Airbus just acquired a prop plane to act as a research lab in the sky, collecting data to develop self-flying aircraft – here's how it works

Airbus' self-flying A350-1000 XWB powered by data from Project Wayfinder.

Airbus

• Airbus' Silicon Valley incubator Acubed is pressing forward with a data collection program that will support future autonomous flight operations.
• Acubed's Project Wayfinder just acquired a Beechcraft Baron 58 and equipped it with onboard cameras and instrumentation to be used as a flying lab for researchers.
• Successful test flights of a self-flying Airbus A350-1000 XWB proved the concept of self-flying planes viable with Project Wayfinder aiming to make it a reality. 
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Airbus proved that autonomous flight for passenger airliners is possible earlier this year with its self-flying A350-1000 XWB that performed successful taxi, take-off, and landing tests entirely on its own without pilot input.

Performing over 500 flights as part of the Autonomous Taxi, Take-off, and Landing project, the aircraft was successfully able to distinguish airport runways and taxiways, skillfully piloting itself through each phase of flight and taking the idea of autopilot to the next level. 

Each flight was performed at Airbus' headquarters and main production facility in Toulouse, France, where the aircraft performing the tests was also assembled. But the software powering the flights had been driven by data from researchers and engineers 5,000 miles away in the San Francisco Bay Area.

Airbus' Silicon Valley incubator, Acubed, is home to Project Wayfinder, which aims to create autonomous solutions for the future of flight, whether it be manned and unmanned. Its findings may have implications in the development of new commercial aircraft but could also shape the creation of autonomous air taxi and eVTOL flights.

Following the success of the autonomous A350 trials, Project Wayfinder just acquired its own flying testbed as part of Airbus' quest to build a robust dataset that will enable autonomous with uses in urban air taxis and commercial aircraft.

Here's a look inside Project Wayfinder and its newest flying research aircraft. 

Self-flying planes were once believed to be the hallmark of a truly futuristic world, a technologically superior era where planes roamed the skies powered by artificial intelligence.

An Airbus A350-1000 XWB aircraft.

Tom Buysse/Shutterstock.com

But Airbus has been proving the concept viable using passenger aircraft that are already flying today – such as the A350 – and crafting technology that use machine-learning backed by countless hours of test flight data.

An Airbus A350-1000 XWB aircraft.

Airbus

With new technology – which integrates with onboard cameras – an Airbus A350-1000 XWB passenger jet was able to recognize taxiways and runways to perform successful take-off, landing, and taxi maneuvers without the pilot touching the controls.

An Airbus A350-1000 XWB test aircraft takes off from Toulouse-Blagnac Airport on its own.

Airbus

Read More: Airbus' self-flying plane just completed successful taxi, take-off, and landing tests, opening the door for fully autonomous flight

Pilots barely had to do anything besides ensure the plane was making the right calculations and adjustments in each phase of flight.

An Airbus A350-1000 XWB aircraft.

Skycolors/Shutterstock.com

Even Airbus' military division is benefiting from autonomous systems, with some being tested on air-to-air refueling planes.

An Airbus A310 MRTT performing an air-to-air refueling.

VanderWolf Images / Shutterstock.com

The tech would recognize fighter jets and other military planes as they approached and conduct an automated refueling process.

An Airbus A310 MRTT performing an automated air-to-air refueling.

Airbus

Read More Airbus just beat Boeing to be the first to complete a wholly automated air-to-air refueling operation

Though, before the tech can be used widespread on planes like the Airbus A350 XWB...

An Airbus A350-1000 XWB aircraft.

Andreas Zeitler/Shutterstock.com

More data needs to be collected on planes like this one.

A Beechcraft Baron 58 similar to the one used by Airbus Acubed's Project Wayfinder.

Shutterstock.com

Project Wayfinder just acquired this Beechcraft Baron 58 and outfitted it with cameras, sensors, and computers to capture valuable flight data as it flies around the Bay Area.

A Beechcraft Baron 58 used by Airbus Acubed's Project Wayfinder.

Airbus Acubed/Project Wayfinder

The flying lab collects imagery from each flight which is then auto-labeled and given to machine learning algorithms. That data, in turn, helps the system "see," according to Airbus.

Test flight data collected by Project Wayfinder's Beechcraft Baron 58.

Airbus Acubed/Project Wayfinder

The onboard cameras work in tandem with navigational charts to collect position data.

Test flight data collected by Project Wayfinder's Beechcraft Baron 58.

Airbus Acubed/Project Wayfinder

Here's what the machine sees when the aircraft approaches a runway.

Test flight data collected by Project Wayfinder's Beechcraft Baron 58.

Airbus Acubed/Project Wayfinder

The green outline indicates that the software recognizes it as a runway and data will be collected to analyze how the plane behaves as it approaches land.

Test flight data collected by Project Wayfinder's Beechcraft Baron 58.

Airbus Acubed/Project Wayfinder

The software needs to be able to detect runways from miles away, which isn't always an easy task.

Test flight data collected by Project Wayfinder's Beechcraft Baron 58.

Airbus Acubed/Project Wayfinder

The Baron 58 was chosen, in part, because it's a twin-engine aircraft – like most passenger jets – which leaves the nose area free of obstructions to increase the visibility and field of view for the onboard cameras.

A Beechcraft Baron 58 used by Airbus Acubed's Project Wayfinder.

Airbus Acubed/Project Wayfinder

Single-engine planes typically have a propeller affixed to the nose, which would obstruct the front view of the aircraft.

Test flight data collected by Project Wayfinder's Beechcraft Baron 58.

Airbus Acubed/Project Wayfinder

It's a far cry from an Airbus A350-1000 XWB but the principles of flight remain the same.

An Airbus A350-1000 XWB aircraft.

Andreas Zeitler/Shutterstock.com

Onboard cameras are configured using a black and white checkerboard, called a calibration board.

A Beechcraft Baron 58 used by Airbus Acubed's Project Wayfinder.

Airbus Accubed/Project Wayfinder

The successful autonomous flights of the Airbus A350 spurred the ramp-up of data collection at Project Wayfinder.

A Beechcraft Baron 58 used by Airbus Acubed's Project Wayfinder.

Airbus Accubed/Project Wayfinder

The new flying lab took flight on July 28 and is already providing data to Project Wayfinder's machine learning team to process.

A Beechcraft Baron 58 used by Airbus Acubed's Project Wayfinder.

Airbus Accubed/Project Wayfinder

Test pilots will continue flying around the Bay Area collecting data while researchers and engineers process the data and fine-tune the hardware and software used for further data collection.

A Beechcraft Baron 58 used by Airbus Acubed's Project Wayfinder.

Airbus Accubed/Project Wayfinder

Once all the data is collected, Project Wayfinder researchers will have a better understanding of just how viable autonomous flight can be on a large scale.

A Beechcraft Baron 58 used by Airbus Acubed's Project Wayfinder.

Airbus Acubed/Project Wayfinder

Beyond commercial aircraft, the data provided by the flying lab could also power other autonomous projects like Airbus' eVTOLs program.

Airbus' CityAirbus eVTOL.

Karl-Josef Hildenbrand/picture alliance/Getty

Airline pilots can also rest easy knowing Project Wayfinder's stated purpose is to increase safety in the cockpit by having autonomous systems reduce pilot workload and not completely replace pilots.

An Airbus A350 XWB cockpit.

Dmitry Birin/Shutterstock.com

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