Enhancing cortical rhythms through robotic glove-assisted motor imagery training

Cristian Felipe Blanco-Díaz; Aura Ximena González-Cely; Cristian David Guerrero-Méndez; Ana Cecilia Villa-Parra; Teodiano F. Bastos-Filho

doi:10.32397/tesea.vol6.n2.580

Enhancing cortical rhythms through robotic glove-assisted motor imagery training

Cristian Felipe Blanco-Díaz
, Aura Ximena González-Cely
, Cristian David Guerrero-Méndez
, Ana Cecilia Villa-Parra
, Teodiano F. Bastos-Filho

Research Group in Biomedical Engineering (GIIB)

Research output: Contribution to journal › Article › peer-review

Abstract

Improving Motor Imagery (MI) results in amplified event-related Desynchronization/Synchoronization (ERD/ERS), which is crucial for MI-based Brain-Computer Interface (BCIs) and neuromotor rehabilitation. Several attempts to enhance MI by providing visual guidance have been reported, however, this can be improved by using robotic systems for Kinesthetic MI (KMI), such as robotic gloves for hand movements. In this study, a novel protocol based on KMI tasks is proposed to analyze cortical rhythms against a standard MI protocol based on static Action Observation (AO). The results allow concluding that the use of the robotic gloves increases the ERDs by 3% during MI tasks, where neuromodulations were found to be more focused on the C₃ and C₄ electrodes during right-and left-hand closing MI, respectively, compared to opening. In conclusion, the proposed strategy based on passive movement is feasible and can enhance MI, which can be used for designing most robust BCIs.

Original language	English
Article number	580
Pages (from-to)	1-10
Number of pages	10
Journal	Transactions on Energy Systems and Engineering Applications
Volume	6
Issue number	2
DOIs	https://doi.org/10.32397/tesea.vol6.n2.580
State	Published - 15 Sep 2025

Bibliographical note

Publisher Copyright:
© 2025 by the authors.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

Action Observation
EEG
Hand Motor Imagery
Robotic Glove
Upper-Limb Rehabilitation

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10.32397/tesea.vol6.n2.580

Cite this

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title = "Enhancing cortical rhythms through robotic glove-assisted motor imagery training",

abstract = "Improving Motor Imagery (MI) results in amplified event-related Desynchronization/Synchoronization (ERD/ERS), which is crucial for MI-based Brain-Computer Interface (BCIs) and neuromotor rehabilitation. Several attempts to enhance MI by providing visual guidance have been reported, however, this can be improved by using robotic systems for Kinesthetic MI (KMI), such as robotic gloves for hand movements. In this study, a novel protocol based on KMI tasks is proposed to analyze cortical rhythms against a standard MI protocol based on static Action Observation (AO). The results allow concluding that the use of the robotic gloves increases the ERDs by 3\% during MI tasks, where neuromodulations were found to be more focused on the C3 and C4 electrodes during right-and left-hand closing MI, respectively, compared to opening. In conclusion, the proposed strategy based on passive movement is feasible and can enhance MI, which can be used for designing most robust BCIs.",

keywords = "Action Observation, EEG, Hand Motor Imagery, Robotic Glove, Upper-Limb Rehabilitation",

author = "Blanco-D{\'i}az, \{Cristian Felipe\} and Gonz{\'a}lez-Cely, \{Aura Ximena\} and Guerrero-M{\'e}ndez, \{Cristian David\} and Villa-Parra, \{Ana Cecilia\} and Bastos-Filho, \{Teodiano F.\}",

note = "Publisher Copyright: {\textcopyright} 2025 by the authors.",

year = "2025",

month = sep,

day = "15",

doi = "10.32397/tesea.vol6.n2.580",

language = "English",

volume = "6",

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AU - Blanco-Díaz, Cristian Felipe

AU - González-Cely, Aura Ximena

AU - Guerrero-Méndez, Cristian David

AU - Villa-Parra, Ana Cecilia

AU - Bastos-Filho, Teodiano F.

PY - 2025/9/15

Y1 - 2025/9/15

N2 - Improving Motor Imagery (MI) results in amplified event-related Desynchronization/Synchoronization (ERD/ERS), which is crucial for MI-based Brain-Computer Interface (BCIs) and neuromotor rehabilitation. Several attempts to enhance MI by providing visual guidance have been reported, however, this can be improved by using robotic systems for Kinesthetic MI (KMI), such as robotic gloves for hand movements. In this study, a novel protocol based on KMI tasks is proposed to analyze cortical rhythms against a standard MI protocol based on static Action Observation (AO). The results allow concluding that the use of the robotic gloves increases the ERDs by 3% during MI tasks, where neuromodulations were found to be more focused on the C3 and C4 electrodes during right-and left-hand closing MI, respectively, compared to opening. In conclusion, the proposed strategy based on passive movement is feasible and can enhance MI, which can be used for designing most robust BCIs.

AB - Improving Motor Imagery (MI) results in amplified event-related Desynchronization/Synchoronization (ERD/ERS), which is crucial for MI-based Brain-Computer Interface (BCIs) and neuromotor rehabilitation. Several attempts to enhance MI by providing visual guidance have been reported, however, this can be improved by using robotic systems for Kinesthetic MI (KMI), such as robotic gloves for hand movements. In this study, a novel protocol based on KMI tasks is proposed to analyze cortical rhythms against a standard MI protocol based on static Action Observation (AO). The results allow concluding that the use of the robotic gloves increases the ERDs by 3% during MI tasks, where neuromodulations were found to be more focused on the C3 and C4 electrodes during right-and left-hand closing MI, respectively, compared to opening. In conclusion, the proposed strategy based on passive movement is feasible and can enhance MI, which can be used for designing most robust BCIs.

KW - Action Observation

KW - EEG

KW - Hand Motor Imagery

KW - Robotic Glove

KW - Upper-Limb Rehabilitation

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ER -

Enhancing cortical rhythms through robotic glove-assisted motor imagery training

Abstract

Bibliographical note

UN SDGs

Keywords

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