(Nanowerk News) A new drive system for flapping wing autonomous robots has been developed by a University of Bristol team, using a new method of electromechanical zipping that does away with the need ...

(Nanowerk News) Engineers have long sought to unlock the secrets behind insects' uncanny flight abilities and agility in hopes of creating a new class of tiny yet capable flying robots. These flapping ...

At this point, building a flying vehicle isn’t terribly hard. Aviation enthusiasts can buy DIY kits and build themselves a plane that can easily and safely take to the skies. But a flying vehicle that ...

Bio-inspired wind sensing using strain sensors on flexible wings could revolutionize robotic flight control strategy. Researchers at Institute of Science Tokyo have developed a method to detect wind ...

One of the largest and strongest beetles in the world hardly seems the best inspiration for a delicate flying microbot. But using slow-motion cameras to capture the critters in flight, an ...

A new drive system for flapping wing autonomous robots has been developed, using a new method of electromechanical zipping that does away with the need for conventional motors and gears. A new drive ...

Since the dawn of aviation, birds have been an inspiration for visionaries of flight. And now, engineers are once again looking to feathered friends to inspire the next generation of aircraft wings.

The study of bio-inspired flapping flight and the dynamics of micro air vehicles (MAVs) has grown into a vibrant interdisciplinary field, merging insights from insect biomechanics, aerodynamics and ...

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 ...

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Researchers have designed flexible, bat-like wings that boost lift and improve flight performance. This innovation could lead to more efficient drones or energy-harvesting technologies. In 1934, ...