In an age of increasingly advanced robotics, one team has well and truly bucked the trend, instead finding inspiration within the pinhead-sized brain of a tiny flying insect in order to build a robot ...

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 ...

Researchers at Harvard University’s School of Engineering and Applied Sciences have developed an insect-like robot that achieves flight by flapping a pair of tiny wings. The robot is small enough to ...

Different insects flap their wings in different manners. Understanding the variations between these modes of flight may help scientists design better and more efficient flying robots in the future.

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 ...

Robotic versions of flying insects hold a lot of promise for numerous applications, but controlling their yaw axis while in flight has proven challenging. A new bee robot, however, addresses that ...

Engineers have designed a robot with flapping wings, which can perform nimble movements in the air, hovering, darting, diving and recovering like a bird or an insect. Humans have been trying to ...

A new insect-inspired flying robot created by engineers at the University of California, Berkeley, can hover, change trajectory and even hit small targets. The flying robot is less than 1 centimeter ...

Credit: TU Delft/Studio Oostrum/Tom van Dijk/Christophe de Wagter/Cover Images Scientists believe insects could hold the key to a world where futuristic mini-robots can complete important tasks.

Insects have been incredibly successful in developing ways of flying, with an ultra-fast flapping mode that scientists thought had evolved multiple times over history. Now, researchers have ...

A robotic bee that can fly fully in all directions has been developed. With four wings made out of carbon fiber and mylar as well as four light-weight actuators to control each wing, the Bee++ ...