Restoring lost senses or delivering precise brain signals has required invasive hardware and can’t mimic the brain’s natural, distributed activity patterns. This platform shows the brain can learn to ...

A tiny change at the boundary between two oxide layers may point to a less power-hungry future for artificial intelligence. Researchers led by the University of Cambridge have built a nanoelectronic ...

When Apple launched its watch in 2015, the wearable device felt like a gadget. Ten years on, millions of users use its heart rate and movement tracking functions, with some even detecting arrhythmia ...

A 3D network of living neurons and electronics can recognize electrical patterns and may help researchers study both brain ...

WEST LAFAYETTE, Ind. — The human brain constantly makes decisions without us noticing. It requires minimal power to move our bodies in the desired direction or avoid an object. A Purdue University ...

Peering into the human brain has never been easy. For decades, neuroscientists have relied on heavy, expensive machines to measure blood flow and oxygen levels that reveal how the brain works. These ...

A breakthrough in brain-inspired computing could make today’s energy-hungry AI systems far more efficient. Researchers have engineered a new nanoelectronic device using a modified form of hafnium ...

In the study, "A wearable repetitive transcranial magnetic stimulation device," published in Nature Communications, researchers developed and tested a portable brain stimulation system by combining ...

Researchers demonstrate a real-time brain-controlled hearing device that selectively enhances voices based on a listener's ...