Speech neuroprostheses have the potential to restore communication to people living with
paralysis, but naturalistic speed and expressivity are elusive. Here we use high-density …

Speech brain–computer interfaces (BCIs) have the potential to restore rapid communication
to people with paralysis by decoding neural activity evoked by attempted speech into text, or …

Technology that translates neural activity into speech would be transformative for people
who are unable to communicate as a result of neurological impairments. Decoding speech …

Neuroprostheses have the potential to restore communication to people who cannot speak
or type due to paralysis. However, it is unclear if silent attempts to speak can be used to …

Background Technology to restore the ability to communicate in paralyzed persons who
cannot speak has the potential to improve autonomy and quality of life. An approach that …

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 …

Decoding human speech from neural signals is essential for brain–computer interface (BCI)
technologies that aim to restore speech in populations with neurological deficits. However, it …

Background Brain-machine interfaces (BMIs) involving electrodes implanted into the human
cerebral cortex have recently been developed in an attempt to restore function to profoundly …

Historically, the study of speech processing has emphasized a strong link between auditory
perceptual input and motor production output,,,. A kind of 'parity'is essential, as both …

Restoring natural speech in paralyzed and aphasic people could be achieved using a Brain-
Computer Interface (BCI) controlling a speech synthesizer in real-time. To reach this goal, a …