Uncrewed Aircraft Systems (UAS) | Autonomy | Experimental Aircraft | Flight Testing

In-Air Data Collection Completed with Centaur Optionally Piloted Aircraft

The Centaur optionally piloted aircraft (OPA) from Aurora Flight Sciences completed flight tests in the National Airspace System (NAS), equipped with an EO/IR camera, maritime surveillance radar, and Automatic Identification System payloads By William Mackenzie / 14 Jun 2024
In-Air Data Collection Completed with Centaur Aircraft
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Aurora Flight Sciences has carried out flight testing with its Centaur optionally piloted aircraft (OPA), based on a certified twin-engine general aviation aircraft.

Centaur is equipped with an EO/IR camera, maritime surveillance radar, and Automatic Identification System payloads. The aircraft boasts a high degree of safety and redundancy, along with a long range, efficiency, and low life-cycle costs. 

Centaur’s seamless integration of piloted, remotely piloted, and hybrid capabilities ensures a reliable and cost-effective solution for the rapid development and testing of payloads and autonomous behaviors. 

Advanced automation features provide a high level of versatility, enabling automatic takeoff and landing and remote operation from a ground control station, with or without an onboard safety pilot.

Centaur Flight Tests
The Aurora flight test team leveraged Centaur’s unique capability to operate as a surrogate uncrewed system, flown from a ground station with an on-board safety pilot, to conduct cost-effective flight testing in the National Airspace System (NAS).

In one recent example, Centaur embarked on a mission to evaluate data link quality and determine optimal operating parameters in degraded weather conditions. Centaur flew from Aurora’s Manassas, Virginia headquarters to the Potomac River, testing the data link at various altitudes ranging from 4,500 ft to 7,500 ft.

This flight evaluated the aircraft’s ability to transmit images back to the ground station, which is crucial in scenarios where inclement weather requires the aircraft to fly at lower altitudes. During the flight, two Aurora flight test engineers – an air vehicle operator and a mission payload operator – controlled Centaur from Aurora’s remote operating center. Meanwhile, an onboard safety pilot monitored the system, ensuring safety and efficiency throughout the flight. 

Centaur acts as a test bed for a wide variety of test cases. Centaur was recently used to introduce student test pilots to working with intelligence, surveillance, and reconnaissance (ISR) capabilities, and to test techniques on a surrogate unmanned aircraft. The platform is also involved in developing and testing sensor payloads for several of Aurora’s X-plane development programs.

Aurora state that the hybrid flight capability simplifies operations in the NAS and helps expedite the transition from development to flight test. Having an onboard safety pilot eliminates the need for remote test sites, allowing for operation from airports and focusing project time and budget on achieving mission objectives.

Aurora engineers work to create and improve upon innovative solutions for crewed and uncrewed flight. The company continually invests in Centaur, refining its capabilities and integrating the latest advancements in technology and engineering. With its versatility, reliability, and successful performance, Centaur continues to provide revolutionary flight testing capabilities.

To learn more, contact Aurora Flight Sciences: Visit Website Send Message View Supplier Profile
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