View allAll Photos Tagged UnmannedAerialVehicles
Brig. Gen. Don Dunbar, adjutant general of Wisconsin, enjoys a close inspection of the RQ-7 Shadow 200 unmanned aerial vehicle during a training exercise Nov. 2, 2009 at Fort McCoy. The 22-person UAV platoon, part of Company B, Brigade Special Troops Battalion, 32nd Infantry Brigade Combat Team, includes UAV pilots, camera operators, maintainers and support crew. The platoon will operate out of Volk Field, where a new $8 million facility is planned. Wisconsin National Guard photo by 1st Sgt. Vaughn R. Larson
Staff Sgt. Carlos Ahamirano of the 79th Brigade Special Troops Battalion (BSTB), discusses the capabilities and showcases the California National Guard's RQ-7B Shadow 200 Remotely Piloted Aircraft during the ribbon cutting ceremony of the new Tactical Unmanned Aircraft System Facility at Camp Roberts, May 13, 2014. (Air National Guard photo by Master Sgt. Julie Avey)
030401-N-0137B-001
St. Ingoes, Md. (Apr. 1, 2003) -- The Aerolight Unmanned Aerial Vehicle (UAV) returns from a successful, groundbreaking flight. Naval Air Systems Command managed the UAV flight path and sensor payloads for 35 minutes before returning controls to the ground station for recovery. The primary applications for the system are tactical reconnaissance and surveillance, target acquisition and gunfire adjustment, and a training system for high-end UAV systems operators. U.S. Navy photo by Amy Behrman. (RELEASED)
PictionID:56152964 - Catalog:C94-045-031.tif - Title:Ryan Aeronautical Negative Collection Image - Filename:C94-045-031.tif - - - - Image from the Teledyne Ryan Archives, donated to SDASM in the 1990s. Many of these images are from Ryan's UAV program-----These images were not donated with metadata, so please Tag these images so that the information can be permanently stored with the digital file.---Repository: San Diego Air and Space Museum
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
AeroAstro PhD candidate Mark Cutler prepares an unmanned aerial vehicle (UAV) for flight in the Aerospace Controls Lab at MIT in Cambridge, Massachusetts, USA. The lab develops control systems for the vehicles.
Photo: M. Scott Brauer
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
Northrop Grumman RQ-4 Global Hawk. It is able to provide high resolution Synthetic Aperture Radar (SAR)—that can penetrate cloud-cover and sandstorms—and Electro-Optical/Infrared (EO/IR) imagery at long range with long loiter times over target areas. It can survey as much as 40,000 square miles (100,000 square kilometers) of terrain a day.
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
US Navy Special Warfare train with ScanEagle unmanned aerial vehicle at Finnegan Field, Fort A.P. Hill. Pneumatic launch and skyhook recovery of the $3.2 million dollar asset were the order of the day on Friday, November 13, 2015.
Small unmanned aerial vehicles (UAVs) stand on a desk in the Aerospace Controls Lab.
Photo: M. Scott Brauer
Darkstar is the flying sauce-shaped air vehicle on top. Built by Lockheed Martin, with wings by Boeing. Never became operational. Part of the Smithsonian's new exhibit on military Unmanned Aerial Vehicles (UAVs) in its National Air & Space Museum on the National Mall in Washington, DC.
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
Rome, Italy
Roma, Italia
(Full size/resolution photos: reijo.kivela@viapori.fi, Copyright: Markus Kivelä 2011-12)
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
United States Air Force (USAF) - Northrop-Grumman RQ-4 Global Hawk (Mock-up built by Aurora Flight Science Corp) - 022008
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
Navy used these in the 1st Gulf War to sight targets for its big guns. Built by AAI. Part of the Smithsonian's new exhibit on military Unmanned Aerial Vehicles (UAVs) in its National Air & Space Museum on the National Mall in Washington, DC.
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
Killing bad guys (and occasionally civilians) one Hellfire at a time.
National Air & Space Museum - Washington, DC
Kate Shirley from the Office of Naval Research (ONR) pubic affairs office explains the unmanned aerial vehicle (UAV), Dragon Eye, to Cub Scouts from Pack 555, Fontana, Calif., as they stopped by the ONR display on Broadway Pier during San Diego Fleet Week. The mission of ONR is to: foster, plan, facilitate and transition scientific research in recognition of its paramount importance to enable future naval power and the preservation of national security. (U.S. Navy Photograph by Mr. John F. Williams)
US Navy Special Warfare train with ScanEagle unmanned aerial vehicle at Finnegan Field, Fort A.P. Hill. Pneumatic launch and skyhook recovery of the $3.2 million dollar asset were the order of the day on Friday, November 13, 2015.
photo attribution: sean dreilinger durak.org
Jordi Muñoz: The drones are coming (from Tijuana)!
A native of Ensenada, Mexico, Jordi Muñoz co-founded and built a highly successful company with Chris Anderson of Wired magazine: 3-D Robotics. Muñoz started by rebuilding a toy remote-controlled helicopter using accelerometers from a Wii controller, making it a much more stable machine. He soon built his first drone, costing a few hundred dollars, while the nearest competition was asking about twenty thousand. Today, Muñoz is considered one of the top gurus in the field of drones or UAVs (Unmanned Aerial Ve hicles). His ideas are about to
revolutionize and disrupt this space and create inexpensive UAVs for various civil needs.