How can we interact with computers using only our mind? Existing brain-computer interfaces are often limited by their size ...

University of Hong Kong team’s discovery could help solve a major problem for bioelectronic devices, rejection by the immune ...

Rivian's details its plans to bring more AI and hands-free autonomous driving features to current and future R1 and R2 EV owners.

BISC is an ultra-thin, single-chip brain-computer interface that sits between the brain and skull and uses 65,536 electrodes. The implant streams high-bandwidth neural data over a custom UWB link to a ...

Nature has been a source of inspiration for the project. The model for machine vision has been the collaboration between the human retina, visual cortex, and prefrontal lobe for perception and ...

Smaller, Thinner…’ Technology known as brain-computer interface (BCI), which reads signals from the human brain to control ...

BrainChip Holdings Ltd., a leader in commercial production high-performance, ultra-low-power, event-based neuromorphic ...

BISC is an ultra-thin neural implant that creates a high-bandwidth wireless link between the brain and computers. Its tiny single-chip design packs tens of thousands of electrodes and supports ...

Scientists at Yale University have developed a new way to build computer chips that work more like the human brain—and, importantly, can grow much larger and more powerful than previous attempts. This ...

A new brain-computer interface promises ultra-high resolution neural recording and wireless operation in a very small form.

Backed by Andreessen Horowitz and Jeff Bezos, Unconventional AI wants to ditch GPUs for biologically inspired hardware that ...

Scientists have developed a new kind of brain-computer interface (BCI) that is so small and thin it can slide gently between ...