Researchers at the City University of Hong Kong have developed an artificial skin that mimics key functions of the human nervous system, marking a step towards robots that can feel touch, detect ...

A review paper by scientists at Beijing Institute of Graphic Communication presented  a thorough review of the existing ...

Scientists have developed molecular devices that can switch roles, behaving as memory, logic, or learning elements within the ...

Human skin transmits sensory information as electrical pulses, or spikes, that encode signals related to pressure and pain. NRE-skin mimics this biological process by converting pressure ...

Optical computing has emerged as a powerful approach for high-speed and energy-efficient information processing. Diffractive ...

The NRE-skin includes a built-in pain centre, which reacts to dangerous stimuli nearly instantly and protects the robot from ...

Explore how neuromorphic chips and brain-inspired computing bring low-power, efficient intelligence to edge AI, robotics, and ...

Robots are starting to gain something that looks a lot like a sense of touch, and in some cases even a crude version of pain.

For more than 50 years, scientists have sought alternatives to silicon for building molecular electronics. The vision was ...

Originally based on a 1945 document, von Neumann architecture has long been a conventional computer design with memory space that shares both instructions and data. But now, in the age of artificial ...

Neuromorphic computing, or hardware modeled on the brain’s neurons and spikes, is rapidly moving from research labs into real-world engineering. In this edge-computing era, companies and researchers ...

Biological vision research and artificial intelligence are increasingly connected as scientists better understand how humans process visual information. This knowledge now directly influences machine ...