In A Nutshell For the first time in humans, scientists decoded intended movements across all three joints of a missing leg, including knee, ankle, and toes, directly from nerve signals. Tiny electrode ...

A research team led by researchers at Chalmers University of Technology in Sweden, has, for the first time, successfully ...

When a person loses a leg above the knee, the nerves that once moved that leg don’t simply go quiet. They keep firing.

The human brain contains more connections between neurons than there are stars in the Milky Way. Decoding the electrical activity behind all those cells is the massive task that excites neural ...

We may not think about it while doing it, but our nervous system is directing our bones, joints, muscles, tendons, and more to move as efficiently as possible at varying speeds. Replicating this in ...

Brain–machine interfaces (BMIs) represent a transformative field at the intersection of neuroscience, engineering and computer science, allowing for direct communication between the brain and external ...

In a recent study published in Nature Communications, researchers performed high-resolution, micro-electrocorticographic (µECoG) neural recordings for speech decoding to improve speech prostheses.

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 ...