We propose a fully unsupervised algorithm that detects from encephalography (EEG) recordings when a subject actively listens to sound, versus when the sound is ignored. This problem is known as absolute auditory attention decoding (aAAD). We propose an unsupervised discriminative CCA model for feature extraction and combine it with an unsupervised classifier called minimally informed linear discriminant analysis (MILDA) for aAAD classification. Remarkably, the proposed unsupervised algorithm performs significantly better than a state-of-the-art supervised model. A key reason is that the unsupervised algorithm can successfully adapt to the non-stationary test data at a low computational cost. This opens the door to the analysis of the auditory attention of a subject using EEG signals with a model that automatically tunes itself to the subject without requiring an arduous supervised training session beforehand.
View on arXiv@article{heintz2025_2504.17724,
title={ Unsupervised EEG-based decoding of absolute auditory attention with canonical correlation analysis },
author={ Nicolas Heintz and Tom Francart and Alexander Bertrand },
journal={arXiv preprint arXiv:2504.17724},
year={ 2025 }
}