Students build new hybrid drone that can both fly through the air and dive underwater, marking a significant breakthrough in next-generation drone technology. This innovative flying submarine was developed by a university student team and is capable of seamlessly transitioning between aerial and aquatic environments.
Students build new hybrid drone that can both fly through the air and dive underwater, marking a significant breakthrough in next-generation drone technology. This innovative “flying submarine” was developed by a university student team and is capable of seamlessly transitioning between aerial and aquatic environments. The drone takes off like a standard quadcopter using lightweight, waterproof materials, then switches to underwater mode using dual-mode propellers and smart sensors. Its ability to perform in both domains makes it ideal for search and rescue, marine research, and environmental monitoring applications.
This cutting-edge project demonstrates how students build new hybrid drones that redefine what’s possible in robotics and automation. The drone’s unique dual-environment capability places it at the forefront of multi-environment drone technology. Beyond showcasing engineering excellence, it highlights how student-led innovation is playing a key role in solving real-world problems through interdisciplinary collaboration. As hybrid drones gain popularity, this project serves as a prime example of how emerging talent is shaping the future of aerial and underwater drones for commercial, scientific, and defense purposes.
About The Author
