More: That's what you get when you opt for the . We're talking more in every respect: from 36 minutes of flying time to smartphone or tablet control, this bird can lift your drone experience to new heights to the tune of 350 bucks. It ranks as in our list and even with it's newer brother out, the , it is still a good buy. The "Power Edition" comes with a valuable set ofHere's what we found in the box, next to the model itself: The batteries are the main draw of the "Power Edition": while the regular version comes with one 1000 mAh pack, this one has 2 high-density lithium-polymer batteries, each packing 1500 mAh. three times the battery life of the regular stock model, jumping from 12 to 36 The bad news here for the Parrot is that you need to interrupt your session and exchange batteries once the first one is dead. Also, you'll want to plan your RC session well ahead of time: charging a battery takes a couple of hours. The Parrot AR Drone 2.0 is coated in black, with the colored

rotors adding a solitary touch of color. The design makes them stand out and add vibrance to the the quad's ninja-style exterior. Welcome to full Hollywood experience! Even though it's becoming a common feat these days, you'll feel like a secret agent after you turn (Ipads are great for this but phones work too) or Android device into a full control panel for your AR Drone 2.0. There are apps for everyone. The quad Parrot has an integrated wifi system that allows you to connect your device like connecting to any wifi hotspot. After you do, start up the control software and you'll get a live video stream right from the drone. The RC flight range extends to 160 feet (50 meters). It comes with sophisticated electronics that help you straighten up and fly right: embedded sensors make it easy for you to take off and land just like a helicopter, even if you're not an experienced drone pilot yet. The rotors are individually powered and we were impressed

with the superior stability the quad's technology affords it even inWhen left to hover, it will maintain a solid distance between itself and the ground. The hull is also very well built and will resist to the inevitable bump in the road. Be sure to mount the included protectors to keep the quadThe drone's app is nicely laid out and user-friendly, but we sometimes wished it was easier to precisely steer the quad. Yes, the on-screen controls overlaying the live video stream provide great flexibility, and you can even move the drone using your phone'sIt's precise and responsive most of the time - but still, we had to use the emergency landing function several times during testing, when the quad went off on its own or the app lagged. In the "pure fun" department, the Parrot AR Drone will perform a badass barrel-roll when you double-tap your screen. don't do it too often, it costs a lot of energy. The Parrot AR Drone 2.0 comes fitted with another 720p camera

(meaning a 1280x720 resolution), which provides some truly great video quality. This guy doesn't just record video: you can instantly upload content to e.g. Youtube or Picasa straight from the drone. It also features USB capability, allowing you to extend your storage space.parrot ar drone handleiding Beyond toying around, you'll find yourself recordingparrot ar drone menzil memorable digital videos for yourself, your family and friends in noparrot ar drone 2 hintaThe only thing that you'll want to modify on your video is thear drone 2 iphone sound but we recommend that you add a fun music track to go along withar drone 1 support

The Parrot AR Drone 2.0 Power Edition is clearly not the ideal beginner's choice, but after you've cut your teeth and banged up edges on a strong starter drone, this is a great next step. steering it using your smartphone or tablet alone is worth the price of admission, and that's only one among a plethora of extended features.parrot ar drone with radio Out of all the reviews, this one was the easiest drone to recommend. also works well with both Apple and PC systems. At around 350 Dollars, this is a great drone to satisfy your quad hobby, and you'll love the great videos you'll shoot for yourself, friends Get the Parrot AR Drone 2.0 Power Edition here. Interested in the Parrot AR Drone 2.0? Here's how you can upgrade it with all the available extras. Parrot AR 2.0 Drone Power Edition (Required) Toolkit for the Parrot drone (Recommended)

Original 1500mAh Replacement battery for AR Drone (Optional) Generic Battery for the Parrot AR Drone (Optional) Flight Recorder and GPS module (Optional) Contents1 Flight Characteristics2 Video Features3 For advanced pilots and flyers4 RecapIn this workshop you'll learn about the wonderful world of autonomous flying robots, specifically the AR Drone 2.0 provides a high level API to send commands, read data back and stream video from it's HD camera. We'll start writing basic programs to take off and land, and before you know it you'll be using feedback from a wealth of onboard sensors to perform more impressive maneuvers and behaviours. First, if you’ve not already played with an AR Drone before then download the FreeFlight app for your iOS or Android device and take one of the drones for a flight: Now that you’ve got the hang of how to fly your robot around, let’s get setup for controlling them programmatically with JavaScript Now connect to the drone's WiFi with your smartphone, start the FreeFlight app and make a test flight with it's Piloting feature to learn how the drone behaves.

Once you've done that, save this to a file called flight.js: and run it with node flight.js. See how your drone takes of, rotates clockwise and then back again! Now let’s try customising your script with different commands: Where speed is a value between 0 (stopped) and 1 (full speed). Combine these together and get your drone dancing around the room! Now that you’ve got the hang of the basics, there are three different challenges to attempt, you can try them in any order. Wouldn’t it be cool if we could control the drone from the keyboard on your laptop, like playing a real life computer game!? Let’s see how we can do that next. /TooTallNate/keypress/) node module, we can install that with: /TooTallNate/keypress#readme) shows how to listen for keypress events in the terminal and then react to them: Let’s combine that with some of the ar-drone code we wrote before to get the drone to take off when spacebar is pressed and land when L is pressed:

Copy that code into a file called keyboard.js, make sure you’re connected to the drones wifi and run the code from the terminal: Then you can hit the spacebar and your drone should take off, then press the L button to land it, congratulations! Before we start adding more keys and commands, why don’t we refactor this code a little to make it easier to add new commands: Now we can easily add more commands to the keys object, using the name of the keyboard key, for example, see how we’ve added the up arrow key option: Why not try adding some more commands from the initial tutorial, mapping them to keyboard keys and try it out by flying your drone around the room, maybe even use the key layout from your favourite flight sim game? WASD and arrow keys work great for me. //rwaldron/johnny-five) and build your own drone controller from scratch. As well as sending commands to the drone (takeoff, turn left, do a flip! etc), you can also get data back from the drone to find out what’s going on onboard, let’s see how to we can do that.

First let’s output a stream of raw data directly from drone, add the following code to a file called navdata.js: Connect to your drones wifi and then run the code with: You should see huge amounts of pure drone data streaming down your terminal looking something like this: Every time the drone send some information to you, the navdata event is fired, and our callback recieved a “data” object. There’s all kinds of information stored inside this object, things like how much battery life is left, the position of the drone in 3D space (pitch, yaw and roll etc), altitude and error messages to name a few. With this data we can start to make our drones truly autonomous, using their sensor data to provide feedback and change direction based on the environment or the drones position, one fun task to try would be to try and get your drone to hover exactly 2.5 meters above the ground. You can use the altitude section within the navdata to read what the current height of the drone is, and if it’s lower than 2.5 meters, then tell it to fly up, and if it’s higher then move downwards until it reaches the correct height.

Another neat use of the navdata to create a dashboard or visual display in a web browser, but first we need to send the data from our node.js process up to a browser, the perfect excuse to play around with some WebSockets. /), another node module that makes serving web pages from a node.js process nice and simple. Now let’s use the example socket.io code (http://socket.io/#how-to-use) with our nodecopter navdata code, first lets add the server to a file called app.js: Then for our web page, add the following code to a file called index.html: Make sure you are connected to the drone’s wifi and start up the server with: And point your browser to http://localhost:8080, you should see "Let’s fly" and if you open up the javascript console in the developer tools section of your browser, you should see the navdata being sent to the browser via socket.io. Now we have data that we can use to display what is happening inside the drone, for example, here’s an updated version of index.html that shows how to display the current percentage of battery life left:

That’s quite a simple example but it’s a good starting point. Here’s some ideas of ways you could extend this: If you are feeling adventurous you can also ask the drone to send ever more data, more often as well, by disabling it’s demo flag with this extra line of code: Try out some of these more advanced nodecopter projects: /eschnou/ardrone-autonomy) - Instead of directly controlling the drone speed, you can use Autonomy to plan and execute missions by describing the path, altitude and orientation the drone must follow. var autonomy = require('ardrone-autonomy'); var mission = autonomy.createMission(); .zero() // Sets the current state as the reference .altitude(1) // Climb to altitude = 1 meter .hover(1000) // Hover in place for 1 second n(function (err, result) { console.trace("Oops, something bad happened: %s", err.message); The AR Drone comes with two different cameras, a HD one on the front, and a downward facing camera as well.

There are couple of open source projects that allow you to actually stream these video streams from the drone and up to a browser so you can see what the drone sees from your laptop: /eschnou/ardrone-webflight) - Webflight is a really neat project that provides a browser based controller for the AR Drone, and best of all it’s got a great plugin architecture, including plugins for: controlling via keyboard or gamepad even visualising air traffic control data Why not try and build your own plugin to add some new functionality to the project? Check out some of the other Nodecopter projects on GitHub and maybe send a pull request to one of them? I crashed my drone! Don’t worry, crashes will happen and the AR Drones are fairly rugged and easy to repair if they do break. Try not to fly the drones too close to other people or drones, in a big open space to avoid collisions and triple check your code before you do a test flight! My drone won’t take off

The most likely reason your drone won’t take off is because the battery is flat, swap it out with a freshly charged one. If it’s still not working try connecting to it using one of the official mobile apps as they often show more error messages, it could be that something is broken and needs repairing. Where do I get the mobile app from? You can get the mobile app for iOS from the App Store, it’s called FreeFlight and for Android the app is on Google Play and is called AR.FreeFlight, both are free. How much can an AR Drone lift? Not much, about 100g before it becomes unstable, just about enough for an Arduino. What other programming languages can be used? You don’t use have to use Node.js for controlling AR Drones, there are libraries in lots of other languages, here are a few we know of: Andrew Nesbitt is a passionate full stack developer. He spends most of his days programming in Ruby, playing with Node.js, contributing to open source projects and organising local developer user groups.