Humans interact with computers through various devices. Such interactions may not require
any physical movement, thus aiding people with severe motor disabilities in communicating …

Brain-computer interfaces (BCIs) provide a unique technological solution to circumvent the
damaged motor system. For neurorehabilitation, the BCI can be used to translate neural …

Dry electrode electroencephalogram (EEG) recording combined with wireless data
transmission offers an alternative tool to conventional wet electrode EEG systems. However …

Recent advances in dry electrodes technology have facilitated the recording of EEG in
situations not previously possible, thanks to the relatively swift electrode preparation and …

Brain–computer interfaces (BCIs) enable direct and near-instant communication between
the brain and electronic devices. One of the biggest remaining challenges is to develop an …

Augmentative and alternative communication brain-computer interface (AAC-BCI) systems
are intended to offer communication access to people with severe speech and physical …

The integration of a P300-based brain–computer interface (BCI) into virtual reality (VR)
environments is promising for the video games industry. However, it faces several …

Abstract Background Central Neuropathic Pain (CNP) is a frequent chronic condition in
people with spinal cord injury (SCI). Previously, we showed that using laboratory brain …

Abstract Research conducted on Brain-Computer Interfaces (BCIs) has grown considerably
during the last decades. With the help of BCIs, users can (re) gain a wide range of functions …

Brain-computer interfaces and wearable neurotechnologies are now used to measure real-
time neural and physiologic signals from the human body and hold immense potential for …