When designing fish-like underwater robots, you want a means of propulsion which is both energy-efficient and reasonably speedy. A new tail-flapping system may fit the bill, paving the way for wider ...

Bats have long captured the imaginations of scientists and engineers with their unrivaled agility and maneuvering characteristics, achieved by functionally versatile dynamic wing conformations as well ...

Key technical innovation includes the use of insect-like compliant wings to enhance aerodynamics and a low power design. High lift coefficients will be achieved by properly achieving dynamic ...

The new robot was developed for a specific science experiment; however, the construction will have wider uses in the field of aerial robotics. The device was constructed to improve scientific ...

As we’re starting to get used to the idea of unmanned drones dropping deliveries on a regular basis, scientists are already working on changing them. How about watching a drone flap its wings on its ...

As scientists in the Netherlands tried to figure out how to build a super-agile flying robot, they took inspiration from one of nature’s most acrobatic flyers: The humble fruit fly. And by building ...

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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 ...

A micro-robot incorporating the beetle's wing-flapping mechanism hovers in the air. Provided by Hoang-Vu Phan Researchers have found a key to enhancing the flight capabilities of micro-robots in the ...