Surfing beta burst waveforms to improve motor imagery-based BCI - Équipe CoPhy : Computation, Cognition et Neurophysiologie du CRNL
Article Dans Une Revue Imaging Neuroscience Année : 2024

Surfing beta burst waveforms to improve motor imagery-based BCI

Résumé

Abstract Our understanding of motor-related, macroscale brain processes has been significantly shaped by the description of the event-related desynchronization (ERD) and synchronization (ERS) phenomena in the mu and beta frequency bands prior to, during, and following movement. The demonstration of reproducible, spatially- and band-limited signal power changes has, consequently, attracted the interest of non-invasive brain-computer interface (BCI) research for a long time. BCIs often rely on motor imagery (MI) experimental paradigms that are expected to generate brain signal modulations analogous to movement-related ERD and ERS. However, a number of recent neuroscience studies has questioned the nature of these phenomena. Beta band activity has been shown to occur, on a single-trial level, in short, transient, and heterogeneous events termed bursts rather than sustained oscillations. In a previous study, we established that an analysis of hand MI binary classification tasks based on beta bursts can be superior to beta power in terms of classification score. In this article, we elaborate on this idea, proposing a signal processing algorithm that is comparable to- and compatible with state-of-the-art techniques. Our pipeline filters brain recordings by convolving them with kernels extracted from beta bursts and then applies spatial filtering before classification. This data-driven filtering allowed for a simple and efficient analysis of signals from multiple sensors, thus being suitable for online applications. By adopting a time-resolved decoding approach, we explored MI dynamics and showed the specificity of the new classification features. In accordance with previous results, beta bursts improved classification performance compared to beta band power, while often increasing information transfer rate compared to state-of-the-art approaches.
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hal-04842181 , version 1 (17-12-2024)

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Sotirios Papadopoulos, Ludovic Darmet, Maciej J Szul, Marco Congedo, James J Bonaiuto, et al.. Surfing beta burst waveforms to improve motor imagery-based BCI. Imaging Neuroscience, 2024, 2, pp.1-15. ⟨10.1162/imag_a_00391⟩. ⟨hal-04842181⟩
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