Multimodal EEG and fNIRS Biosignal Acquisition during Motor Imagery Tasks in Patients with Orthopedic Impairment
Imported from OpenNeuro ds004022
- Participants
- 7
- Channels
- 18
- Citations
- 2
- Size
- 635 MB
- Version
- v1.0.0
- Updated
- Jul 10, 2026
93 results for "upper limb movements" · page 3 of 10 · ranked by relevance
Imported from OpenNeuro ds004022
…Electrical stimulation of temporal and limbic circuitry produces distinct responses in human…
This dataset comprises high-density dual-layer electroencephalography (EEG), neck electromyography (EMG), inertial measurement unit (IMU) acceleration, and ground reaction force recordings from older adults walking over uneven terrain at varying speeds. Participants completed two trials per condition lasting three minutes each, along with a three-minute seated rest baseline. The dataset includes digitized electrode locations for each participant and represents a comprehensive multimodal neurophysiological and biomechanical assessment of locomotor control in aging.
…Signatures of electrical stimulation driven network interactions in the human limbic system…
Imported from OpenNeuro ds003801
…motor_imagery_same_limb - **Number of classes**: 2 - **Class labels**: right_hand…
This dataset comprises EEG recordings from 15 healthy participants performing self-initiated reach-and-grasp motor tasks using three different recording systems: gel-based laboratory equipment, water-based mobile EEG, and dry-electrode mobile EEG. Data were acquired at 256 Hz from 58 EEG channels plus 6 EOG channels across three sessions with a total of 7,200 trials. Participants executed palmar and lateral grasp actions toward objects while EEG signals were recorded. The study investigates the feasibility of decoding natural reach-and-grasp neural correlates across different EEG acquisition modalities for brain-computer interface applications.
…EMG upper orbicularis oris (bipolar pair) - Channels 137-138: EMG lower orbicularis…
This mobile brain-body imaging (MoBI) study investigates electrocortical correlates of locomotor adaptation during split-belt treadmill walking. Thirty participants performed both abrupt and gradual split-belt walking protocols with a 2:1 belt speed ratio while mobile EEG was recorded. The dataset provides insights into neural mechanisms underlying gait adaptation and motor learning in dynamic walking conditions.
…Spatial attention with overt eye movements: subjects move their eyes to attend…