Skip to main content

Purdue’s robotic hummingbird is nearly as nimble as the real thing

Purdue Hummingbird Overview

In West Lafayette, Indiana, the renowned ornithologist Xinyan Deng stretches out her hand to serve as a platform for a magnificent turquoise and dark green hummingbird. It hovers just above her palm, wings beating rapidly to keep it airborne, but otherwise remaining perfectly stationary. Although several types of bird can hover in this way, it’s something hummingbirds are extraordinarily talented at. They are even capable of hovering at a flower in a gusty wind, continually adjusting their position so as to remain next to their target. Which is one of the reasons Deng is so interested in them.

Except that we’re lying. Well, kind of. Professor Xinyan Deng is not a renowned ornithologist. She’s an Associate Professor of Mechanical Engineering in Purdue University’s Bio-Robotics Lab, a laboratory that’s dedicated to building the next generation of robots inspired by nature. And Deng’s hummingbird is not a real flesh-and-blood hummingbird. It’s an impressive robotic reproduction of the real thing: not only the same size, shape, and (thanks to a specially designed body cover) appearance as its inspiration, but also capable of many of the same feats — hovering very much included. While it currently has to be tethered to the ground to provide power and stability, the team responsible for creating it is excited that they may have finally cracked one of the natural world’s most unusual modes of flying.

Purdue University

“[The] hummingbird is a unique species whose size is in between insects and other birds,” Deng told Digital Trends. “Summer is coming and you can see them in your backyard hovering, dashing, and chasing one another. They can hover like insects [using] high-frequency beating wings, and they can also fly acrobatically like birds by actively morphing their wings. Most birds cannot hover, while most insects cannot deform their wings actively. Hummingbirds can do both, and their stable and agile flight makes them nature’s little flying wonders. If you want to build a small [micro air vehicle] (MAV) which can achieve both hover and highly maneuverable flight, [the] hummingbird is the ideal animal to study.”

This, in a nutshell, is what makes Purdue’s Bio-Robotics Lab so interesting. It’s midway between a biology lab and a cutting edge robotics house. It does what engineers often refer to as “reverse-engineering,” meaning to take an existing product apart to see how it works and how it can be recreated. Only in this case it’s not about disassembling a smartphone or other gadget developed by a rival manufacturer and figuring out how to replicate its functionality. It’s mining the natural world for problem-solving solutions that evolution has long since answered, but scientists and engineers are still struggling with.

By modeling the locomotion principles of everything from flying insects to fish, Purdue’s Bio-Robotics Lab wants to work out the secrets behind the world’s most impressive, efficient animals — and then turn these insights into new, bio-inspired robots able to navigate in the air, on land, or in the sea in a way previous roboticists have never dreamed of.

An aerial marvel

The team’s hummingbird robot is the latest impressive example of this. Equipped with just two actuators, it can achieve hovering, trajectory tracking, and an assortment of impressively acrobatic maneuvers in the air. All of this is carried out in a diminutive body with the same size, weight, and wingbeat frequency as a typical magnificent hummingbird (Eugenes fulgens).

“It has independently controlled wings like [the real animals] do, which makes it highly agile.”

“It has independently controlled wings like [the real animals] do, which makes it highly agile,” Deng continued. Each of these wings can move individually, changing their direction upward of 30 times each second. By varying the movements of each wing, even by a minute amount, the hummingbird robot (hummingbot?) is able to display impressive flying dynamics far beyond all but the most agile of drones.

In addition, the robot’s wing motors can sense changes in wing kinematics, such as when they meet resistance. This allows them to make dynamic adjustments on the fly to avoid possible wing damage. And that’s not the end of its winning credentials, either.

“It is safe to the touch, resilient to gusts and impacts, and can cope with considerable wing area loss and vehicle wear-and-tear,” said Deng. “It generates lift more than twice the amount of its weight, and can be made autonomous once we add the battery onboard. It is also natural-looking and could fly quietly, making it a nice alternative or complementary to conventional drones.”

purdue bio-robitics hummingbird
Purdue University

Real hummingbirds spend most of their time eating. They use up an astonishing amount of energy, which must be constantly replenished by feeding on flower nectar, tree sap, insects, and pollen. Provided that Purdue can crack the battery problem, its robot hummingbird will utilize its time for far more practical applications.

Machines such as this, “can coexist with humans in future smart cities.”

“This type of robot can be used in confined or cluttered spaces — for example, indoor navigation or search and rescue [missions] in collapsed buildings,” she said. Due to its lack of spinning quadcopter blades, the robot is also capable of interacting with people without risk of hurting them. As a result, Deng said that machines such as this, “can coexist with humans in future smart cities, and be used in a variety of commercial, industrial, defense applications.”

To robotics fans, it’s yet another example of just how fast robots are developing here in 2019. And, hey, even the most ardent of technophobes must feel somewhat reassured at the prospect of a future in which the sky is filled with hundreds of robot hummingbirds. As sci-fi dystopias go, that one’s not too bad!

Three separate papers describing the robot hummingbird project are due to be presented at the 2019 International Conference on Robotics and Automation in Montreal, Canada, later this month.

Luke Dormehl
I'm a UK-based tech writer covering Cool Tech at Digital Trends. I've also written for Fast Company, Wired, the Guardian…
Digital Trends’ Top Tech of CES 2023 Awards
Best of CES 2023 Awards Our Top Tech from the Show Feature

Let there be no doubt: CES isn’t just alive in 2023; it’s thriving. Take one glance at the taxi gridlock outside the Las Vegas Convention Center and it’s evident that two quiet COVID years didn’t kill the world’s desire for an overcrowded in-person tech extravaganza -- they just built up a ravenous demand.

From VR to AI, eVTOLs and QD-OLED, the acronyms were flying and fresh technologies populated every corner of the show floor, and even the parking lot. So naturally, we poked, prodded, and tried on everything we could. They weren’t all revolutionary. But they didn’t have to be. We’ve watched enough waves of “game-changing” technologies that never quite arrive to know that sometimes it’s the little tweaks that really count.

Read more
Digital Trends’ Tech For Change CES 2023 Awards
Digital Trends CES 2023 Tech For Change Award Winners Feature

CES is more than just a neon-drenched show-and-tell session for the world’s biggest tech manufacturers. More and more, it’s also a place where companies showcase innovations that could truly make the world a better place — and at CES 2023, this type of tech was on full display. We saw everything from accessibility-minded PS5 controllers to pedal-powered smart desks. But of all the amazing innovations on display this year, these three impressed us the most:

Samsung's Relumino Mode
Across the globe, roughly 300 million people suffer from moderate to severe vision loss, and generally speaking, most TVs don’t take that into account. So in an effort to make television more accessible and enjoyable for those millions of people suffering from impaired vision, Samsung is adding a new picture mode to many of its new TVs.
[CES 2023] Relumino Mode: Innovation for every need | Samsung
Relumino Mode, as it’s called, works by adding a bunch of different visual filters to the picture simultaneously. Outlines of people and objects on screen are highlighted, the contrast and brightness of the overall picture are cranked up, and extra sharpness is applied to everything. The resulting video would likely look strange to people with normal vision, but for folks with low vision, it should look clearer and closer to "normal" than it otherwise would.
Excitingly, since Relumino Mode is ultimately just a clever software trick, this technology could theoretically be pushed out via a software update and installed on millions of existing Samsung TVs -- not just new and recently purchased ones.

Read more
AI turned Breaking Bad into an anime — and it’s terrifying
Split image of Breaking Bad anime characters.

These days, it seems like there's nothing AI programs can't do. Thanks to advancements in artificial intelligence, deepfakes have done digital "face-offs" with Hollywood celebrities in films and TV shows, VFX artists can de-age actors almost instantly, and ChatGPT has learned how to write big-budget screenplays in the blink of an eye. Pretty soon, AI will probably decide who wins at the Oscars.

Within the past year, AI has also been used to generate beautiful works of art in seconds, creating a viral new trend and causing a boon for fan artists everywhere. TikTok user @cyborgism recently broke the internet by posting a clip featuring many AI-generated pictures of Breaking Bad. The theme here is that the characters are depicted as anime characters straight out of the 1980s, and the result is concerning to say the least. Depending on your viewpoint, Breaking Bad AI (my unofficial name for it) shows how technology can either threaten the integrity of original works of art or nurture artistic expression.
What if AI created Breaking Bad as a 1980s anime?
Playing over Metro Boomin's rap remix of the famous "I am the one who knocks" monologue, the video features images of the cast that range from shockingly realistic to full-on exaggerated. The clip currently has over 65,000 likes on TikTok alone, and many other users have shared their thoughts on the art. One user wrote, "Regardless of the repercussions on the entertainment industry, I can't wait for AI to be advanced enough to animate the whole show like this."

Read more