Brain-computer interface (BCI) applications implement a direct communication path between the brain and the computer. This paper deals with the fundamentals of BCI systems and the experience of the neuroinformatics team with the design and implementation of various BCI applications. Their advantages...
The mission of the Georgia State University BrainLab is to create and adapt methods of human-computer interaction that will allow brain-computer interface (BCI) technologies to effectively control real-world applications. Most of the existing BCI applications were designed largely for training and demon...
Brain computer interfaceElon MuskEpilepsyQuadriplegiaParkinson’s diseaseSpinal cord injuryNeuralink has successfully implanted its brain-computer interface in a human. The procedure marks a significant milestone in the history of neurosciences. The telepathy unit is roughly coin-sized, though much thicker...
OBJECTIVE: This paper tackles the problem of transfer learning in the context of EEG-based Brain Computer Interface (BCI) classification. In particular the problems of cross-session and cross-subject classification are considered. These problems concern the ability to use data from previous sessions ...
Recent experiments have shown the possibility to use the brain electrical activity to directly control the movement of robots. Such a kind of brain-computer interface is a natural way to augment human capabilities by providing a new interaction link with the outside world and is particularly releva...
This work proposes a real-time Brain-Computer Interface to control an assistive robot in a human-robot collaborative scenario in order to increase the quality of a patient’s life by enabling interaction with the environment. EEG sensor, theTMSi SAGA 64+, will be used to record signals from ...
Brain-computer interface (BCI) represents an emerging and potentially disruptive area of technology that, to date, has received minimal public discussion in the defense and national security policy communities. This research considered key areas in which future BCI technologies might be relevant for the...
Phylomedicine: an evolutionary telescope to explore and diagnose the universe of disease mutations. Modern technologies have made the sequencing of personal genomes routine. They have revealed thousands of nonsynonymous (amino acid altering) single nucleo... S Kumar,JT Dudley,A Filipski,... - 《Tr...
Therefore, being composed of a silent speech and brain-computer interface, users can communicate with other peers, regardless of disability status, with no physical contact with the device. Users utilize a specific user interface design that supports such interaction, doing so securely on a ...
Deep Learning for Brain-Computer Interface (BCI) Book authors:Dr. Xiang Zhang(xiang_zhang@hms.harvard.edu),Prof. Lina Yao(lina.yao@unsw.edu.au) Update The whole well-processed and DL-ready data of 109 subjects from EEGMMIDB are uploaded!