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By comparing how well each approach worked in the air, they could refine strategies and tactics.While the drones were not able to actually shoot at each other, a ground computer determined when they were in a position where they could attack another aircraft. "There’s a trade-off between how quickly you get aloft and how many launch platforms you have on the ground in order to be able to launch them simultaneously," says Chung. Sky Power GmbH manufactures next-generation heavy-fuel (HF) and gas engines...

"The vision is to have on-board autonomy for all of our assets," says Chung. Engineers and researchers from the Georgia Tech Research Institute and Naval Postgraduate School in the United States of America have pitted two swarms of autonomous aircraft against one another in a test of dogfighting for drones.. First, it’s the solemn anniversary of the 1980 Iraqi invasion and the bloody, savage eight-year war that followed.Second, it’s that special time of year when Iran’s Revolutionary Guards Corps rolls out its latest and purportedly greatest weapons—like a cross between Fashion Week and an old-school Soviet Victory Day parade.According to Iranian media, the aircraft is a variant of the Mohajer series of drones from the Iran Aviation Industries Organization. They have also started work on developing a virtual battle arena where they can model the UAVs operating in a virtual air space to accelerate their development. Surrounded by dozens of brightly-coloured kite-like remote-control aircraft mounted on launchers made from plastic pipes, a multidisciplinary team of students at the US Naval Postgraduate School in Southern California seem unlikely candidates to be planning an epic battle.However, in 2015, a swarm of 50 of their drones will take on 50 from a rival team to prove advanced swarming and friend-or-foe identification algorithms in a high-speed aerial clash. August 3 at 4:12 PM. Although the UAVs were physically identical, their computers used different autonomy logic, collaboration approaches, and communications software developed by the two institutions.The aircraft were privy to the location of the others thanks to GPS tracking, but in the future, this information will be provided by on-board cameras, radars and other sensors and payloads.On each aircraft was a single-board mission computer, with flight controlled provided by an open-source autopilot. Follow the company to be always up to date with this companySky Power GmbH manufactures next-generation heavy-fuel (HF) and gas engines for the unmanned aerial vehicle (UAV) industry. Though the term aerial battle-bots has fired up interest, the participating UAVs will not be weaponised. youtu.be/rV9nej... MEDIA. We’re passing control from the human on the ground to computers on-board." This summer, Chung’s students have been focusing on building the fleet of UAVs and developing some of their payloads, including autopilots. save hide report. Indeed, Tehran boasts a strong tradition of drone experimentation—not to mention drone The combination was not a successful one. Hover over the logos to learn more about the companies who made this project possible. You can expect to hear from us periodically about:

The key stages between now and the final battle will see the team gradually grow the numbers of UAVs swarming in a live-fly environment from five versus five all the way up to the goal of 50 versus 50. "While aerial dogfighting tactics have advanced dramatically since World War I, its application to The researchers are leveraging machine learning to optimise performance and help the unmanned aircraft recognise under which circumstances a particular tactic may be advantageous. Cart

To help achieve the project’s goals, Chung has brought together a multidisciplinary team of post-graduate students and interns, many of whom have military backgrounds themselves. With this potential, drones could one day fill the skies, taking down manned aircraft and fighting against each other. The idea is to focus not on the specific military elements of this, but rather to highlight autonomy research that doesn’t rely on things getting shot." Potential solutions include on-board cameras that could identify the shape of the rival UAVs or markers on them, or technologies currently used on manned aircraft, such as beacons or transponders. "This experiment demonstrated the advances made in collaborative autonomy and the ability of a team of unmanned vehicles to execute complex missions," he said.