303.17611
Category
cs.HC: Human-Computer Interaction
Cross-listed
cs.AI,
cs.SD,
eess.AS
Citations
84
Venue
IEEE Transactions on Affective Computing
Last Checked
4 months ago
Abstract
Recently, wearable emotion recognition based on peripheral physiological signals has drawn massive attention due to its less invasive nature and its applicability in real-life scenarios. However, how to effectively fuse multimodal data remains a challenging problem. Moreover, traditional fully-supervised based approaches suffer from overfitting given limited labeled data. To address the above issues, we propose a novel self-supervised learning (SSL) framework for wearable emotion recognition, where efficient multimodal fusion is realized with temporal convolution-based modality-specific encoders and a transformer-based shared encoder, capturing both intra-modal and inter-modal correlations. Extensive unlabeled data is automatically assigned labels by five signal transforms, and the proposed SSL model is pre-trained with signal transformation recognition as a pretext task, allowing the extraction of generalized multimodal representations for emotion-related downstream tasks. For evaluation, the proposed SSL model was first pre-trained on a large-scale self-collected physiological dataset and the resulting encoder was subsequently frozen or fine-tuned on three public supervised emotion recognition datasets. Ultimately, our SSL-based method achieved state-of-the-art results in various emotion classification tasks. Meanwhile, the proposed model proved to be more accurate and robust compared to fully-supervised methods on low data regimes.
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