David Bethge scite author profile

Electroencephalography (EEG) is shown to be a valuable data source for evaluating subjects' mental states. However, the interpretation of multi-modal EEG signals is challenging, as they suffer from poor signal-to-noise-ratio, are highly subject-dependent, and are bound to the equipment and experimental setup used, (i.e. domain). This leads to machine learning models often suffer from poor generalization ability, where they perform significantly worse on real-world data than on the exploited training data. Recent research heavily focuses on cross-subject and cross-session transfer learning frameworks to reduce domain calibration efforts for EEG signals. We argue that multi-source learning via learning domain-invariant representations from multiple data-sources is a viable alternative, as the available data from different EEG data-source domains (e.g., subjects, sessions, experimental setups) grow massively. We propose an adversarial inference approach to learn data-source invariant representations in this context, enabling multi-source learning for EEG-based braincomputer interfaces. We unify EEG recordings from different source domains (i.e., emotion recognition datasets SEED, SEED-IV, DEAP, DREAMER), and demonstrate the feasibility of our invariant representation learning approach in suppressing datasource-relevant information leakage by 35% while still achieving stable EEG-based emotion classification performance.

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David Bethge

VEmotion: Using Driving Context for Indirect Emotion Prediction in Real-Time

Domain-Invariant Representation Learning from EEG with Private Encoders

EEG2Vec: Learning Affective EEG Representations via Variational Autoencoders

SoundsRide: Affordance-Synchronized Music Mixing for In-Car Audio Augmented Reality

Exploiting Multiple EEG Data Domains with Adversarial Learning

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