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Improving subject transfer in EEG classification with divergence estimation.

Niklas Smedemark-Margulies1, Ye Wang2, Toshiaki Koike-Akino2

  • 1Khoury College of Computer Sciences, Northeastern University, Boston, MA, United States of America.

Journal of Neural Engineering
|November 26, 2024
PubMed
Summary
This summary is machine-generated.

New regularization techniques improve electroencephalogram (EEG) classification performance on unseen subjects. These methods enhance model generalization by enforcing statistical relationships during training, reducing the need for user-specific calibration.

Keywords:
brain–computer interface (BCI)domain adaptationelectroencephalography (EEG)representation learningsubject transfer learning

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Area of Science:

  • Neuroscience
  • Machine Learning
  • Signal Processing

Background:

  • Electroencephalogram (EEG) classification models often fail on new subjects due to performance degradation.
  • High signal variability between subjects necessitates time-intensive calibration for current EEG models.

Purpose of the Study:

  • To improve the performance of EEG classification models on unseen subjects using novel regularization techniques.
  • To reduce the need for user-specific calibration in EEG signal modeling.

Main Methods:

  • Proposed graphical models to identify ideal statistical relationships in EEG data.
  • Developed regularization penalties using Mutual Information and Wasserstein-1 divergences to enforce these relationships.
  • Implemented efficient estimation algorithms for these divergences during model training using secondary neural networks.

Main Results:

  • Extensive experiments on a large EEG dataset demonstrated significant performance improvements over unregularized models.
  • Proposed techniques showed superior performance and stability compared to a baseline adversarial classifier across various hyperparameters.
  • The computational cost of the proposed methods was comparable to the baseline.

Conclusions:

  • The novel regularization techniques effectively enhance EEG classification generalization, particularly in zero-shot subject transfer scenarios.
  • These advancements hold the potential to significantly reduce or eliminate the need for user-specific model calibration in EEG applications.