A new drone technology is in the works. It goes so far beyond the status quo that it creates a new paradigm. The innovation happening in China with ornithopter drones exemplifies this shift. This phenomenon is worth noting.
I have been fascinated by drones since 2013, when a Chinese technology company, DJI, first showed me its original models.
For years, commercial drones have primarily focused on photography and video. However, their capabilities extend far beyond these applications.
But many don’t know that the concept of drones for military use goes back decades. In the 1973 Yom Kippur War, Israel used unarmed U.S. Ryan Firebee target drones. The aim was to spur Egypt into firing its entire arsenal of anti-aircraft missiles. This mission was accomplished with no injuries to Israeli pilots. They soon exploited the depleted Egyptian defenses.
Example of bird-like drone, developed by China’s Northwestern Polytechnical University.
Eurasian Times
What began as a wartime decoy has now taken flight in an entirely new direction, taking on new forms and functions that blur the line between machine and nature.
These bird-like drones with advances in materials, sensors, and AI have transformed the clunky machines of the past into remarkably lifelike flyers. Nothing about these drones buzzes, whirs, or tilts like a robotic lawnmower. These devices flap and glide. They tilt and bank like a bird would in flight. The movements are so natural that, even when you watch footage from a distance, you wonder if you’re seeing a hawk. But it’s not a hawk; it’s just convincing technology.
China’s engineers have achieved a milestone in biomimicry. Nature has spent billions of years developing impressive design tricks. These drones mimic the aerodynamic strategy birds have used for millions of years. This creates a very efficient mode of travel. It saves power, maximizes maneuverability, and operates almost silently. Every feather, each hollow bone, and the tiny adjustments in a wing’s angle come from evolution’s optimization. Humans couldn’t have designed a bird from scratch in the lab. But we are getting very close.
The fact that we can do that much is impressive, but we should also consider the broader implications of these technological advances.
Multi-rotor drones come with certain weaknesses. They are notoriously loud and can startle animals, often disturbing sensitive environments. Additionally, they consume a lot of power, limiting their range and endurance. While their flight controls may be precise, they lack the adaptability of biological flight. In contrast, ornithopter drones take a hint from birds. Even early models show improvements over multi-rotor drones with similar payloads, demonstrating better battery efficiency, quieter operation, and the ability to maintain low-speed, low-altitude flight.
There are multiple paths for applying these drones, but a few clear examples are worth noting. For instance, biologists have long been hampered by the observer effect—essentially, the way that simply having drones in an area changes the very behaviors of animals or people, being studied. Having a drone that flies and behaves as a bird is an immensely powerful tool. Environmental monitoring programs would benefit from deploying such drones into wetlands, forests, or coastal regions with little impact.
In addition to scientific uses, there are military and security concerns, which cannot be overlooked. A drone that mimics avian behavior is an intelligence tool in an entirely new class. Its geopolitical implications warrant serious consideration by Western defense institutions.
Ultimately, ornithopters represent a significant achievement in drone design. They are machines constructed by talented engineers, fueled by batteries and actuation technology developed in the 21st century and navigated by advanced computing systems. The fact that they pass muster as imitations of something nature figured out hundreds of thousands of years ago is humbling in a profound way.
We are getting dangerously close to the point where mechanical and biological systems begin to blur together. This is no mere metaphor. The technology we create is literally merging with nature. As we move forward, understanding this merger will help us adapt, innovate, and navigate the changes ahead.
This article was originally published on Forbes.com
