We don't usually realize it, but every word we speak depends on a series of complex brain processes working behind the scenes ...

Bioengineers have invented a thin, flexible device that adheres to the neck and translates the muscle movements of the larynx into audible speech. The device is trained through machine learning to ...

Researchers introduce Cheese3D, an AI tool that tracks mouse facial expressions to predict brain states and anesthesia depth with EEG accuracy.

Previously, experts thought that remembering the facial movements involved in speech was primarily the role of the brain’s ...

AI and human-movement research intersect in a study that enables precise estimation of hand muscle activity from standard video recordings. Using a deep-learning framework trained on a large, ...

AI and human-movement research intersect in a study that enables precise estimation of hand muscle activity from standard video recordings. Using a deep-learning framework trained on a large, ...

A growing body of neuroscience research is revealing that the brain’s ability to learn and its ability to move depend on the same razor-thin timing windows, sometimes as brief as 30 milliseconds.

People with voice disorders, including those with pathological vocal cord conditions or who are recovering from laryngeal cancer surgeries, can often find it difficult or impossible to speak. That may ...