Frontiers in Neurorobotics (Feb 2023)

Continuous versus discrete robotic feedback for brain-computer interfaces aimed for neurorehabilitation

  • Ruben I. Carino-Escobar,
  • Martín E. Rodríguez-García,
  • Paul Carrillo-Mora,
  • Raquel Valdés-Cristerna,
  • Jessica Cantillo-Negrete

DOI
https://doi.org/10.3389/fnbot.2023.1015464
Journal volume & issue
Vol. 17

Abstract

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IntroductionBrain-Computer Interfaces (BCI) can allow control of external devices using motor imagery (MI) decoded from electroencephalography (EEG). Although BCI have a wide range of applications including neurorehabilitation, the low spatial resolution of EEG, coupled to the variability of cortical activations during MI, make control of BCI based on EEG a challenging task.MethodsAn assessment of BCI control with different feedback timing strategies was performed. Two different feedback timing strategies were compared, comprised by passive hand movement provided by a robotic hand orthosis. One of the timing strategies, the continuous, involved the partial movement of the robot immediately after the recognition of each time segment in which hand MI was performed. The other feedback, the discrete, was comprised by the entire movement of the robot after the processing of the complete MI period. Eighteen healthy participants performed two sessions of BCI training and testing, one with each feedback.ResultsSignificantly higher BCI performance (65.4 ± 17.9% with the continuous and 62.1 ± 18.6% with the discrete feedback) and pronounced bilateral alpha and ipsilateral beta cortical activations were observed with the continuous feedback.DiscussionIt was hypothesized that these effects, although heterogenous across participants, were caused by the enhancement of attentional and closed-loop somatosensory processes. This is important, since a continuous feedback timing could increase the number of BCI users that can control a MI-based system or enhance cortical activations associated with neuroplasticity, important for neurorehabilitation applications.

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