Nature has perfected the art of landing. From delicate flies to buzzing bees, insects navigate complex aerial maneuvers and touchdown with high precision. But for human-made flying robots, especially ...

Even if you've built one of the world's most advanced insect-inspired micro air vehicles (MAVs), it ultimately won't be that useful if it can't stick a good landing. That's why scientists at Harvard ...

Harvard researchers have developed a resilient RoboBee powered by soft artificial muscles that can crash into walls, fall onto the floor, and collide with other RoboBees without being damaged. It is ...

When a tiny mechanical insect achieved flight in the summer of 2012, its wafer-thin wings flapping almost invisibly at a rate of 120 times per second, it was the culmination of an ambitious ...

When Robert Wood came to Harvard University 17 years ago, he wanted to design an insect-sized robot that could fly. You might wonder why anyone would ever need such a thing, but the engineering ...

A deeper view that unites instead of divides, connecting why the story matters to you. Behind the news are values that drive people and nations. Explore them here. Today’s articles touch on pressing ...

MIT researchers have developed a tiny drone with soft actuators that can flap nearly 500 times per second, allowing it to be more resilient to mid-flight bumps and nimble enough to fly like a bee. MIT ...

Though it weighs in at just 80 milligrams, you’ll definitely want this little RoboBee in your corner. Designers Kevin Y. Ma, Robert J. Wood, Pakpong Chirarattananon, and Sawyer B. Fuller at Harvard ...

IIIF provides researchers rich metadata and media viewing options for comparison of works across cultural heritage collections. Visit the IIIF page to learn more. Flight muscles: piezoelectric ceramic ...