MQ-9A Reaper demonstrates new automatic takeoff and landing abilities

General Atomics Aeronautical Systems has demonstrated three new automatic takeoff and landing capabilities for its MQ-9A Reaper unmanned air vehicle.

General Atomics Aeronautical Systems has demonstrated three new automatic take-off and landing capabilities for its MQ9A Reaper unmanned air vehicle (UAV).

As part of a modernisation contract with the US Air Force, enhancements to the UAV include the ability to divert to another airfield, fly in stronger crosswinds and land with greater maximum weight, the company says on 25 June.

General Atomics did not disclose when or where the demonstrations happened. It did not immedately respond to a request for additional comment.

MQ-9 Reaper of the Arizona Air National Guard lands at the Alpena Combat Readiness Training Center in Alpena Mich c USAF

Source: US Air Force

MQ-9 Reaper of the Arizona Air National Guard lands at the Alpena Combat Readiness Training Center in Alpena, Michigan

“This achievement will enable operational MQ-9A’s to land at alternate airfields, on their own, in case of inclement weather, changing mission requirements or damaged runways,” says General Atomics president David Alexander. “These upgrades will improve mission-effectiveness tremendously.”

The ability of MQ9As to land at alternate airfields would not require a ground control station to be present locally, but would instead use satellite communication controls.

“With the divert landing enhancement, the remote pilot can enter the new landing area coordinates to automatically land at the selected location, or the pilot can overfly and self-survey the divert airfield’s runway using the MQ-9A’s multi-spectral electro-optical/infrared sensor to obtain coordinates for automatic landing,” says General Atomics. “Once uploaded to the MQ-9A’s mission profile, the MQ9A aircrew enables the [automatic take-off and landing] system, which allows the aircraft to automatically manoeuvre itself into a landing pattern and make the automatic landing.

General Atomics notes the enhancements could reduce the number of crew required to operate MQ9As. Without needing a ground control station at a landing strip, the UAV could be flown long distances to its area of operations, where it could be armed and fuelled by local non-specialized personnel.

The company declines to disclose the UAV’s increased maximum crosswind limits or the increased maximum landing weight.