Houston Methodist neuroscientists have developed a first-of-its-kind method to rapidly produce synchronized, human brain wave ...

The implant developed by Professor John Rogers could restore lost senses and provide sensory feedback for prosthetic limbs.

On a video call in early September, Sarah Tabrizi first saw the data that she and other researchers studying Huntington’s ...

Senior AI editor Will Douglas Heaven talks with Tim Bradshaw, FT global tech correspondent, about what our world will look ...

Humans are a crucial element in the design and implementation of things like self-driving vehicles, which use AI to navigate ...

Some artificial intelligence models can already resemble the human brain even before having learned anything. This surprising ...

In a new leap for neurobiology and bioelectronics, Northwestern University scientists have developed a wireless device that ...

A radically miniaturized brain implant called BISC is redefining what’s possible in human–computer interaction, offering a ...

Human biology evolved for a world of movement, nature, and short bursts of stress—not the constant pressure of modern life.

A biocomputer harnesses biologically derived materials, such as DNA, proteins, or living tissue (e.g., lab-grown neurons), to ...

Despite massive investments in compute resources, advanced optimization techniques, and experimental architectures, all observable progress continues to depend entirely on human-directed development.

Choosing the right blueprint can accelerate learning in visual AI systems. Artificial intelligence systems built with biologically inspired structures can produce activity patterns similar to those ...