(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 ...

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

Scientists have developed an advanced swarm navigation algorithm for cyborg insects that prevents them from becoming stuck while navigating challenging terrain. The new algorithm represents a ...

Tiny flying robots have always faced a brutal trade-off between agility and battery life, burning through power just to stay ...

Scientists have created a flying robot inspired by how a rhinoceros beetle flaps its wings to take off. The concept is based on how some birds, bats, and other insects tuck their wings against their ...

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 ...

If you have some time to enter the Lilliputian world of an insect, spend a few moments and gaze with amazement at the strange locomotion of the cabbage looper. Of all the creatures of Creation, this ...