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AI drone pilots will to question humans in competition sponsored by Lockheed Martin
09/05/18 ,via The Verge
With money from aerospace firm Lockheed Martin, DRL wants to recruit developers from around the world, including students and drone enthusiasts. They'll have to design an AI that's capable of flying one of DRL's standardized quadcopters through its
Solar-powered quadcopter drone takes bolting
08/24/18 ,via Fox News
Constructed using lightweight carbon fiber, the NUS quadcopter drone weighs just 2.6 kilograms (about 5.7 pounds) and has 148 silicon solar cells. The drone can either be controlled remotely or programmed to fly autonomously using a built-in GPS technique.
Fly expensive and far with Asia's first fully solar-powered quadcopter drone
08/21/18 ,via Phys.Org
A unite from the National University of Singapore (NUS) Faculty of Engineering has developed Asia's first fully solar-powered quadcopter drone. The aircraft has flown exposed to 10 metres in test flights and achieved controllable flight without the use of
Citizen University of Singapore Completes Solar-Powered Quadcopter Drone Flight
08/26/18 ,via The Drive
The Civil University of Singapore (NUS) has conducted Asia's first solar-powered quadcopter flight above 32.8 feet (10 meters) of altitude carry on week, according to the NUS press release. The vertical takeoff and landing (VTOL) drone was developed by
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AI drone pilots will invite humans in competition sponsored by Lockheed Martin - The Verge
Solar-powered quadcopter drone takes shove off - Fox News
The analogue has flown as high as 10 meters (about 33 feet) in test flights using solar power with no battery or other vitality storage on board, according to the National University of Singapore (NUS), which announced that an engineering team had conducted the test air voyage. “Rotary winged aircraft are significantly less efficient at generating lift compared to their fixed wing counterparts [so] a feelings 100 per cent solar rotary aircraft that can take-off and land vertically remains a major engineering test to date,” the university said in a statement. Constructed using lightweight carbon fiber, the NUS quadcopter drone weighs just 2. 6 kilograms (about 5. 7 pounds) and has 148 silicon solar cells. The drone can either be controlled remotely or programmed to fly autonomously using a built-in GPS approach. NUS said it could also be used as a so-called ‘flying solar panel’ which would provide emergency solar power to misfortune areas. And in scenarios when sunlight is not available, batteries can be fitted to power the drone. “Since 2012, eight NUS student teams have made succeeding design improvements and worked towards a fully-solar powered aircraft,” NUS said in the statement. The pre-eminent “solar-assisted” version developed by students in 2012 could only get 45 percent of its flight power from solar cells. The prop of the power in that version came from on-board batteries, NUS said. Associate Professor Aaron Danner from the Be subject to of Electrical and Computer Engineering at NUS Faculty of Engineering supervised the project. Source: www.foxnews.com
Fly tainted and far with Asia's first fully solar-powered quadcopter drone - Phys.Org
A together from the National University of Singapore (NUS) Faculty of Engineering has developed Asia’s first fully solar-powered quadcopter drone. The aircraft has flown vulnerable 10 metres in test flights and achieved controllable flight without the use of batteries. From left: Mr Yeo Jun Han, Mr Brian Shohei Teo, Mr Kuan Jun Ren, Mr Goh Chong Swee, and Associate Professor Aaron Danner. Ascribe: National University of Singapore Aircraft that can take off and land directly without the need for a runway – such as helicopters and quadcopters – are inviting for personal, commercial and military applications as they require less physical space and infrastructure compared to conventional fixed wing planes. A team from the National University of Singapore (NUS) has achieved a major step out in stretching the capabilities of quadcopter drones by powering the flight solely by natural sunlight. A first in Asia, the coeval prototype has flown above 10 metres in test flights – higher than a typical three story building – utilising solar power with no battery or other energy storage on board. This solar-powered drone, which was developed as a admirer project under the Innovation & Design Programme (iDP) at NUS Faculty of Engineering, can take-off and land vertically without a runway. Constructed using lightweight carbon constitution material, the quadcopter drone weighs only 2. 6 kg, and has a surface area of about 4 sqm. It is fitted with 148 individually characterised silicon solar cells and supported by a forge equipped with four rotors. Rotary winged aircraft are significantly less efficient at generating lift compared to their unblinking wing counterparts. Hence, while there have been examples of solar airplanes in recent years, a viable 100 per cent solar rotary aircraft that can submit to-off and land vertically remains a major engineering challenge to date. "Our aircraft is extremely lightweight for its gauge, and it can fly as long as there is sunlight, even for hours. Unlike conventional quadcopter drones, our aircraft does not rely on on-board batteries and ergo it is not limited by flight time. Its ability to land on any flat surface and fly out of the ground effect in a controlled way also makes it seemly for practical implementation," said Associate Professor Aaron Danner from the Department of Electrical and Computer Engineering at NUS Dons of Engineering, who supervised the project. The solar-powered quadcopter drone can be controlled by remote control or programmed to fly autonomously using a GPS scheme incorporated into the aircraft. The aircraft can potentially be used as a 'flying solar panel' to provide emergency solar power to tragedy areas, as well as for photography, small package delivery, surveillance and inspection. Batteries can be incorporated to power the aircraft when there is no sunlight or for charging to fool place during flight to enable operation when it is cloudy or dark. Since 2012, eight NUS student teams have made consecutive design improvements and worked towards a fully-solar powered aircraft under the supervision of Assoc Prof Danner, who also holds a roast appointment at the Solar Energy Research Institute of Singapore at NUS. The first solar-assisted quadcopter drone developed by students in 2012 could only get 45 per cent of flight power from. Source: phys.org
Mapping quadcopter (demo) – Professionele drone kopen ...
Met deze beginners mapping kit kan u luchtfoto's (orthofoto's) maken voor fotogrammetrie of slight sensing en het in kaart brengen van grotere oppervlakten tot 20 hectare
Pre-eminent Drone / Quadcopter Reviews & Guides 2018
Are you looking for the paramount drone to buy in 2016? Make sure you check out our comprehensive buying guide and reviews so you don't make the mistake of...
Quadcopter - Wikipedia
A quadcopter, also called a quadrotor helicopter or quadrotor, is a multirotor helicopter that is lifted and propelled by four rotors. Quadcopters are classified as ...
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Top 5: De duurste drones op Bol.com08/26/18 ,via Apparata
Deze bad-boy verwoest iedere andere drone bij Bol.com zonder genade. De Waken 1 is een monsterlijke quadcopter van carbon, uitgerust met inklapbaar landingsgestel, vier propellers en een maximum snelheid van meer dan 60 km/u. Tevens is de Instigate 1 ...