August 20, 2019 | International, Aerospace
By David Szondy
A new US Air Force kit that can turn a conventional aircraft into a robotic one has completed its maiden flight. Developed by the Air Force Research Laboratory (AFRL) and DZYNE Technologies Incorporated as part of the Robotic Pilot Unmanned Conversion Program, the ROBOpilot made its first two-hour flight on August 9 at the Dugway Proving Ground in Utah after being installed in a 1968 Cessna 206 small aircraft.
With modern autopilots, even small modern aircraft already have surprising ability to fly themselves, but there's a big difference between maintaining a course and actually flying an aircraft the way a human pilot does. From the opposite direction, autonomous drones are becoming increasingly sophisticated, but these tend to be highly specialized and expensive.
Funded by AFRL's CRI Small Business Innovative Research project, ROBOpilot is designed to make these two paths meet in the middle by replacing the pilot seat (and pilot) with a kit consisting of all the actuators, electronics, cameras, and power systems needed to fly a conventional aircraft, plus a robotic arm for the manual tasks. In this way, ROBOpliot can operate the yoke, rudder, brakes, throttle, and switches while reading the dashboard gauges and displays like a human pilot.
According to the Air Force, the installation is simple, non-invasive and non-permanent, using standard commercial technologies and components. This allows planes to be converted to unmanned operations without the complexity and costs of purpose-built UAVs, and switched back to human control configuration when required.
The recent flight comes after a year of building and testing that involved trialing the device concept using a RedBird FMX simulator to demonstrate how well it can fly in a simulated environment before progressing to the real thing. The US Federal Aviation Administration-certified trainer showed that ROBOpilot could carry out autonomous takeoffs, mission navigation, and landings in both normal and abnormal conditions.
"Imagine being able to rapidly and affordably convert a general aviation aircraft, like a Cessna or Piper, into an unmanned aerial vehicle, having it fly a mission autonomously, and then returning it back to its original manned configuration," says Dr. Alok Das, Senior Scientist with AFRL's Center for Rapid Innovation. "All of this is achieved without making permanent modifications to the aircraft."
November 9, 2023 | International, Land
Italy's state-controlled defence and aerospace group Leonardo is aiming to join the German next-generation Leopard 2 tank programme, CEO Roberto Cingolani said on Thursday.
September 23, 2021 | International, Aerospace, Naval, Land, C4ISR, Security
Today
July 24, 2018 | International, C4ISR
By Gina Harkins One Marine could soon dispatch more than a dozen drones to jam enemy communications and take out targets -- all from a single handheld tablet. The Marine Corps Warfighting Lab has successfully tested the ability to have a single Marine operate six drones in the air simultaneously. The goal is to get that up to 15 and to see the small unmanned systems stay in the air for hours at a time. "What we're looking at is ... minimal operator burden so [a Marine's] face isn't down in a tablet," said Capt. Matt Cornachio, a fires project officer with the Warfighting Lab's science and technology division. "It's sort of having the machines do the work for you, so you give them intent and they operate." That could help ground troops in remote or hotly contested locations augment 60mm mortar fire with precision strikes. Cornachio said they're looking for drones with a host of potentials, including swarming, automatic-target recognition, kinetic-strike and electronic-warfare capabilities. "Your swarm is multifaceted so you have several warheads that hold their own capabilities in that cloud," he said. "... We see the precise nature of loitering munitions to augment company-level fires." In order to carry out a range of missions -- from delivering explosives to jamming communications, the Marine Corps is on the hunt for drone swarms that can stay in the air for hours. The Warfighting Lab held a drone-endurance test in the desert this month, Cornachio said, during which one unmanned aircraft flew for nearly two hours straight. "It's not out of the realm of possibility that these things could be in the air for three or four hours, so the smaller, the better," he added. Getting to the point where one Marine controls a swarm of drones is a big change from unmanned systems like the Switchblade, which required one operator per drone. That kamikaze-style drone delivers a payload equivalent to a 40mm grenade. The Warfighting Lab's efforts are part of a larger Marine Corps strategy called Sea Dragon 2025. Marines are experimenting with drones, self-driving vehicles, robotics and other technology that can limit their exposure in the field. The use of unmanned technology could be especially beneficial in complex urban environments, said Brig. Gen. Christian Wortman, head of the Warfighting Lab. "We can use manned-unmanned teaming and unmanned systems to take on some of the most dangerous tasks that Marines are executing in that kind of an urban environment," he said. https://www.military.com/defensetech/2018/07/23/marines-test-new-drone-swarms-single-operator-can-control.html