Follow all of your flights with precision!Drone 2.0 Tutorial video #1 : SetupDrone 2.0 Tutorial video #2 : PilotDrone 2.0 Tutorial video #3 : RecordBecause Android doesn't let you connect to an ad-hoc network, you can't use your Android device to control Parrot's AR.Drone without a little bit of work.Essentially you have three options: However, this will void the warranty on your phone.Manually change the drone's WiFi setup via telnet to connect to an Access Point. This requires a computer in order to connect to the drone and the changes are not persistent, you will have to perform the procedure everytime you restart your drone.Install an on-board script which automatically connects the drone to a specified Access Point. This is the easiest solution as your drone will still be able to operate exactly as before with an ad-hoc network but will automatically connect to your phone's Access Point as soon as you turn it on. Moreover this solution is persistent, no need to perform the install procedure at each startup.

However, this will void Parrot's warranty on your AR.Drone.I don't know anything about rooting Android devices and I can't help you there but if your phone is already rooted and patched then you should have no problem at all connecting to the AR.Drone using its standard IP Address: 192.168.1.1.If you are like me and don't want to root your phone you have two options left :The changes are not persistent Here is how to connect your AR.parrot ar drone india priceDrone to your Android phone's Wi-Fi Access Point :First, if your drone is paired to your iPhone/iPad or other, you need to unpair it by pressing the unpair button underneath the AR.ar drone parrot romaDrone with something like a pen.parrot ar drone opiniones

Connect your computer to your drone : on your computer, browse the list of available WiFi networks and click on  ardrone_******. Linux and Mac OS X : open a terminal and type : telnet 192.168.1.1Windows : you are going to need a telnet client, one is shipped with Windows but it is hidden in Vista and 7. I would recommend using putty (http://the.earth.li/~sgtatham/putty/latest/x86/putty.exe). ar drone motor stuckIn the field "hostname", enter 192.168.1.1, then,parrot ar drone 2 hong kong for "Connection type", choose Telnet right below and click onparrot ar drone for real estateAt this point, you need to start the WiFi hotspot on your phone. Launch the portable Wi-Fi hotspot app and make sure the hotspot is disabled. Click the menu button  and in the menu, click on Advanced. 

Change the local IP to 192.168.1.2 (we are going to use 192.168.1.1 for the AR.Go back to the first screen, make sure that security is set to none and choose a name for your network (mine for instance is skynet). Then click the top left check box to start the hotspot. Your phone is now waiting for a connection from your drone.Back on your computer type the line below to your telnet console replacing YOUR_NETWORK_NAME Do not enter return before the end of the lineifconfig ath0 down ; iwconfig ath0 mode managed essid YOUR_NETWORK_NAME ap any channel auto commit ; ifconfig ath0 192.168.1.1 netmask 255.255.255.0 upOnce you have correctly recopied the line on the telnet terminal, type return. The drone will disconnect from your computer so your telnet terminal will seem to freeze. On your phone screen you should now see "1 connected user", if so the procedure succeeded.Now you can launch AndroFlight, click on Connect and you are good to go !2) Automatic Connection using ARAutoConnectHOWEVERI offer absolutely no warrantyI decline all responsibilitynot supported by Parrotwillresult in voiding the warranty.your own risks.

To see how to install AR AutoConnect on your Drone go to this page.Launch the portable Wi-Fi hotspot app.If your are doing this for the first time or if you have changed the settings since the last time: Click the menu button and in the menu, click on Advanced. Change the local IP to 192.168.1.2 (by default 192.168.1.1 is for the AR.Go back to the first screen, make sure that security is set to none and change the router name to the one you have specified in the AR AutoConnect installer (by default  mine for instance is skynet).Click the top left check box to start the hotspot. Something like 5 or 10 seconds later, you will see appear 1 connected users : this is your drone ! Ready to go !You can now launch AndroFlight and have fun with your drone. Parrot Parts (or either a full AR.Drone 1.0 or 2.0 for disassembly) Tools / optional Parts Using a PPM Reciever Using a PPM Encoder Prepare FTDI UART connection cable Flash Firmware on PX4FMU Throttle cannot be raised

The PX4 autopilot can be used on AR.Drone 1.0 or AR.Both versions of the AR.Drone share compatible center frame and motor controllers. This is a quick and easy way to build a light, stable quad rotor without having to design your own, or shop around for parts; the entire vehicle can be sourced from just two suppliers. The instructions below guide you through the process of assembling the PX4IOAR shield and mounting it on an ARDrone frame. These PX4 autopilot parts are required: 1x PX4FMU + PX4IOAR Kit (comes with all required spacers, PX4IOARMT battery board, velcro straps, vibration dampers and screws) 1x RC Receiver: List of compatible RC receivers 1x Radio modem: List of compatible radio modems 1x min. 2GB microSD / microSDHC / microSDXC card: List of compatible memory cards Power supply and cabling: Turnigy 1800 mAh 3S1P ePower EXP eco 1500 mAh 3S1P DesirePower 25C 1800 mAh 3S1P 5 pack XT 60 connector and silicone wire 1x Parrot Central Cross (Mfr Part# PF070008AA) (Parrot Store Link)

4x Parrot Motor Set for AR.Drone 2.0 (Mfr Part# PF070040AA) (Parrot Store Link) 1x Parrot Propellers for AR.Drone 2.0 (Mfr Part# PF070045AA) (Parrot Store Link) 1x Parrot Gears & Shafts for AR.Drone 2.0 (Mfr Part# PF070047AA) (Parrot Store Link) Some shops are now selling the AR.Drone Shell, that is just the AR.Drone airframe with out the AR.Drone Mainboard, or Nav board. You can get one from Unmanned Tech, or BYOD 1x Charge Lead for XT 60 batteries (HobbyKing) 1x Balancer adapter for XH plugs (HobbyKing) 1x Parrot Mounting Tools for AR.Drone 2.0 (Mfr Part# PF070048AA) (Parrot Store Link) These pictures show the step-by-step assembly on a finished AR. You can connect a PPM receiver directly, or using an encoder as described below: The PX4AR is designed to use a PPM capable receiver for manual flight control, through connector J3. J3.1 - PPM input The following shows the correct connection between the PX4AR and the FRSky D4R-II. J3 pads and the D4R pin spacing is sized to fit a standard servo connector (recommended).

J3.1 Connects to Ch1 (Purple) J3.2 Connects to Ch1+ (White) J3.3 Connects to Ch1- (Black) The D4R also requires that a jumper is connected between CH3 and CH4 to enable PPM mode, as shown You will need the following: Simply connect the +5V, GND, and SIGNAL to the designated locations on the board as described in the picture below Please download and install QGroundControl 2.0 and follow the steps in the video. When selecting the airframe, please choose the AR. Before you fly the ARDrone, you need to adjust the scaling factor of your battery (specially if you are using a batter other than the ARDrone batter), otherwise you will get battery warning beeping sounds. The controller gains provided automatically during setup should work just fine. For advanced users: please refer to the multirotor_pid_tuning page to learn how to tune your system This section shows how to set up the AR.Drone Airframe for convenient RC-Flight and Testing. At the end you will have a wireless MAVLink connection to a ground control station + a NuttShell terminal on a FTDI adapter.

In addition to the part list on top of the page you further need: 1x Xbee Adapter or similar for the helicopter + 1 module on the computer side 1x DF13 5 Position Connector Solder the DF13 5 Position Connector to a header according to the picture below. Go through the 9-Step Quickstart tutorial for Developers in order to be familiar with flashing the FMU. Now plug the microSD card into the PX4FMU + the Xbee module and the DF13 5 Position Connector into the PX4IOAR Board. After powering the quad you should be able to connect via a ground control terminal (Xbee link) and a serial terminal (DF 13 cable on UART5) to the onboard electronics of the AR.Drone setup while flying with the RC remote. If you are using XBee Pro (speed up to 250kb/s) and you want to increase the XBee link speed from the default 57600 to 115200, then this is what you can do (warning this might not be the best way to do it!):Copy the /etc/init.d/rcS file to /fs/microsd/etc/rc.txt and modify it so that it does almost exactly as rcS, but change the baud rate to 115200, and remove the part at the beginning where the script calls /fs/microsd/etc/rc.txt (otherwise the script will keep on calling itself).