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Cross-frequency information transfer from EEG to EMG in grasping

conference contribution
posted on 2024-10-31, 20:48 authored by Winnie So, Lingling Yang, Beth Jelfs, Qi She, Savio Wong, Joseph Mak, Rosa Chan
This paper presents an investigation into the corticomuscular relationship during a grasping task by evaluating the information transfer between EEG and EMG signals. Information transfer was computed via a non-linear model-free measure, transfer entropy (TE). To examine the cross-frequency interaction, TEs were computed after the times series were decomposed into various frequency ranges via wavelet transform. Our results demonstrate the capability of TE to capture the direct interaction between EEG and EMG. In addition, the cross-frequency analysis revealed instantaneous decrease in information transfer from EEG to the high frequency component of EMG (100- 200Hz) during the onset of movement.

History

Related Materials

  1. 1.
    DOI - Is published in 10.1109/EMBC.2016.7591735
  2. 2.
    ISBN - Is published in 9781457702198 (urn:isbn:9781457702198)

Start page

4531

End page

4534

Total pages

4

Outlet

Proceedings of the 38th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC 2016)

Name of conference

EMBC 2016: Empowering Individual Healthcare Decisions through Technology

Publisher

IEEE

Place published

United States

Start date

2016-08-16

End date

2016-08-20

Language

English

Copyright

© 2016 IEEE.

Former Identifier

2006073210

Esploro creation date

2020-06-22

Fedora creation date

2017-05-11

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