Riemannian Geometry-Preserving Variational Autoencoder for MI-BCI Data Augmentation

arXiv cs.LG / 3/12/2026

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The paper proposes a Riemannian geometry-preserving variational autoencoder (RGP-VAE) to generate synthetic EEG covariance matrices for motor imagery brain-computer interface (MI-BCI) applications while preserving their symmetric positive-definite (SPD) structure.
It introduces a composite loss that combines Riemannian distance, tangent space reconstruction accuracy, and generative diversity to enforce geometry-aware learning and diverse samples.
Results show the model can produce valid, representative covariance matrices and learn a subject-invariant latent space, with synthetic data benefiting MI-BCI performance contingent on the paired classifier.
The work highlights potential gains in signal privacy, scalability, and data augmentation for EEG-based MI-BCI, illustrating a pathway for geometry-preserving generative modeling in neural signals.

Abstract

This paper addresses the challenge of generating synthetic electroencephalogram (EEG) covariance matrices for motor imagery brain-computer interface (MI-BCI) applications. Objective: We aim to develop a generative model capable of producing high-fidelity synthetic covariance matrices while preserving their symmetric positive-definite nature. Approach: We propose a Riemannian geometry-preserving variational autoencoder (RGP-VAE) integrating geometric mappings with a composite loss function combining Riemannian distance, tangent space reconstruction accuracy and generative diversity. Results: The model generates valid, representative EEG covariance matrices, while learning a subject-invariant latent space. Synthetic data proves practically useful for MI-BCI, with its impact depending on the paired classifier. Contribution: This work introduces and validates the RGP-VAE as a geometry-preserving generative model for EEG covariance matrices, highlighting its potential for signal privacy, scalability and data augmentation.

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Riemannian Geometry-Preserving Variational Autoencoder for MI-BCI Data Augmentation

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