China’s brain-computer interface industry is rapidly scaling from research to commercialization, driven by strong policy support, expanding clinical trials, and growing investor interest.

Rapid advances in brain-computer interface technology are beginning to reshape modern healthcare, as hospitals and researchers expand clinical use of systems that allow patients with paralysis and ...

Thirty years after scientists demonstrated how brain implants can help rhesus monkeys move robotic limbs using only their ...

Brain-Computer Interfaces (BCIs) are emerging as transformative tools that enable direct communication between the human brain and external devices. With recent advancements in Electroencephalography ...

As an innovative subtype of invasive brain-computer interfaces (BCIs), the Endovascular Brain-Computer Interface (EBCI) enables electrode delivery to target brain regions via endovascular intervention ...

New research introduces the Chill Brain-Music Interface (C-BMI), using in-ear EEG sensors to trigger "musical chills" and maximize emotional pleasure in real-time.

Scientists have traditionally studied how the brain controls movement by asking patients to perform structured tasks while connected to multiple sensors in a lab. While these studies have provided ...

Recent technological advances have opened new exciting possibilities for the development of smart prosthetics, such as artificial limbs, joints or organs that can replace injured, damaged or amputated ...

A global race to develop a competitive brain-computer interface is heating up between the United States and China.

Scientists have traditionally studied how the brain controls movement by asking patients to perform structured tasks while connected to multiple ...

AI Accelerator: Operating as a high-velocity innovation engine, testing bold AI concepts continuously across verticals such as agentic workflows, edge AI, and beyond – with the goal of rapidly ...