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Self supervised learning based emotion recognition using physiological signals
Computer ScienceFrontiers in Human Neuroscience

Self supervised learning based emotion recognition using physiological signals

M. Zhang and Y. Cui

Emotion recognition is vital for human–machine interaction, yet labeled EEG datasets are scarce. This study, conducted by Min Zhang and YanLi Cui, applies self‑supervised learning to EEG using three pretext tasks—Contrastive Predictive Coding, Relative Position, and Temporal Shuffling—to extract features from unlabeled data. Experiments show SSL can learn effective representations for downstream emotion recognition without manual labels.... show more
GeneralSummaryMetrics
Abstract
Introduction: Emotion recognition is important for human–machine interaction. Physiological-signal-based methods, especially EEG, can objectively reflect emotional states, but labeled EEG datasets are typically small. Methods: Large amounts of unlabeled EEG are easier to obtain, so this work adopts self-supervised learning (SSL) for emotion recognition from EEG. Three pretext tasks are used to define pseudo-labels and extract features from the data’s inherent structure: Contrastive Predictive Coding (CPC), Relative Position (RP), and Temporal Shuffling (TS). Results and discussion: Experiments show that SSL can learn effective feature representations for downstream emotion recognition without manual labels, demonstrating its potential for this problem.
Publisher
Frontiers in Human Neuroscience
Published On
Apr 09, 2024
Authors
Min Zhang, YanLi Cui
DOI
https://doi.org/10.3389/fnhum.2024.1334721
Tags
EEGEmotion recognitionSelf-supervised learningContrastive Predictive Coding (CPC)Relative Position (RP)Temporal Shuffling (TS)Representation learning
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