The BCI Society is excited to introduce a new, discounted membership for BCI users and their family members or caregivers.
See bcisociety.org/membership/ for details.
Huge thanks to our generous sponsors — Blackrock Neurotech, Cleveland FES Center, Brain Products / Brain Vision, and CorTec — for supporting the BCI Society’s SfN Social 2025! Your partnership makes this special event possible.
Learn more: bcisociety.org/bci-social-a...
#BCISocial #SfN2025
NEW PREPRINT OUT!
Happy to share that our #preprint on how the human #brain encodes #touch: biorxiv.org/content/10.6...
We investigate how touch is encoded in the human #somatosensory and #motor cortices recorded via #microelectrode arrays across different tactile conditions
BCI Society
BCI Society
We are excited to share the preprint for a new project, "Finding the groove in neural space". www.medrxiv.org/content/10.6...
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After more than 5 decades of parallel development, #corticalstimulation for artificial #vision & artificial #touch is beginning to converge
rdcu.be/flRzh
Our new @natrevbioeng.nature.com review brings together shared principles and modality-specific strategies across both fields
Once we identified error in real-time, we automatically slowed the cursor movement. This step improved trial accuracy and speed, and lowered the perceived difficulty of the task. A quick, accurate and easy-to-use device will be a boon for people with motor disabilities who benefit from BCI.
Our latest preprint uses the brain's own recognition, and prediction, of movement errors to improve Brain-Computer Interface control. This work, led by @camillegontier.bsky.social and @jenpitt.bsky.social, sets the stage for more accurate and easy-to-use BCIs.
www.biorxiv.org/content/10.6...
We first identified times of erroneous movements during unassisted cursor control (red). We then added the pre-error window (yellow, 0.2 seconds before error begins). We found that we could reliably classify these time windows from electrodes in motor cortex of 4 study participants.
The neural signature of rhythm and tempo remains difficult to study in both humans and non-human primates. Here we recorded from the motor cortex of human participants implanted with intracortical mic...
