(A) A locomotion tracking system for cyborg insects, which uses a camera to track the insect's position, transmitting the positional data to the host for recording; (B) a host that acquires and ...

Insects exhibit remarkable locomotor versatility underpinned by highly efficient neural control systems. Their ability to navigate complex terrains relies on the seamless integration of sensory inputs ...

Adaptability explains why insects spread so widely and why they are the most abundant animal group on earth. Insects exhibit resilient and flexible locomotion, even with drastic changes in their body ...

A team of engineers, physicists and biologists is seeking to create insect cyborgs—creatures with a mixture of organic and mechanical parts that could be used for military applications. The ...

Researchers are embracing chaos and nonlinear physics to create insectlike gaits for tiny robots -- complete with a locomotion controller to provide a brain-machine interface. Biology and physics are ...

Princeton engineers investigated the secret to grasshoppers' efficient gliding, inspiring a new approach for robotic flight.

PORTLAND, Ore. — Cyborg insects with embedded microelectromechanical systems (MEMS) will run remotely controlled reconnaissance missions for the military, if its '”HI-MEMS” program succeeds.

Insect-scale legged robots have become increasingly capable in recent years but are still severely limited in terms of onboard resources for computation and power. On the other hand, simple models for ...