<--- Back to Details
First PageDocument Content
Neuroscience / Brain–computer interface / Virtual reality / Transcutaneous electrical nerve stimulation / Epidural / Spinal cord injury / Electrode array / Neurostimulation / Medicine / Neurotechnology / Neuroprosthetics
Date: 2012-09-28 12:14:45
Neuroscience
Brain–computer interface
Virtual reality
Transcutaneous electrical nerve stimulation
Epidural
Spinal cord injury
Electrode array
Neurostimulation
Medicine
Neurotechnology
Neuroprosthetics

Microsoft PowerPoint - Lancet.SupFigures.1.21.ppt

Add to Reading List

Source URL: eas.caltech.edu

Download Document from Source Website

File Size: 1,15 MB

Share Document on Facebook

Similar Documents

A Stabilized Dual Kalman Filter for Adaptive Tracking of Brain-Computer Interface Decoding Parameters

DocID: 1uL66 - View Document

J Comput Neurosci DOIs10827Comparison of brain–computer interface decoding algorithms in open-loop and closed-loop control Shinsuke Koyama · Steven M. Chase ·

DocID: 1urHy - View Document

Proceedings of the Fifth International Brain-Computer Interface MeetingDOI:Real-Time Estimation and 3D Visualization of Source Dynamics and Connectivity Using Wearable EEG

DocID: 1tVGh - View Document

Vol 442|13 July 2006|doi:nature04968 LETTERS A high-performance brain–computer interface Gopal Santhanam1*, Stephen I. Ryu1,2*, Byron M. Yu1, Afsheen Afshar1,3 & Krishna V. Shenoy1,4 Recent studies have demons

DocID: 1tVyx - View Document

Artificial intelligence / User interface techniques / Humancomputer interaction / Brain / Emotion / Computational neuroscience / Computer accessibility / Speech recognition / Gesture recognition / Facial expression / Artificial neural network / Pattern recognition

21st International Conference on Pattern Recognition (ICPRNovember 11-15, 2012. Tsukuba, Japan Audio-Visual Data Association for Face Expression Analysis Ashish Tawari and Mohan Trivedi University of California Sa

DocID: 1rlD7 - View Document