On-screen controls provide joystick-style movement, and other functions that allow pilots to perform aerobatics, play games, or update their drone's firmware. When originally launched pilots could control drones by tilting their device, and data from the onboard accelerometer was converted into flight controls. It allows pilots to record video or capture images from their drone's onboard cameras. AR.Drone was launched in 2010 alongside the original drone, and provides piloting capabilities via iOS devices. Previously known as AR.Freeflight, provides piloting function for AR.Drones, and the ability to take photos and videos. Motors: 4x brushless 14.5-watt, 28,500 RPM inrunner type, gear reduction 8/72 Īpplications AR.Drone application HUD AR.Drone.Battery: Lithium-polymer 3-cell (11,1 CV), 1500 mAh.Start weight: 380 g with outdoor, 420 g with indoor hull.Vertical camera: QVGA sensor with 64° lens, recording up to 60fps.Front camera: 720p sensor with 93° lens, recording up to 30fps.An extended battery designed to increase flight time by up to 50% was also launched alongside the Flight Recorder. Flight Recorder features can be controlled via mobile phone and desktop applications, with "Director Mode" and "Rescue Mode" included. It will allow pilots to define a flight path by selecting a series of waypoints that the drone will follow. It adds 4GB of storage to the drone, along with GPS tracking and flight data recording. Īt CES 2013, Parrot announced the Flight Recorder add-on for the AR.Drone 2.0. Other sensor improvements included an upgraded 3-axis gyroscope, along with a 3-axis accelerometer and magnetometer. The resources available to the onboard computer were also improved, and the Wi-Fi hardware was updated to follow the new 802.11n standard. The ultrasound altimeter was enhanced with the addition of an air pressure sensor, allowing for more stable flight and hovering. The camera quality was increased to 720p, and many of the onboard sensors were made more sensitive, allowing for greater control. The equipment on board AR.Drone 2.0 was significantly upgraded to improve the drone's function. Rather than redesigning the product, improvements were made to its functionality, along with developing a larger ecosystem to support pilots. The successor to the original drone, the AR.Drone 2.0 was unveiled at CES Las Vegas 2012. AR.Drone 2.0 in flight with outdoor hull AR.Drone 2.0 in flight with indoor hull Vertical camera: 64° lens, recording up to 60fps.Front camera: QVGA sensor with 93° lens.Coupled with the software on the piloting device, the forward-facing camera allows the drone to build a 3D environment, track objects and drones, and validate shots in augmented reality games. This provides approximately 12 minutes of flight time at a speed of 5 m/s (11 mph). The rotors are powered by 15-watt, brushless motors powered by an 11.1 Volt lithium polymer battery. The onboard sensors include an ultrasonic altimeter, which is used to provide vertical stabilization up to 6 m (19 ft 8 in). The onboard computer runs a Linux operating system, and communicates with the pilot through a self-generated Wi-Fi hotspot. Inside the airframe, a range of sensors assist flight, enabling the interface used by pilots to be simpler, and making advanced flight easier. In total, the AR.Drone has six degrees of freedom, with a miniaturized inertial measurement unit tracking the pitch, roll, and yaw for use in stabilisation. The outdoor-use hull is made from lightweight plastic and allows for increased maneuverability. The indoor hull is made from EPP foam, and encases the circumference of the blades for protection. Two interchangeable hulls were supplied with the airframe, one is designed for indoor and one for outdoor flight. The airframe of the AR.Drone, constructed from nylon and carbon fiber parts, which make it light weight, measures 57 cm (22 in) across. Along with AR.Freeflight, the application designed for the free operation of the drone, Parrot also released AR.Race, allowing users to take part in solo games, or interact with other drones in combat simulations. The Parrot AR.Drone was unveiled at the International CES 2010 in Las Vegas along with a demonstration of the iOS applications used to control it. The drone is designed to be controlled by mobile or tablet operating systems, such as iOS or Android within their respective apps or the unofficial software available for Windows Phone, Samsung BADA and Symbian devices. The Parrot AR.Drone is a discontinued remote-controlled flying quadcopter, built by the French company Parrot. ( August 2018) ( Learn how and when to remove this template message) Please help improve it by removing promotional content and inappropriate external links, and by adding encyclopedic content written from a neutral point of view. This article contains content that is written like an advertisement.
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