US Army Tests Drone Swarms

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In this season’s Network Integration Evaluation at White Sands Missile Range and Fort Bliss, coordinated units of remotely operated and automated aircraft will be used to represent a possible threat on tomorrow’s battlefields.

Members of the Army offices are using off-the-shelf quad and octocopters and flying them in groups, part of a program to study possible use, effectiveness and countermeasures for the deployment of large numbers of synchronized drone aircraft.

While different countries building, deploying, and selling large airplane-sized drones for military purposes, small-scale drones are still gaining a foothold. The small-scale drone is expected to become more viable as a possible weapon, and it is that preparation for the future that is driving the swarming project.

“Right now there’s hardly anyone doing swarms. Most people are flying one, maybe two, but any time you can get more than one or two in the air at the same time, and control them by waypoint with one laptop, that’s important,” said James Story, an engineer with the Targets Management Office PEO STRI, one of the groups involved in the project. “You’re controlling all five of them, and all five of them are a threat.”

Normally used by hobbyists and photographers, the quadcopter-style drones don’t represent a huge threat in their current state. The tiny aircraft have a flight time of only a few minutes, and have a limited payload capacity. This makes them ill suited for the surveillance missions drone aircraft are most commonly associated with, which require an aircraft that can stay aloft for long periods of time, and carry heavy zoom and thermal camera systems.

The concern comes from the affordability of the off-the-shelf systems. Small military drones, custom designed for the military mission, and outfitted with the latest hardware can be expensive. The Tarantula Hawk Micro Air Vehicle, a military drone about the size of a large bucket, comes with a price tag in the hundreds of thousands of dollars, with hundreds of thousands more needed to train an operator. An off-the-shelf quadcopter, like the 3D Robotics Iris series used in the test, can be bought for around $1,000, and requires almost no training to operate.

For NIE, the off-the-shelf drones will be configured to carry special payloads for specific missions. Cameras, bomb simulators, expanded battery packs and other systems will be tested. By conducting the flights at WSMR, the engineers can evaluate things such as actual flight time and performance, as well as payload capabilities. Using data collected from the WSMR flights, the engineers hope they can increase the flight time of the drones, and make other improvements.

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“The payloads make the difference. When you add video, the camera, the heavier battery… the smaller bird here the flight time goes from about 15 minutes, to about 7 minutes of flight time,” Story said. “That’s part of what we’re doing here. It’s seeing if we can increase the flight time.”

From a military perspective, this low price tag of the off-the-shelf drones can translate to a level of disposability. A militarized version of one of these aircraft could be equipped with light weapons like small bombs they can drop, or be flown into a target and exploded like a cruise missile.

Even still, the threat of a single drone of this type is small, as they lack hardened systems and armor, making them easy to shoot down using even a simple sportsman’s shotgun. By coordinating dozens of drones or more into a single swarm, it’s theorized the tiny aircraft could overwhelm a defender, presenting far more targets than can be easily destroyed, and allowing at least some weaponized drones to reach their target.

“Even if you defeat one or two, if one of them slips past the guard, that can pose a problem,” said Michael Francis, Integrated Product Team lead for the Multirotor Targets program.

In preparation for the NIE mission, PEO STRI came to WSMR in September to conduct initial flight tests at Condron Army Airfield. Using flight and navigation software also available off the shelf, the engineers and technicians were able to put up to 10 drones in the air at a time, conducting basic maneuvers and formations, and return to the launch point. While simple in appearance, the ability to put 10 drones in the air and execute a flight plan is a key step in the development and analysis of swarm tactics.

For the NIE, PEO STRI personnel will deploy the drones as a kind of fire support unit. Acting as a member of the opposing force, the drones will be used for short range missions, flooding the airspace with drones to generate disruptive radar signatures, as well as being used as a kind of spotter, using simple video cameras to try to locate soldiers and units.

“We’re going to be flying, providing the opposing force with swarm type assets, giving them radar saturation and getting eyes on using a video downlink,” Francis said.

There are also plans to fit the drones with the ability to drop packets of flour, simulating the ability for the swarm to drop small bombs, allowing the drones to perform short-range strike missions.

Drone-test missions can be a big challenge to plan and execute. Fortunately WSMR has unrestricted military airspace, allowing the testing of remotely operated or autonomous aircraft at any altitude within the range’s 3,200 square miles.

Certifying the systems through WSMR’s flight safety office, establishing safe operations procedures was challenging, but the result is the ability to evaluate a new threat to the soldier.

“There’s a lot of paperwork, for frequency and safety issues, but it’s definitely worth it. This is the first time integrating into the NIE and it’s a great group of guys working at Fort Bliss and White Sands that helped us along the way,” Francis said.

 

Source: Las Cruces Sun News

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