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- Title
Assessing Movement Factors in Upper Limb Kinematics Decoding from EEG Signals.
- Authors
Úbeda, Andrés; Hortal, Enrique; Iáñez, Eduardo; Perez-Vidal, Carlos; Azorín, Jose M.
- Abstract
The past decades have seen the rapid development of upper limb kinematics decoding techniques by performing intracortical recordings of brain signals. However, the use of non-invasive approaches to perform similar decoding procedures is still in its early stages. Recent studies show that there is a correlation between electroencephalographic (EEG) signals and hand-reaching kinematic parameters. From these studies, it could be concluded that the accuracy of upper limb kinematics decoding depends, at least partially, on the characteristics of the performed movement. In this paper, we have studied upper limb movements with different speeds and trajectories in a controlled environment to analyze the influence of movement variability in the decoding performance. To that end, low frequency components of the EEG signals have been decoded with linear models to obtain the position of the volunteer’s hand during performed trajectories grasping the end effector of a planar manipulandum. The results confirm that it is possible to obtain kinematic information from low frequency EEG signals and show that decoding performance is significantly influenced by movement variability and tracking accuracy as continuous and slower movements improve the accuracy of the decoder. This is a key factor that should be taken into account in future experimental designs.
- Subjects
HAND physiology; ELECTROENCEPHALOGRAPHY; BRAIN physiology; PERFORMANCE evaluation; KINEMATICS
- Publication
PLoS ONE, 2015, Vol 10, Issue 5, p1
- ISSN
1932-6203
- Publication type
Article
- DOI
10.1371/journal.pone.0128456