The secret behind insects' lightning-fast reactions could offer a blueprint for more energy-efficient robots and self-driving cars, according to a new study challenging our understanding of how brains ...

New research decoding insect wing dynamics could enable highly stable flapping robots, improving micro-drone control, ...

The way bugs and birds flap their wings may look effortless, but the dynamics that keep them aloft are dizzyingly complex and ...

Researchers at Cornell University have developed a 3D computational model that decodes the complex ...

About five years ago, a bizarre idea occurred to me. At the time, I was designing complex electronic circuits to mimic a small portion of an insect brain. These circuits would be created on a tiny ...

Ants do not need a foreman to raise a city. Working with little more than local cues, they excavate tunnels, pile up soil, ...

A University of Sheffield study has detailed how flies use rapid body and eye movements to boost visual processing speed, offering potential insights for AI and robotics design. Hyundai announced ...

A computer model from Cornell University makes it easier to develop stably flying flapping robots.

An organic synapse array enables night vision and pattern recognition in insect robots by detecting near-infrared light and triggering real-time motor responses. (Nanowerk Spotlight) Insect-scale ...

DENVER (KDVR) — A University of Colorado Boulder researcher received a grant to build something straight out of a spy movie. The United States Air Force Research Laboratory awarded CU assistant ...