Army’s “Robo-Raven” UAV Flies with Flapping Wings
In the future, it's possible that some unmanned aerial vehicles (UAVs) might sport wings that flap like a bird or a butterfly. The Army Research Lab has been testing such a UAV, known as Robo-Raven.
Robo-Raven has two motors that independently control each wing. There are commercial flappy-bird designs that work more efficiently using just one motor to control both wings. But from a scientific standpoint, this approach lets one learn more about the platform and explore interesting spaces of the design, which wouldn't be possible with a traditional flapping wing single-motor design. With a single motor, one can only speed the wings up and slow them down, which doesn't do much to inform learning of the system.
A more robust Robo-Raven will carry a full suite of sensors that will measure altitude, air speed, wing position, flapping speed, power draw, battery charge, acceleration, and roll. The Army might come up with an innovative flexible material that would boost the chance of bird-like flight.
Top Stories
INSIDERDefense
Army Launches CMOSS Prototyping Competition for Computer Chassis and Cards
ArticlesElectronics & Computers
Microchip’s New Microprocessor to Enable Generational Leap in Spaceflight...
INSIDERSoftware
The Future of Aerospace: Embracing Digital Transformation and Emerging...
ArticlesMaterials
Making a Material Difference in Aerospace & Defense Electronics
EditorialSoftware
Making Machines Software-Defined No Simple Task
INSIDERRF & Microwave Electronics
Germany's New Military Surveillance Jet Completes First Flight
Webcasts
Power
Phase Change Materials in Electric Vehicles: Trends and a Roadmap...
Automotive
Navigating Security in Automotive SoCs: How to Build Resilient...
Automotive
Is Hydrogen Propulsion Production-Ready?
Unmanned Systems
Countering the Evolving Challenge of Integrating UAS Into Civilian Airspace
Power
Designing an HVAC Modeling Workflow for Cabin Energy Management and XiL Testing
Defense
Best Practices for Developing Safe and Secure Modular Software