Abstract
While most tasks of daily life can be handled through a small number of different grasps, many tasks require the action of both hands. In these bimanual tasks, the second hand has either a supporting role (e.g. for fixating a jar) or a more active role (e.g. grasping a pot on both handles). In this study we attempt to discriminate the neural correlates of unimanual (performed with left and right hand) from bimanual reach-and-grasp actions using the low-frequency time-domain electroencephalogram (EEG). In a self-initiated movement task, 15 healthy participants were asked to perform unimanual (palmar and lateral grasps with left and right hand) and bimanual (double lateral, mixed palmar/lateral) reach-and-grasps on objects of daily life. Using EEG time-domain features in the frequency range of 0.3-3Hz, we achieved multiclass-classification accuracies of 38.6 ± 6.6% (7 classes, 17.1% chance level) for a combination of 6 movements and 1 rest condition. The grand average confusion matrix shows highest true positive rates (TPR) for the rest (63%) condition while TPR for the movement classes varied between 33 to 41%. The underlying movement-related cortical potentials (MRCPs) show significant differences between unimanual (e.g left hand vs. right hand grasps) as well unimanual vs. bimanual conditions which both can be attributed to lateralization effects. We believe that these findings can be exploited and further used for attempts in providing persons with spinal cord injury a form of natural control for bimanual neuroprostheses.
Highlights
P ERSONS with high spinal cord injury (SCI) have lost a substantial part of their motor functions
While our research focuses on enabling people with motor impairments to control assistive devices using a brain-computer interfaces (BCI), Movement-Related Cortical Potentials (MRCPs)
We show the grand-average over all participants of the classification accuracy when evaluating each time-point within the window of interest with a different classification model
Summary
P ERSONS with high spinal cord injury (SCI) have lost a substantial part of their motor functions. In contrary to a paraplegic person, upper limb function is critically affected, making fundamental actions of daily life like personal hygiene, eating and drinking not accomplishable without help. Surveys with tetraplegic persons show that improving hand function is their top priority [1], [2]. Manuscript received August 23, 2019; accepted September 14, 2019. Date of publication September 23, 2019; date of current version May 20, 2020.
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