Over the last decade, passive brain–computer interface (BCI) algorithms and biosignal
acquisition technologies have experienced a significant growth that has allowed the real …

Significant advances in embedded technologies hold promise to characterize and monitor
driver's state of alertness and detect critical levels of driver drowsiness in real-time. While …

Speech neuroprosthetics aim to provide a natural communication channel to individuals
who are unable to speak due to physical or neurological impairments. Real-time synthesis of …

Stereotactic electroencephalogaphy (sEEG) utilizes localized, penetrating depth electrodes
to measure electrophysiological brain activity. It is most commonly used in the identification …

Brain–computer interface (BCI) is a novel communication method between brain and
machine. It enables signals from the human brain to influence or control external devices …

Invasive brain-computer interfaces hold promise to alleviate disabilities in individuals with
neurologic injury, with fully implantable brain-computer interface systems expected to reach …

Recent advances in brain–computer interface technology to restore and rehabilitate
neurologic function aim to enable persons with disabling neurologic conditions to …

Neurological diseases causing motor/cognitive impairments are among the most common
causes of adult-onset disability. More than one billion of people are affected worldwide, and …

Purpose: The purpose of this article is to consider how, alongside engineering
advancements, noninvasive brain–computer interface (BCI) for augmentative and alternative …

Brain-Computer Interfaces (BCIs) are systems that translate a measure of a user's brain
activity into messages or commands for an interactive application. A typical example of a BCI …