Jump to: , AR Drone is a quadcopter and is controlled primarily by an Apple iPhone, iPod touch, or iPad units. An open API allows for development of applications. The control system is based on an ARM prosessor and Linux operating system. Control signals go through a 802.11b/g/n wireless IP connection. Two cameras provide a live video stream to the display on the remote. FreeFlight app can be downloaded from the App Store. After a small (quite huge) crash, I had to get a new mainboard. Here is my current favorite indoor settings for the FreeFlight app. The ARDrone system provides telnet access via the wireless connection. Full system permission is provide and works much line any other Linux environment. If you need to downgrade the firmware for some reason, for instance to use ArduDrone, use these steps. To use the firmware image, rename it to "ardrone_update.plf" and follow the steps in the section above. Also check Ardrone Apps page for mirrors. Watch the 6 races of the 2017 Allianz World Championship this June on ESPN, Sky Sports, and Prosieben MAXX.

The world's top 16 pilots will compete on an international circuit of the most insane race courses ever imagined, fighting to be crowned the 2017 DRL World Champion.The following items may help you to troubleshoot common issues with your AR.Drone or with our apps. iOS device = iPhone, iPod touch, or iPad I updated the firmware and now I can’t pitch and roll. What do I do? What is the proper way to connect the app to the AR. How do I delete and reinstall an app? How do I “reboot” my iOS Device? How do I reset my AR.1Fly your Parrot AR.Drone 2.0 with AutoFlight. Note: At the time of this writing, Autoflight is at preview version Alpha 0.2. It seems to be a little unstable, and would occasionally get into a state where the app could no longer talk to the drone without a reset. Doing things in this order generally worked: 1) Connect to drone via wifi 3) Have you fun 5) Disconnect from wifi. Note that the Parrot AR.Drone 2.0 will not take off with less than 33% battery.

AutoFlight will not tell you this, so check the battery level if it's not taking off. Fist: Center your arm, start flying Rotate (while holding fist): Rotate drone Wave out (up): Ascend Wave in (down): Descendparrot ar drone walmart You may also be interested inView applicationView applicationView applicationView applicationControlsar drone 2 lost wifiThe Arduino Yún is a really cool board (checkout Video 1 for an overview). drone phantom 2 vision rtfIt is a mixture of a plain Arduino board (the Leonardo) and a Linux powered board. parrot ar drone toolsAnd of course those two parts are bridged, so you can easily build applications that interact with their environment (the Leonardo part) and perform some complex computations (the Linux part).

And all at a really reasonable price (about $70). In this tutorial, we will get you started with the Yún and we’ll provide you with some tips and tricks that hopefully will help you in your experiments. Video 1: Introduction to the Arduino Yún by Massimo Banzi and David Cuartielles First things first, you need to plug the Yún to a power source prior to using it. There are 3 ways to deliver power to the Yún. The first option is simply through USB. This is typically done by connecting the board to a PC our a USB hub via Micro-B USB cable. The second option is through the ethernet plug since the Yún does support Power over Ethernet (PoE). The third solution is to use an external electric power source through the Vin and Ground pins. But then, you need to be careful because the there is no built in 5V regulator. If you power your Yún with more than 5V, you will likely damage it. A simple way to avoid this is to use a 3LR12 lantern battery which delivers 4.5V. Once the Yún is connected to a power source, few seconds are required to Linino to boot.

Then, you’ll see a Wifi network with a name starting with “Arduino Yun”. The full name looks like Arduino Yun-XXXXXXXXXXXX, where the Xs are alphanumerical characters. The Yún acts by default as an access point. So, you can connect your computer to the ArduinoYun Wifi and start interacting with the Yún. You can replace this configuration and make the Yún connect to another Wifi network. This change is very easy likewise most of the setup. All you have to do is to access the configuration web interface using a web browser that opens the http://arduino.local address. Once connected, you can open a terminal and ping the board to check that the Linino is ready by evaluating: The arduino.local refers to your board in the local network. So, if you replace its name (through the configuration web interface) to say myYun, you should be using myYun.local instead of arduino.local. Anyway, if the everything is ok, you should get an answer similar to the following: PING arduino.local (192.168.240.1): 56 data bytes

64 bytes from 192.168.240.1: icmp_seq=0 ttl=64 time=1.225 ms 64 bytes from 192.168.240.1: icmp_seq=1 ttl=64 time=2.502 ms 64 bytes from 192.168.240.1: icmp_seq=2 ttl=64 time=2.551 ms The Linux carried by the Yún is a distribution based on OpenWRT named Linino (also referred to as OpenWrt-Yún). Logging into Linino can be done as with any Linux through ssh from a terminal of a computer that is on the same network as the Yún. The default user is root. So, to login in you need to type the following command line: The first time you try to connect to your Yun from a computer, the terminal will reply with a message like this : The authenticity of host 'arduino.local (192.168.240.1)' can't be established. RSA key fingerprint is c6:4a:45:ab:51:56:17:08:3a:04:54:14:ad:82:f8:fa. Are you sure you want to continue connecting (yes/no)? Type yes at this prompt to continue the process. You’ll get a response that says: Warning: Permanently added 'arduino.local,192.168.240.1' (RSA) to the list of known hosts.