Motor Imagery ataset from Ofner et al 2017
…upper limb movements, EEG, motor imagery, movement execution, low-frequency, time-domain…
- Participants
- 15
- Channels
- 61 (10-05)
- Citations
- 95
- HED
- v8.4.0
- Size
- 8.54 GB
- Version
- v1.0.1
- Updated
- Jul 10, 2026
93 results for "upper limb movements" · page 2 of 10 · ranked by relevance
…upper limb movements, EEG, motor imagery, movement execution, low-frequency, time-domain…
Imported from OpenNeuro ds003343
A multi-modal neuroimaging dataset combining structural MRI, magnetoencephalography (MEG), and electroencephalography (EEG) recordings from multiple subjects during median nerve electrical stimulation and motor response tasks. Participants performed rapid left index finger lifts in response to right median nerve stimuli, providing a comprehensive resource for investigating somatosensory processing and motor control mechanisms.
…amputees with phantom limb pain, amputees without phantom limb pain, and intact…
This dataset comprises simultaneous magnetoencephalography and subthalamic nucleus local field potential recordings from externalized deep brain stimulation patients with Parkinson's disease, acquired under dopaminergic medication on and off conditions. Participants performed two motor tasks—static forearm extension and self-paced fist clenching—each preceded by resting periods, with some patients recorded during rest only. The dataset enables investigation of basal ganglia-cortex circuit electrophysiology and its modulation by movement and pharmacological state.
…10.82901/nemar.nm000270) # Lower limb motor imagery EEG dataset of stroke…
Imported from OpenNeuro ds004362
…2025 Lower-limb MI dataset for knee pain patients from Zuo et…
This dataset comprises multimodal neurophysiological and biomechanical recordings from 32 young adults performing walking tasks over uneven terrain at varying speeds. Data include high-density dual-layer electroencephalography (EEG), neck electromyography (EMG), inertial measurement unit (IMU) acceleration, ground reaction forces, and structural MRI-derived head models. Each participant completed two trials per condition lasting three minutes, plus a seated rest baseline, providing a comprehensive resource for investigating neural and muscular control mechanisms during dynamic locomotion.
…neuroprosthesis, robotic arm control, upper limb restoration - **Environment**: laboratory - **Online feedback**: True…