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Revision as of 05:35, 5 March 2014 by Flixr (talk | contribs) (v5.0.4 maintenance release)
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Welcome To Paparazzi

Favicon32.png General

Favicon32.png Hardware

Favicon32.png Software

Favicon32.png Miscellaneous

Blog
Blog
Mailinglist
Mailinglist
Chat
Chat
Download
Download
GitHub
GitHub
YouTube
YouTube

The Paparazzi Project

Paparazzi is a free and open-source hardware and software project encompassing an exceptionally powerful and versatile autopilot system for fixedwing aircrafts as well as multicopters. Being open enables you to add more features and improve the system. Using and improving Paparazzi is wholeheartedly encouraged by the community. Because of lots of enthousiasts like you , Paparazzi is swiftly evolving into an even more powerful system.

The project includes not only the sourcecode with great code like Kalman filtering code but even all airborne hardware information needed, from Autopiot boards to zesty designed IMU's. A powerful ever-expanding array of ground hardware and software including modems, antennas, and a highly evolved user-friendly ground control station is included as icing on the cake.

All hardware and software is open-source and freely available to you under the GNU licencing agreement.

Several vendors are currently producing and selling Paparazzi autopilots and popular accessories, making the system easy and affordable for everyone.

Jump on the plane and join the Paparazzi UAS project; Enjoy the flight and develop alongside a multitude of individuals and at numerious universities, e.g. ENAC University France, MAVlab of the TU-Delft and AggieAir of Utah State University.

Legal disclaimer

The Paparazzi software source and hardware design is distributed without any guarantee. Before flying, please refer to your country national aviation regulation for Unmanned Aerial Systems, or the one of the country you intend to overfly.

Latest stable release

v5.0.4_stable

Download as tarball or checkout the v5.0 branch from git.

Releases can be found at https://github.com/paparazzi/paparazzi/releases

Video Collection

News

January 27th, 2014

SUMO on the Ross Ice Shelf

John Cassano from the University of Colorado has been flying Paparazzi equipped SUMOs in a remote camp in Antarctica over the last two weeks. See his blog for a detailed report.

January 8th, 2014

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To make documenting and learning about Paparazzi easier we have updated the Wiki to the latest Mediawiki version (1.22). This new wiki provides very improved search of the many articles, as well as video embed tags. You can easily embed a youtube video to your article by writing {{#ev:youtubehd|videoID}}, or a vimeo video by adding {{#ev:vimeo|videoID}}. The wiki is hosted on a new dedicated Paparazzi UAV server so it should be faster now too.

December 27-30th, 2013

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The 30C3 – 30th Chaos Communication Congress was held in the Congress Center Hamburg December 2013. We were present there as part of the Paparazzi UAV Assembly.

November 27th, 2013

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Due to popular demand, Lisa/S and SuperbitRF is available for early pre-order from 1 BIT SQUARED.

October 1st, 2013

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IMAV2013!


The Mavlab team of TU Delft consisted of 12 people coming from aerospace, computer science, embedded programming and artificial intelligence. Thanks to the enormous team efforts in the last months, the team has won prizes in all the categories in which it participated:

Outdoor: 1st price

with an autonomous swarm of 12 MAVs operated by a single operator. The MAVs only had to be plugged in and started their own flight plan, while the operator could monitor their mission status and intervene where necessary. Our participation featured four main innovations: (1) a single operator for 12 MAVs, 3 hybrid UAVs, 7 Parrot AR drones and 2 mini-quadrotors, (2) onboard vision processing on the AR drone with Paparazzi, (3) hybrid UAVs able to fly under any attitude, and (4) the world's smallest open source autopilot, Lisa S (2 grams). The wind conditions were terrible on the outdoor competition day, with 6 Bft, and most teams had their MAVs blown away. Everybody was impressed how the hybrid UAVs were able to cope nicely with these conditions and were still able to perform a precision landing.


Indoor Operations: 1st price

Indoor Autonomy: 3rd price

Indoor the mission consisted of elements such as flying through a window and obstacle zone. We were the only participants to use a flapping wing MAV, which was in size and weight by far the smallest competing MAV (28 cm wing span, 20g). We demonstrated some autonomous flight capabilities such as autonomous takeoff (a world's first), and the capabilities of the DelFly as a First Person View-platform, where the operator flies the MAV on basis of its onboard images. All elements were performed by the operator.

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News Archives

Browse the archives for a look back at the earlier days of Paparazzi.