Carnegie Mellon's noninvasive brain technology allows users to move robotic fingers by thinking about the motion, offering new possibilities for people with motor impairments.

Image shows a painting of a parent holding a child's hand by Emily Tammam, a bereaved mother who lost her 10-year-old ...

Researchers bring noninvasive EEG-based BCI one step closer to everyday use by demonstrating real-time brain decoding of individual finger movement intentions and control of a dexterous robotic hand ...

From impassioned shouting to calm instructions, team captains and managers attempt to motivate their players by any means ...

The goal is to test whether the chip can give people who are paralyzed the ability to use their mind to control electronic ...

An important issue in designing a practical brain-computer interface (BCI) is the selection of mental tasks to be imagined. Different types of mental tasks have been used in BCI including left, right, ...

Assistive robotics and brain-computer interfaces (BCIs) are rapidly transforming how people with disabilities regain ...

Robotic systems have the potential to greatly enhance daily living for the over one billion individuals worldwide who ...

People who can no longer move or speak may soon have a new option: an implanted device that links their brain to a computer.

Think about the breath-holding pause at a poker table just after the dealer slips one card face down. In that blink-long hush, the felt seems greener, every ...

A crucial link between the brain's cleaning system and deterioration of neurons associated with Alzheimer's disease has been discovered by University of Queensland researchers.