Researchers at the Massachusetts Institute of Technology (MIT) have developed a micro-flapping-wing robot that exhibits ...

Tiny drones could one day crawl through collapsed buildings to help find survivors after earthquakes. These micro-robots, ...

According to its developers, the new robot features flapping wings that are powered by a set of artificial muscles that ...

Earlier versions of insect-scale robots could only fly slowly and along predictable paths. The new robot changes that dynamic ...

If you’ve ever watched a flapping insect or hummingbird hover in place – often while engaged in other activities such as ...

Biologically inspired soft robots make a lot of sense in a lot of different scenarios, but as with any class of technology, they have their limitations. Among other things, these compliant structures ...

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 ...

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 ...

Inspired by the remarkable flight capabilities of birds, bats, and insects, flapping-wing robotics represents one of the most promising frontiers in bio-inspired aerial systems, demonstrating enhanced ...

Scientists regularly draw ideas from the natural world in a bid to improve robotic performance, and when it comes to soft robots that swim, motion in the ocean is a rich source of inspiration. The ...

Birds fly more efficiently by folding their wings during the upstroke, according to a recent study. The results could mean that wing-folding is the next step in increasing the propulsive and ...