View allAll Photos Tagged UnmannedAerialVehicles
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.
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Stunning image of an ocean break wall captured by a pilot using a drone and remote camera equipment tecnology
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.
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.
The Northrop Grumman MQ-8 Fire Scout is an unmanned autonomous helicopter developed for the United States armed forces. Northrop Grumman is developing the Fire Scout to provide reconnaissance, situational awareness, and precision targeting support.
Students Jonathan Bannister (front), Nayan Avalakki (left) and Peter Moncrieff (behind) work on the Unmanned Aerial Vehicle (UAV)
Photo by David Ellis
"Shark attacks could be a thing of the past at Adelaide beaches thanks to the efforts of a group of final-year engineering students at the University of Adelaide.
Eight students from the School of Mechanical Engineering have designed and built an Unmanned Aerial Vehicle (UAV) with a range of applications including shark patrols, bushwalker rescue, aerial mapping and traffic monitoring.
The seven-month project, involving four Aerospace and four Mechatronic Engineering students, has resulted in a plane that can fly without human interaction and stream live video footage from a 10km radius.
The project is a landmark achievement for the first cohort of students completing their Bachelor of Aerospace Engineering undergraduate degree in 2007..."
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.
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
Sky Wing - 1 Unmanned Aerial Vehicle (天翼-1 无人机) on display during the 8th China International Aviation and Aerospace Exhibition held at Zhuhai Sanzao Airport.
This UAV has a patrol radius of 100 km. at the height of 3,000 metres and a maximum speed of 180 kms per hour. In addition to being used for military patrol and reconnaissance, this UAV may also be used for civilian purposes such as surveying and aerial photography.
This photo was taken on 19th November, 2010.
Rome, Italy
Roma, Italia
(Full size/resolution photos: reijo.kivela@viapori.fi, Copyright: Markus Kivelä 2011-12)
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.
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.
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
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.
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.
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
Length: 5 ft 8 in
Wingspan: 9 ft 8 in
Height: 2 ft 0 in
Wing area: 6.1 ft²
Loaded: 28.9 lb (13.1 kg)
They say this one is designed to collect weather data.
Seen in the exhibit hall of the annual conference of the Association of the US Army.
U.S. Army Sgt. Shawn C. Becker, deployed in support of Combined Joint Task Force-Operation Inherent Resolve, assigned to 2nd Brigade Combat Team, 82nd Airborne Division, flies a Puma unmanned aerial vehicle in search of ISIS indirect fire positions near Al Tarab, Iraq, March 12, 2017. The 2nd BCT, 82nd Abn, Div., enables their ISF partners through the advise and assist mission, contributing planning, intelligence collection and analysis, force protection, and precision fires to achieve the military defeat of ISIS. CJTF-OIR is the global Coalition to defeat ISIS in Iraq and Syria. (U.S. Army photo by Staff Sgt. Jason Hull)
06.02.2012 (1029)
Gemacht mit einer Drohne md4-1000.
Taken by a drone (unmanned aerial vehicle) md4-1000.
Visit me www.air-media.ch
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
Second Lieutenant Ian Sonneberg of VMU-1
"Watchdogs" of Marine Corps Air Ground Combat Center Twentynine Palms describes the Boeing Insitu RQ-21A Blackjack UAV at the 2015 Yuma Airshow at MCAS Yuma.
photo attribution: sean dreilinger durak.org
3-D Robotics UAV flyover
Look! Up in the sky! It?s an unmanned aerial ve hicle (UAV)! The flight team from 3-D
Robotics demonstrates the thrill of the DIY drone, the product of speaker Jordi Muñoz?s
inventive mind.
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.
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
Gemacht mit einer Drohne md4-1000.
Taken by a drone (unmanned aerial vehicle) md4-1000.
Visit me www.air-media.ch
photo attribution: sean dreilinger durak.org
3-D Robotics UAV flyover
Look! Up in the sky! It?s an unmanned aerial ve hicle (UAV)! The flight team from 3-D
Robotics demonstrates the thrill of the DIY drone, the product of speaker Jordi Muñoz?s
inventive mind.
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.
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.
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
061103-M-7387J-016
Hadithah Al Anbar, Iraq (Nov. 3, 2006) - A recovery team works to secure the black box of an unmanned aerial vehicle, which crash-landed on the roof of a house in the city of Hadithah. U.S. Marines from Fox Company 2nd platoon 3rd squad, along with Quick Reaction Force, hold security while the team works. Fox Company 2nd Battalion, 3rd Marines is deployed with Regimental Combat Team 7, 1st Marine Expeditionary Force (FWD) in support of Operation Iraqi Freedom in the Al Anbar Province of Iraq (MNF-W) to develop the Iraqi Security Forces, facilitate the development of official rule of law through democratic government reforms, and continue the development of a market based economy centered on Iraqi Reconstruction. U.S. Marine Corps photo by Sgt. Jason L. Jensen (RELEASED)
United States Air Force (USAF) - Northrop-Grumman RQ-4 Global Hawk (Mock-up built by Aurora Flight Sciences) - 022008
A recent purchase of a DJI Phantom Vision 2+ UAV has enabled me to have a different experience with my photography. I was a little concerned with the quality of the camera sensor on the Vision 2+ but it has surprised me quite a bit.
For a fully intergrated system, this takes quite a lot to beat.
Image captured using a DJI Phoantom Vision 2+ and processed using Adobe Lightroom 5.5.
Edited using Nik Collection by Google, Dfine 2.0, Viveza 2 and converted to black and white using Silver Efex Pro 2.
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.
Spc. Thomas Geno, infantryman, Company C, 1st Battalion, 17th Infantry Regiment, prepares to throw an RQ-11 Raven Unmanned Aerial Vehicle on JBLM Jan. 29. Geno was one of 14 Lancer Soldiers to qualify during the two-week Raven Certification Course.
PictionID:56154051 - Catalog:4-03807.tif - Title:Ryan Aeronautical Negative Collection Image - Filename:4-03807.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