Brain-computer interfaces translate neural signals into actions, revolutionizing healthcare and enhancing communication for individuals with disabilities.

Participant says controlling the virtual drone felt like playing a musical instrument, evoking activity and socialization.

UI-TARS understands graphical user interfaces (GUIs), applies reasoning and takes autonomous, step-by-step action.

A groundbreaking brain implant has empowered a 69-year-old paralyzed man to steer a virtual drone solely with his thoughts, ...

Imagine controlling a virtual quadcopter with just your thoughts and finger movements. For patient T5, this is no longer a dream. Researchers have developed a high-performance brain-computer interface ...

A brain-computer interface, surgically placed in a research participant with tetraplegia, paralysis in all four limbs, provided an unprecedented level of control over a virtual quadcopter -- just by ...

Device that links neural signals to fine movements provides unprecedented control over speed and direction in a video-game ...