Styrofoam Drone
Kelsey D. Atherton
The Skate, created by Aurora Flight Sciences, is a $38,000 drone made mostly of Styrofoam. The 2-pound drone is launched by hand and can fly for 60 minutes.
Piloted by a simple control system that vaguely resembles a Gameboy Advance, it can fly for more than two miles while transmitting video back to the pilot, either in the regular visual spectrum or in infrared. Because Skate is light and can be put into the air quickly, soldiers under fire could use its streaming video to scope out the battlefield from above.
Pop-Up Drone
Kelsey D. Atherton
Created by Bird Aerospace, the Bird's Eye drone comes in a launch cylinder that fires it 300 feet into the air, where it self-assembles and then flies for up to three hours. Whoa.
Its full range is over 40 miles, though it can only stream high-definition video back to a pilot from 20 or fewer miles away. Images from the flight can also be stored on board, and collected from an SD card in the drone is retrieved. It also has a Styrofoam body like the Skate, and it too launches quickly enough to be useful to soldiers on the battlefield.
Hybrid Drone
Kelsey D. Atherton
This drone combines two common drone body types: quadrotors, which are great at taking off and landing vertically, but suck at flying forward quickly, and Predator-style push propellers, which are great at forward momentum but require a runway for takeoff and landing.
This vehicle, from Latitude Engineering Group, is the best of both worlds. Four rotors, powered by electrical motors, let the drone take off and land vertically, which means it requires only a very small launch site. A propeller for thrust, powered by a gas engine, sends the drone zooming forward.
This one has up to 15 hours of endurance and can carry a small camera or sensor system. There's a larger version in the works, and I'm excited about the potential. Anywhere than can launch a helicopter could launch drones like this, meaning even modest helicopter carriers could suddenly sport large drone fleets to scout the ocean. This drone took two stale designs and combined them into something with a lot more flexibility, and it feels genuinely new.
Sonar Drone
Kelsey D. Atherton
Created by Toyon, the PescadAero is a flying sonar buoy. The drone flies to a river or coastal area, and then lands in the water. The head of the drone houses two systems—a camera for navigating and a sonar for underwater sensing.
When the drone lands on the water, the head rotates 90 degrees, so the camera stays above the water and the sonar drops below the surface. Once there, the the sonar sweeps the ocean (or river) floor in wide swaths. It can map out the floor of a river as it drifts downstream, or might ride the tide and plot out underwater mines for a navy. When its task is complete, PescadAero can take off vertically from the water and fly home.
Matrix Software
Kelsey D. Atherton
The Sikorsky Matrix software is designed to give unmanned helicopters some autonomy; not to replace pilots, but to make flying easier for them. Sikorsky outfitted a commercial helicopter with the software and started test flights in July. The goal is to reduce helicopter crashes, while at the same time freeing the pilot for other tasks while in flight. To do that, the aircraft needs a degree of autonomy, and needs to fly more safely than drones usually do.
Unmanned aircraft themselves don't have a great crash record—they crash at a rate of about one per 1,000 flight hours. The aim of Matrix is to reduce that to one per 100,000 flight hours, and thus create a robot helicopter that people are comfortable riding in. Ultimately this could enable a remotely piloted medical evacuation helicopter, where the humans on board tend to injuries while the machine flies itself to a hospital.
rest of the article and credits:
http://www.popsci.com/technology/article/2013-08/ten-strange-drones-ausvi
Comments
Anyone get some video of the 4k IR sensor?
I was there too. Absolutely awesome stuff there.
I had a great time at this show. So many high-dollar technologies to bring to the masses! ;)
The bird UAS thing blew me away. A self-assembling aircraft that shoots into the air with fire! Awesome.
http://www.birduas.com/deployment.html
Part of the marketing is the guys who designed it all have formal MSEE degrees from MIT & their customers won't buy it otherwise. It costs $250,000 for that degree.
I saw these guys at AUVSI, very cool! I took a picture standing next to the the biggest hexa there.