Drone Pilot JobsDrone Aircraft: How the Drones Got Their Stingers

July 30, 2021by helo-10
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COMPANY TO WATCH:
Prioria Robotics,
Gainesville, Fla.

Prioria Robotics is building small UAVs that autonomously use video to steer around objects. The ability of UAVs to sense and avoid other aircraft is a prerequisite for flying in civilian airspace, and small smart vehicles, like the ones Prioria is developing, may be the first to do so.
 

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On 2 August 2010, one of the U.S. Navy’s unmanned Fire Scout helicopters lost communication with operators and was fast approaching Washington, D.C., before it was brought under control.

When General Atomics Aeronautical Systems developed the Predator in the mid-1990s, it was intended solely for surveillance. Plans took a sharp turn, though, during one of its early military deployments, with NATO forces over Kosovo.

That’s when Gen. John P. Jumper, commander of U.S. Air Forces in Europe, noticed what he called “the dialogue of the deaf.” Predator operators would identify a target, say, an enemy tank lurking between buildings, and then try to guide the pilot of an attack aircraft to it by radioing verbal instructions. More often than not, this just caused a lot of confusion.

So Jumper had the Predators outfitted with laser designators, which could automatically guide missiles or artillery shells to their targets. He later pushed for the Predator to carry its own weapons, and the first instances of this UAV using air-to-surface missiles took place not long after, in the hunt for al-Qaeda members in Afghanistan in October 2001.

The following year saw the Predator’s role expand to ground support, when it destroyed a machine gun bunker that had pinned down U.S. Army rangers in Afghanistan. And for the first time, a Predator fired a Stinger air-to-air missile in action, at an Iraqi fighter.

That same year technical refinements allowed operation of a Predator to be shifted from one ground control station to another, so that UAV pilots located in combat areas could pass control to comrades stationed at U.S. bases. This is how the U.S. Air Force operates its UAVs, using pilots and crews deployed overseas to launch and recover the aircraft, while pilots at Creech Air Force Base in Nevada manage the intervening part of the missions.

This approach is decidedly different from the way the U.S. Army handles its fleet of more than 4000 UAVs, including the biggest one it flies, known as the Gray Eagle, which can carry four Hellfire missiles and looks something like a Predator on steroids.

For one, all Army UAS operators work alongside combat troops, even for vehicles that are capable of being flown over satellite links from anywhere on the globe. Also, unlike the Air Force, the Army hasn’t restricted itself to using officers with piloting experience to operate its UAVs.

The Air Force initially put just seasoned aviators in that role, although it has more recently started using men and women who have spent only a few tens of hours in the cockpit—about what it would take to get a private pilot’s license—to fly its UAVs. The Army, however, trains people who have never flown regular aircraft for that job.

“We recruit folks coming out of high school,” says Lt. Col. Patrick Sullivan, commander of the Army’s unmanned aircraft systems training battalion, located at Fort Huachuca in southeast Arizona. “We have soldiers that just came from basic training. They come to Fort Huachuca, and we train them to be UAS operators.”

Army Col. Robert Sova, training and doctrine command capability manager for UAS, confirms that this approach extends throughout the Army. “Everything from our smallest systems to our largest are flown by enlisted operators,” says Sova. “They don’t have a pilot’s license—they are not pilots. That’s why we’re adamant about calling them ‘operators.’ We have no intention of having pilots flying our unmanned aircraft.”

The Army’s stance on this point reflects that service’s particular history and culture. But it also reflects the evolution of UAS technology. During the 1980s and 1990s, operating such an aircraft indeed required someone with considerable training and good eye-muscle coordination. It might even require two of them. The “external pilot” would handle the takeoff and landing by looking directly at the plane, while the “internal pilot” would manage operations for the bulk of the flight.

Steve Reid is vice president of unmanned aircraft systems at AAI Corp., the Hunt Valley, Md., company that makes the Shadow, a 3.4-meter-long UAV that the U.S. Army adopted for tactical use in late 1999. He explains that in 2001 and 2002, AAI added special radio equipment to allow the Shadow to make automated landings. Although engineering such capability was a considerable challenge, it relieved the Army of having to train pilots in the tricky skills needed to land these planes by eye. What’s more, the automation works better. “I can tell you great stories of sandstorms rolling into Iraq—blinding sandstorms, where you can’t see any aircraft out there—and Shadows land right where they are supposed to,” says Reid.

Army Sgt. 1st Class Kelly Boehning, a Gray Eagle operator stationed at Fort Huachuca, has similar praise for his craft’s automated landing system. “It lands perfectly, every time, without exception,” says Boehning. “It takes some of the fun out, not having the stick and rudder, but it also takes the pilot error out: We don’t have any incidents landing—that’s where Predator’s downfall is.”

Automation is indeed a strong theme in the Army’s recently published Unmanned Aircraft Systems Roadmap for the next quarter century, a document that discusses such advanced possibilities as UAVs delivering cargo to soldiers on the battlefield or flying UAV missions in coordinated swarms.

Military UAVs still have a poor safety record compared with piloted aircraft, but as trust in them mounts, there’s little doubt that their use will expand and spill over into civilian applications. “There’s a hunger out there in the commercial sector for this type of technology—for use in everything from UPS and FedEx flights, pipeline surveys, forestry, logging, law enforcement—just about anything you can think of that uses aircraft today could benefit from a low-cost, reliable, and safe unmanned aircraft technology,” says retired Army Lt. Col. Glenn Rizzi, senior advisor to Col. Sova.

It will, of course, be a long while yet before the typical traveler will be comfortable taking an airliner with no pilot on board. But well before that, we’re likely to see UAVs of other varieties flying in civilian airspace.

Understandably, aviation authorities need to police developments here cautiously so that the safety of air travel isn’t compromised. But the steady advance of communication and automation technology—which is already quite sophisticated in today’s airliners—will surely open the skies to pilotless aircraft of many types. As Rizzi contends, “The future [of UAVs] is only up.”

This article originally appeared in print as “How the Drones Got Their Stingers”.

About the Authors

For more about the authors, see the Back Story, “Flybot for a Day.”

For all of IEEE Spectrum’s Top 11 Technologies of the Decade, visit the special report.



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