MIT researchers have developed more advanced bug-like robots that could one day pollinate indoor plants. The weight of a paperclip, these robotic bees can remain airborne for nearly 17 minutes, ...

While much insight has been gleaned from how grasshoppers hop, their gliding prowess has mostly been overlooked. Now ...

Princeton engineers investigated the secret to grasshoppers' efficient gliding, inspiring a new approach for robotic flight.

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

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 ...

Grasshopper’s gangly, awkward flight could solve the biggest power problems in robotics. Standard micro-bots are modeled ...

Rapid declines in insect populations are leading to concerns that the pollination of important crops could soon come under threat. Tiny flying robots designed by MIT researchers could one day provide ...

Why do researchers think big-eared bats can find hidden insects without having to scrutinize every leaf in a forest?Their ...

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 ...

A teeny robot designed to replicate the wing dynamics of rhinoceros beetles could be well-suited for search-and-rescue missions, as well as spying on real insects, according to researchers at ...

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 ...