A brain implant helps paralyzed patients type on a computer by decoding attempted finger movements. The device enables rapid, ...

Researchers at Chiba University in Japan have developed a new artificial intelligence framework capable of decoding complex brain activity with significantly improved accuracy, marking an important ...

Two people with paralysis were able to type strokes on a virtual keyboard using an implant that decodes attempted finger ...

BrainWhisperer is Tether’s Brain-to-text project. Tether is earmarking resources to build technologies that push the borders of intracranial electrocortical decoding. The latest result is a variable ...

Before his disease took his voice, he could type a message as fast as anyone. Now, with electrodes no larger than a grain of rice embedded near the surface of his brain, he can do it again, at 110 ...

Motor imagery or imagined limb movements can power brain–computer interface (BCI) devices, such as prostheses and wheelchairs, supporting rehabilitation for people with neuromusculoskeletal disorders.

An environmental reporter joins a research team trying to attach recording devices to sperm whales, in hopes of decoding their calls.

Nvidia faces competition from startups developing specialised chips for AI inference as demand shifts from training large ...

BrainGate researchers develop an investigational brain-computer interface that allows paralyzed patients to type at 22 words per minute using attempted finger movements.

Motor imagery (MI) is the mental process of imagining a specific limb movement, such as raising a hand or walking, without physically performing it ...

A brain-computer interface allowed two people who had lost the ability to move their limbs to type at speeds of up to 22 words per minute ...

The firm is among a wave of Chinese startups building technologies that allow people to control computers or other electronic devices using only their minds ...