The next decade will see AI evolve into dynamic intelligence fabrics, exhibiting contextual awareness, cooperative reasoning, ...
Understanding the complex communication between the brain and peripheral systems has become central to human neuroscience. Recent research highlights that ...
Implantable brain devices—from deep brain stimulation to a new generation of brain-computer interfaces—can help people with severe, treatment-resistant psychiatric and neurological conditions or loss ...
Neuromorphic computing is a computational paradigm that mimics the way the brain functions in terms of both architecture and ...
Developed by researchers at Peking University and the Chinese Academy of Sciences, the brain chip uses memristors to enable ...
A less invasive brain-computer interface is being developed to help people with impaired speech, including ALS, communicate.
A University of Melbourne startup is developing a new device designed to transform how people with speech impairments ...
Meta's Brain2Qwerty v2 decodes typed sentences from brain scans at 61% accuracy with no implant. The catch: it's room-sized, not real-time, and lab-bound.
Meta has unveiled Brain2Qwerty v2, an AI system that converts brain activity into text without surgery, bringing assistive communication a step closer to reality.
Ready or not, the future has arrived. Novel AI and brain-computer interface (BCI) systems are no longer confined to the realm ...
A research team led by Sant'Anna School of Advanced Studies in Pisa, in collaboration with Cleveland Clinic, has uncovered ...
Back in January of this year, I asked this question: Will 2026 See a ‘ChatGPT Moment’ for Microchip Implants? The answer so far is no, but there have been quite a few interesting developments in the ...