A research team led by Sant'Anna School of Advanced Studies in Pisa, in collaboration with Cleveland Clinic, has uncovered ...

A new white paper explores how wrist-worn neural sensing may reduce the alignment gap between human intent and AI agent understanding, enabling ...

There is an exciting future on the horizon—one in which your thoughts could directly control electronic devices you use every day. In many ways, that future is already here, enabled by neural ...

To infer intent, brain–computer interfaces must extract features that accurately estimate neural activity. However, the degradation of signal quality over time hinders the use of feature-engineering ...

AI thrives on data but feeding it the right data is harder than it seems. As enterprises scale their AI initiatives, they face the challenge of managing diverse data pipelines, ensuring proximity to ...

Guy Wagner, Founder and Chief Scientific Officer of Wearable Devices, will present the session on June 18, 2026, from 1:40 PM to 2:05 p.m. PT in ...

Human neural organoids are essential platforms for fundamental and applied research due partly to their complex, three-dimensional neuronal circuit geometries. Standard and recently developed neural ...

A team of researchers led by Rice University's Jacob Robinson and the University of Texas Medical Branch's Peter Kan has developed a technique for diagnosing, managing and treating neurological ...

June 2 (UPI) --Paradromics, a competitor of Neuralink, announced Monday it safely implanted a brain-computer interface into a human patient and recorded neural activity, before removing it 10 minutes ...

Neural interfaces are devices that can detect or modulate neuronal activity when placed in contact with the brain. They are already used to treat various conditions related to the nervous system.

In a nutshell: Interfacing brains with computers is challenging. It requires decoding complex neural signals, ensuring biocompatibility, and preventing immune responses, to name a few hurdles.