SDK is free and comes with full documentationYou will also find sample code in most common programming languages. You can write some code for your smartphone, your smartwatch, or your VR glasses!The only limitation is your imagination Share your code on GitHub, create and promote your app with fun videos Best projects will be awarded by Parrot! Paparazzi UAV for Bebop 1 and Bebop 2 Paparazzi UAV (Unmanned Aerial Vehicle) is an open-source drone hardware and software project encompassing autopilot systems for multicopters/ multirotors, fixed-wing, helicopters and hybrid aircraft. Paparazzi, being open, enables users to add more features and improve the system. Using and improving Paparazzi is encouraged by the community. Parrot joined The Dronecode project in 2015 The Dronecode Project is an open source, collaborative project that brings together existing and future open source drone projects under a nonprofit structure governed by The Linux Foundation.

The result will be a common, shared open source platform for Unmanned Aerial Vehicles (UAVs). ROS packages for Bebop 1 and Bebop 2 The Robot Operating System (ROS) is a set of software libraries and tools that help you build robot applications. parrot ar drone belgiqueFrom drivers to state-of-the-art algorithms, and with powerful developer tools, ROS has what you need for your next robotics project. ar parrot drone refurbishedAnd it's all open source.black ops 2 helicopter drone Here are some amazing apps already using our SDKar drone parrot wifi Learn to code and create something amazing with drones! Capture your fun and all the action without using your flight controls

First person VR piloting for the Jumping Sumo Learn to program Arduino, drones, robots, connected toys, and smarthome devices, all wirelessly Select a flight plan and capture image data, ready for creating georeferenced maps Follow-me and attack mode for the Jumping Sumo! Become a Parrot Developer 1 : Register on the dev forum 2: Apply for developer discount 3 : Write some code!Show All Items This instructable will give you an EXTREMELY simple and quick way (< 15 minutes) to have an AR Parrot Drone 2.0 fly autonomously with code written by you! The best part of this project is it only requires the drone and a laptop (mac or windows). No modifications to the drone. I will also show you how to stream the video from the drone onto your laptop. Check out a sample program I wrote for my drone:   People have done CRAZY stuff with this, including having a drone that can follow peoples faces or be attracted to objects that are red. This guide is a step-by-step on how to use Felixge's node library to control your drone.

Definitely check out what he's done. I did this through trial and error and pared it down to the essentials, best of luck!Step 1: The DroneShow All Items To program your drone, you will first need a drone! I am using an AR Parrot Drone 2.0. The first version may work, but no promises. You can find them at Radioshack, Amazon, etc. First you will need to get comfortable just controlling the drone with you smartphone/tablet. Download one of the apps such as 'AR.FreeFlight 2.4' to control it. It might be a good idea to leave the indoor bumper hull on at first to minimize damage from collisions. I also suggest flying in an open field or park.NodeCopter.js is a full day event where 15 - 60 developers team up in groups of 3. Each team receives one Parrot AR Drone 2.0 and spends the day programming andAt the end of the day, each team gets to present their work to the other attendees. Want to hack on your drone, but no event in sight? Come and hang out in the #nodecopter IRC channel on freenode.net!

Also, make sure to be the first to find out about new events: Install Node.js and get theAll you need to do then is to execute the following code with node. That will make your drone take off, move around, do a flip and carefully land again. Parrot has just launched a new platform for developers! On Parrot for Developers, you will find all the necessary tools to develop applications for your Parrot drone : a new SDK, complete documentation, and sample code. The possibilities are endless! Now it’s time to imagine the next big application for your drone. Here are some examples of amazing application developed using the SDK : Tickle app lets you program and add intelligence to all Parrot Minidrones. Its beautifully designed interface makes programming as easy and fun as playing with LEGOs! Beyond controlling a single device, you can use Tickle to choreograph multiple drones to fly, jump, and sail together! It is the world’s first app to program drones, and the only app that supports all Parrot mini drones: including the latest generation of Airborne, Jumping, and Hydrofoil drones, plus Rolling Spider and Jumping Sumo.

Tickle’s is easy to learn, fun to use, yet incredibly powerful. Program multiple robots, drones, and smart-toys, using a familiar interface.” Tickle supports wireless programming of Arduino so you can easily integrate Parrot drones into your DIY maker projects for science fairs and maker faires. Top universities like UC Berkeley and Harvard have been teaching introductory Computer Science courses using visual programming. Tickle is the best visual programming app for wireless programming on mobile phones and tablets. Developers of UC Berkeley’s Snap programming language and the popular coding app Lightbot call Tickle “the most awesome blocks programming environment for iPad” and “the sleekest Scratch interface we’ve ever seen!” Parents around the world have been using Parrot drones and Tickle to teach coding to their children as young as 4 years old. Thousands of teachers are also using Tickle to teach a wide range of Science, Technology, Engineering, Art, and Math (STEM/STEAM) subjects from primary schools through high schools.

Beyond coding education, Tickle has been used for research projects by Computer Science graduate schools at top universities. Tickle supports all iOS devices running iOS 8 and 9, including iPhone, iPod Touch, and iPads. It is available in Chinese, Dutch, English, French, and Japanese, and have been used in more than 100 countries. Parrot and Tickle together are leading the way to make learning playful and fun, and have been featured by Apple at Apple Distinguished Educator events around the globe. Tickle’s software is a perfect match for Parrot’s hardware to advance the boundaries of education and entertainment. Launch Your Attack: Neurala Roboscope for Parrot Jumping MiniDrones As the robot closes in on its target, it increases its speed and jumps through the air landing just short of his foot. A successfully launched Roboscope attack! To start attacking today, download Neurala’s Roboscope app, powered with artificial-intelligence features and developed by the same firm that’s now working with NASA and the U.S. Air Force on other “smart learning” software.

Roboscope players may not be able to explore the surface of Mars or view Earth-bound targets from high in the sky. But players using Roboscope will get a unique preview of the future of Neurala’s robotic technologies that are being brought to earth for consumers. Using Neurala’s algorithm-driven software, Roboscope allows MiniDrone players, using pinch box features on their iPhones and iPads, to zero in on specific objects –or even people. Roboscope actually learns in real time where an object is located and moving — and then watches it in “recon” mode. After tapping commands to launch a “sneak attack” or “fast attack,” players can simply let go of their on-screen joy sticks and swipe controls – and let Roboscope take over to finish the robotic battle plan with a flourish of jumps, flips or spin actions. For future posterity, players can share photos and flip-books of their MiniDrone antics on social media sites such as Facebook, Twitter and Instagram.

Roboscope is Neurala’s first-generation foray into consumer products  — and it promises not to be its last. In addition to its artificial-intelligence tracking feature, Roboscope users operate Jumping Sumo and other Parrot Jumping MiniDrones from a live onboard camera view via their iPhone or iPad. An onscreen interface allows users to control movement, speed, and direction. Roboscope also has pre-programmed sound effects and screen-filter features that allow players to view video feeds in black-and-white, blurry, psychedelic or other filtered effects. Naturally, players can command their MiniDrones to jump, spin, flip, whirl and smack into anything they want at the push of a button. But the main feature of Roboscope is its embedded artificial-intelligence tracking algorithm. That’s what transforms the Parrot MiniDrone experience. Roboscope’s artificial intelligence feature is merely an early-stage peek at Neurala’s “deep learning algorithms” that it intends one day to embed in a wide variety of robotic technologies for NASA, the US Air Force and other customers.