» , Submitted by lester on Tuesday, 1 November 2011 Regular readers know that each November we hold the annual Augmented Planet Readers Choice Awards. The only awards dedicated to recognising the world of augmented reality and the only awards that matter. The awards are two fold. Firstly you vote for your favourite augmented reality content across the categories in the list below. At the end of the month the votes are totalled and the winner of each category wins the highly covered Augmented Planet Readers Choice Awards Crystal Plaque for their office, and for your time and effort in voting you go into our exclusive prize draw. This year the awards are sponsored by the nice guys at NAVTEQ. NAVTEQ are the leading global provider of maps, traffic and location data (digital location content) enabling navigation, location-based services and mobile advertising around the world. Not only that but all their content is accessible through their API so take a look at their website to learn more and how you can take advantage of their resources in your own applications.

The prize for one lucky Augmented Planet reader is with out doubt the ultimate Christmas gadget. We are please to announce that someone will be annoying the hell out of friends and relatives over Christmas dinner with their very own Parrot AR Drone. In our opinion it’s the ultimate AR accessory. You can learn more about this fantastic prize here. This year you can vote for your favourite augmented reality applications across the following categories: Best Augmented Reality Marketing Campaign Best Augmented Reality Application (non Browser) Best Augmented Reality Developer Tool/SDK The Augmented Planet Readers Choice Awards 2011 are sponsored by NAVTEQ The NAVTEQ Network for Developers™ (NN4D) empowers application developers with the knowledge and resources needed to create the hottest, most differentiated location-based products. You can access technical resources, support and business development services to build and market location-aware apps for Web, mobile, automotive, GIS and enterprise markets worldwide.

Drone 2.0 GPS Edition SandDrone 2.0 GPS Edition combines the new Elite edition drone with the Flight Recorder GPS Module.ar drone 2 outdoor hullDrone 2.0 GPS Edition combines the new Elite edition drone with the Flight Recorder GPS Module. parrot ar drone ces 2013Drone 2.0 GPS Edition lets you capture high-definition photos and videos and stream them instantly through your iPhone, iPad or iPod touch. parrot ar drone 2 wikiYou can control the drone's direction using a map and easily instruct it to return to its take-off point. ar drone parrot south africaPlus, thanks to the Wi-Fi connection of the AR.ar drone 2 caracteristique

Drone 2.0 and the GPS Flight Recorder, the drone's range is up to 100 metres.parrot ar drone nlDrone 2.0 has an in-built high-definition 720 p camera, which records HD video and sends it directly to your iOS device. Also featuring a photo-capture option, images are easily stored on the Flight Recorder or on your device. With the Flight Recorder GPS you benefit from the additional features of Control by Map; this new control mode allows you to choose the destination of your drone. You also benefit from increased flight height of up to 100 metres and the unique Return Home Mode, which instructs the drone to return to its take-off point. - Quadricopter drone is remotely controlled from your iPhone, iPad or iPod touch - Take photos and record video in high definition during flight with the 720 p camera - Instantly stream video footage on your iPhone, iPad or iPod touch - Store photos and images on your iOS device or USB drive

- Return Home Mode - Control By Map function - Did you notice? - The HD camera streams video footage through your phone tablet - camera tricks with the free app - Compatibility (control app): Android; WLAN 2.4 / 5 GHz 30 fps, 1280 x 720 pixelsDrone 2.0 GPS Edition Sand" For more information click hereDrones have gained a reputation for hunting terrorists and spying on both foreigners and Americans alike. So it's easy to overlook the fact that these hovering, loitering aircraft have quite a following in the hobbyist world as well. To the people who build and fly them recreationally, modern unmanned aerial vehicles (the terms drone and UAV are pretty much interchangeable) are just a technological advancement of the radio-controlled planes and helicopters that amateurs have been flying for years. The Federal Aviation Administration is still struggling to work out the rules for operating UAVs commercially, but for private use, the agency's regulations are remarkably lenient ("Drone Skies," September)—no license is required, and so long as you keep your drone below 400 feet and don't do anything dangerous over densely populated areas, you're free to fly around as you please.

The ABCs of UAVsLike many hobbyist toys, drones have a sliding scale of sophistication and cost. The more you spend, the more a drone can do, and the more a drone can do, the harder it is to learn to fly reliably. Drones come in two flavors: fixed-wing aircraft that operate like airplanes, and multicopters that take off vertically and can hover like helicopters. You can build a drone yourself with kit parts from online merchants such as HobbyKing, 3D Robotics, DJI, or Team BlackSheep, or you can do as I did, and pay a little extra to have one of these manufacturers build it for you. There are also several open-source movements designing flight-control and autonomous-flight software for UAVs, including OpenPilot, APM:Copter, and APM:Plane—although not all software works on all hardware.Large RC planes and helicopters are typically powered by combustion engines and can be difficult and (as the death of an RC hobbiest in Brooklyn, N.Y., this August demonstrates) sometimes dangerous to fly.

But a new breed of small and accessible aircraft uses digitally controlled electric motors and high-discharge, rechargeable, lithium-polymer batteries. These are not your average cellphone batteries. Li-Po batteries are powerful and highly volatile, have specialized connectors, must be charged carefully, and have a vocabulary all their own (see "Anatomy of a Battery"). Most importantly, many hobbyist drone aircraft don't come with a battery—which can throw your weekend plans in the ice bath when you excitedly open the box of your first drone, only to find you've got another online order to place before the fun times begin.Rotary ClubOver a four-month period I learned how to fly three multicopters: a super-simple $300 Parrot AR.Drone 2.0, a $680 DJI Phantom, and a tricked-out, six-rotor $1300 3D Robotics Y6. Multicopters have anywhere from three to eight rotors, are highly maneuverable, and can hover and fly in virtually any direction. These are good starter drones, because they are generally quite controllable and won't disappear over the horizon in a hurry, the way fixed-wing craft tend to do.

But as I found out, multicopter flying is not without its challenges. Things can sometimes go haywire faster than you can react. Plus, piloting one can be a mind-bending exercise in relative positioning. Multicopters are symmetrical, so it's not always obvious which way your drone is "facing." Remote control usually involves either a radio-control unit with dual analog sticks and a dizzying array of switches and buttons (many of which do nothing), or, in the case of the Parrot AR.Drone, an iOS or Android smartphone or tablet with onscreen virtual controls. Regardless, operation can get a little complicated. When your drone flies behind you and you turn around to face it, the directional controls are now the reverse of what they were when it was in front of you—likewise, if you swivel your drone to face a new direction without reorienting your own body, the drone moves sideways relative to you. For this reason, I suggest keeping your first flights low and close by, and that you find a wide, open area to practice in—I used a local dog park.

Also, purchase a few extra propellers, because you're going to crash your drone. And that's okay, because repairing your drone is part of the hobby.In terms of accessibility, the Parrot AR.Drone 2.0 is the newbie's top choice. It is affordable, durable, comes with a battery and an onboard camera, and is controlled via a smartphone. You can even fly it indoors—it comes with a removable hull that protects the rotors from bumps into walls, pets, and people. Takeoff and landing are accomplished with a single button. Drone has a sonar sensor that keeps it a fixed distance from the ground, and its 720p camera records a video to your tablet or phone as it flies.I had fun flying it, and my nerdy little toy impressed my nerdy friends. But the limitations surfaced quickly. The standard battery for the model I tested was rated for 1000 milliampere-hours—good for a paltry 12 minutes of air time. The company now sells a 1500-mAhr battery for longer flight times. Also, since the AR.Drone is controlled via Wi-Fi, it is constrained in its range to about 165 feet from the controller.

There's plenty of fun to be had within that range, but more sophisticated choppers put it to shame.For instance, the Phantom, a ready-to-fly quadrotor from DJI, has a range of almost 1000 feet from the controller. But I wouldn't suggest sending it that far afield—at any distance greater than 500 feet, the drone becomes a coin-size white blob against the clouds. The Phantom is also fast, with a top speed of more than 20 mph—although that kind of hot-dogging will chew through a 2200-mAhr battery (which is not included) in 10 to 15 minutes.The quadrotor also uses a GPS sensor and digital compass to do away with the orientation problem that plagues most multicopters. Phantom has two Intelligent Orientation Control settings that normalize its forward motion regardless of which way the drone is facing. One IOC setting fixes the Phantom to a grid, which still reverses the controls if you fly it behind you. The other setting fixes the craft to a radius around its launch point; forward motion moves it away from you, reverse brings it back.

I found this massively useful once I attached a GoPro to the Phantom's camera mount. I could then steer the camera in any direction yet still fly the aircraft relative to my own postion. It was like having a helicopter cameraman at my disposal for home movies. Now I have tons of aerial footage of my kids playing with the neighborhood dogs in the park, and a few high-altitude pans that give a view of my entire town.The ÜberdroneOn the upper end of the (or, at least, my) cost-and-complexity curve is the 3D Robotics Y6 hexacopter, using the APM:Copter software platform, which was the last and most ambitious drone I tried. You can build this three-arm, six-rotor craft yourself for $400 to $600 in parts (depending on the options you select), or you can have 3D Robotics build it for you for $700 to $1300. Fully tricked out, a 3D Robotics multicopter can be flown manually with a remote control, or it can do autonomous waypoint navigation. It can be accessorized with a wireless-telemetry kit that communicates with your laptop and a first-person-view camera that broadcasts back to a screen or video goggles.

And it can also support a servo-driven tilting gimbal for real-time control of a second video camera. The idea is that you guide the aircraft with the low-res broadcast camera and record with a hi-def camera on the gimbal. Its six motors make the Y6 a strong beast, capable of lifting a heavy payload—some of which is its own large battery (the company suggests at least 4200 mAhr). The drone can also survive one or more motor failures while maintaining flight.These high-end aircraft don't ship with straightforward programming and flight instructions. There is, however, an active online community with plenty of advice for new flyers—exactly the sort of advice I should have consulted before my first attempt at flying the Y6. It shot up 4 feet in the air, tilting violently to one side. It made a beeline for a public road, so I cut the throttle and sent it props-first into the dirt. After replacing a motor and two props, I learned that calibrating the compass and testing and tuning pitch and roll rates is generally a good idea before any multicopter's first flight.