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

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 ...

Researchers at the Massachusetts Institute of Technology (MIT) have developed a micro-flapping-wing robot that exhibits flight characteristics and speeds similar to those of a bee. An AI-based, ...

Insects in nature not only possess amazing flying skills but also can attach to and climb on walls of various materials. Insects that can perform flapping-wing flight, climb on a wall, and switch ...

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 ...

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 ...

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 ...

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 ...

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, ...