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(Updated Project description with more detail and links.)
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|style="color:#000"|'''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 enthusiasts like you , Paparazzi is swiftly evolving into an even more powerful system.  
|style="color:#000"|'''[http://paparazziuav.org Paparazzi UAV]''' (Unmanned Aerial Vehicle) is an open-source drone hardware and software project encompassing autopilot systems for multicopters/multirotors, fixedwing, 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.


The project includes not only the sourcecode with great code like [http://en.wikipedia.org/wiki/Kalman_filtering Kalman filtering] code but even all airborne hardware information needed, from Autopilot 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.
The project includes [https://github.com/paparazzi/paparazzi source-code] for the avionics and the ground station computers as well as the hardware designs for many parts of the avionics system. Paparazzi’s avionics software is designed with portability in mind. Allowing for the use of the Paparazzi UAV system on many varied hardware platforms. The ground station computer software is written in statically typed functional language assuring reliability and stability of the system.  
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|All hardware and software is open-source and freely available to you under the [http://www.gnu.org GNU] licencing agreement.  


[[Get_Hardware| Several vendors]] are currently producing and selling Paparazzi autopilots and popular accessories, making the system easy and affordable for everyone.  
Unlike other systems, [http://paparazziuav.org Paparazzi UAV] was designed with autonomous flight as the primary focus and manual flying as the secondary. From the beginning it was designed to be able to control multiple aircraft within the same system. Paparazzi features a dynamic flight plan system that is defined by mission states and using way points as “variables”. This makes it easy to create very complex fully automated missions without the operators intervention.  


Jump on the plane and join the Paparazzi [http://en.wikipedia.org/wiki/Unmanned_Aircraft_System UAS] project; Enjoy the flight and develop alongside a multitude of individuals and at numerous universities, e.g. [http://www.enac.fr/ ENAC University France], [http://www.mavlab.info/ MAVlab] of the TU-Delft and [http://aggieair.usu.edu/ AggieAir] of Utah State University.
Since its founding in 2003, Universities and civilian teams have employed Paparazzi to win top marks in high profile airborne robotics competitions around the world; thereby, proving the flexibility, durability and advanced features embedded in the Paparazzi framework. Many of these top marks and achievements have been documented on our [http://blog.paparazziuav.org blog].
 
Several core developers to the project are affiliated with universities and research institutions. These include, [http://www.enac.fr/en/home ENAC University] of Toulouse, France, [http://mavlab.lr.tudelft.nl/ MAVlab] of [http://www.tudelft.nl/en/ TU-Delft] in the Netherlands and [http://aggieair.usu.edu/ AggieAir] of Utah State University in the United States.
 
Several vendors are currently producing and selling Paparazzi autopilots and popular accessories, making the system easy and affordable for everyone. Some of the companies were founded by core developers of the [http://paparazziuav.org Paparazzi UAV project] as a way to provided well tested and integrated hardware to the Paparazzi community. For example, [http://1bitsquared.com/ 1BitSquared] is developing [http://1bitsquared.com/collections/autopilots avionics hardware] and providing consulting services for system integration, software development as well as custom [http://1bitsquared.com/collections/hardware-kits/products/lisa-s-nano-quadcopter-kit nano UAV hardware] development.
 
Paparazzi can be used for many applications from the emerging personal UAV market to advanced hobbyists, as well as University and civilian research programs and competitions. It is also being used in the field in daily operations, for example, [[SUMO]] is being used by [http://blog.pfump.org/?lang=en meteorological researchers] as reusable weather balloons for collecting data in the Antarctic. The multitude of applications for Paparazzi are endless, so join the community and contribute to the project with your innovative ideas.


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Revision as of 03:36, 19 July 2015


Welcome To Paparazzi

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The Paparazzi Project

Paparazzi UAV (Unmanned Aerial Vehicle) is an open-source drone hardware and software project encompassing autopilot systems for multicopters/multirotors, fixedwing, 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.

The project includes source-code for the avionics and the ground station computers as well as the hardware designs for many parts of the avionics system. Paparazzi’s avionics software is designed with portability in mind. Allowing for the use of the Paparazzi UAV system on many varied hardware platforms. The ground station computer software is written in statically typed functional language assuring reliability and stability of the system.

Unlike other systems, Paparazzi UAV was designed with autonomous flight as the primary focus and manual flying as the secondary. From the beginning it was designed to be able to control multiple aircraft within the same system. Paparazzi features a dynamic flight plan system that is defined by mission states and using way points as “variables”. This makes it easy to create very complex fully automated missions without the operators intervention.

Since its founding in 2003, Universities and civilian teams have employed Paparazzi to win top marks in high profile airborne robotics competitions around the world; thereby, proving the flexibility, durability and advanced features embedded in the Paparazzi framework. Many of these top marks and achievements have been documented on our blog.

Several core developers to the project are affiliated with universities and research institutions. These include, ENAC University of Toulouse, France, MAVlab of TU-Delft in the Netherlands and AggieAir of Utah State University in the United States.

Several vendors are currently producing and selling Paparazzi autopilots and popular accessories, making the system easy and affordable for everyone. Some of the companies were founded by core developers of the Paparazzi UAV project as a way to provided well tested and integrated hardware to the Paparazzi community. For example, 1BitSquared is developing avionics hardware and providing consulting services for system integration, software development as well as custom nano UAV hardware development.

Paparazzi can be used for many applications from the emerging personal UAV market to advanced hobbyists, as well as University and civilian research programs and competitions. It is also being used in the field in daily operations, for example, SUMO is being used by meteorological researchers as reusable weather balloons for collecting data in the Antarctic. The multitude of applications for Paparazzi are endless, so join the community and contribute to the project with your innovative ideas.

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

v5.4.2_stable

paparazzi.png?branch=v5.4,?.png Download as tarball or checkout the v5.4 branch from git. Releases can be found at https://github.com/paparazzi/paparazzi/releases

Video Collection

Blog News

ENAC Team wins at IMAV2022
The International Conference and Competition on MAV was organized by TUDelft mid-September 2022. The ENAC took part to the outdoor competition, a package delivery challenge, with several multi-rotors and a hybrid tail-sitter, all powered by Paparazzi. They won the competition with a quite large amount of points. Nevertheless, all teams performed well with some innovative … Continue reading ENAC Team wins at IMAV2022
Gautier Hattenberger 2023-02-22 12:39:52
Paparazzi v5.18 is out, v6.0 is starting
The latest Paparazzi stable release is out today with many changes and addition since 5.16 one year ago. One of the biggest changes is the complete rewrite of the build system for the aircraft code generation (good old Ocaml stuff), plus the addition of a proper dependency resolution for the modules. It has no big … Continue reading Paparazzi v5.18 is out, v6.0 is starting
Gautier Hattenberger 2021-04-13 11:47:01
3D Guiding for fixed-wing aircraft
Now, you can have your aircraft tracking a (smooth) 3D parametric trajectory.  This is an extension of the existing GVF in Paparazzi, in fact, now we allow even 2D trajectories with self-intersections. It is based on our accepted article in IEEE Transactions on Robotics Singularity-free Guiding Vector Field for Robot Navigation All the instructions to … Continue reading 3D Guiding for fixed-wing aircraft
Hector Garcia de Marina 2020-12-08 20:32:10
Paparazzi at the SPLASH2020-REBASE Conference
The Paparazzi UAV System as a research tool will be presented as an invited talk at the SPLASH2020-REBASE conference (Mon 16 Nov 2020 18:00, Paris time). See the program of the conference for details. The presentation will be available on live and free youtube. https://2020.splashcon.org/details/splash-2020-rebase/19/Paparazzi-an-open-source-UAV-for-research UPDATE: the video of the conference is online
Gautier Hattenberger 2020-11-15 19:18:31
Flight Campaign at Barbados Island
Enac UAV lab have participated to an atmospheric research flight campaign at the Barbados Island for three weeks from end of January 2020.  This was part of a project called NEPHELAE in collaboration with the French National Meteorological Research Center from Météo-France and the robotics lab LAAS-CNRS. NEPHELAE is atmospheric science driven (with a focus … Continue reading Flight Campaign at Barbados Island
Gautier Hattenberger 2020-03-04 10:35:30
Crazyflie v2.1 with Paparazzi onboard
The popular Open-Source platform Crazylie v2.1 from Bitcraze is now supported by Paparazzi. Only the main frame, with IMU, barometer as well as the NRF communication is working. A bridge between the Crazyradio and the Ivy bus allows the direct and easy connection of the Crazyflie to the ground station. More sensor decks will be … Continue reading Crazyflie v2.1 with Paparazzi onboard
Gautier Hattenberger 2020-02-03 20:44:58
Running Paparazzi on Windows
Since there are many Windows users who like to try paparazzi on this popular OS and Microsoft introduced the possibility of running Ubuntu programs and tools on windows 10, now Paparazzi developer team is pleased to announce the initial release of the Windows10 support of Paparazzi. The installation process is not so much different from … Continue reading Running Paparazzi on Windows
Gautier Hattenberger 2019-04-10 18:56:31
Paparazzi wins at IMAV2018
Enac UAV team and TUDelft MAVLAB team took part to the IMAV2018 conference and competition in Australia with great success! For the first time, the two academic lead developers of the Paparazzi UAV system join efforts to participate to the Outdoor competition and won this event far ahead. Several tasks have been completed, including a … Continue reading Paparazzi wins at IMAV2018
Gautier Hattenberger 2018-11-28 16:24:44
UAV Network Intrusion Detection with Wavelet-based Signature Analysis
This is a first step of a hybrid IDS method based on the analysis of spectral traffic and a robust controller / observer for the estimation of anomalies in UAV networks. This module is currently designed to observe the traffic between the drones and the Paparazzi GCS. It provides a statistic signature of the traffic … Continue reading UAV Network Intrusion Detection with Wavelet-based Signature Analysis
Gautier Hattenberger 2018-06-21 14:29:55
Opening ENAC’s flying arena
Since the beginning of the year, ENAC (French Civil Aviation University) is equipped with a new facility dedicated to UAVs research and education. The building includes a flying arena with a size around 10x10x10 meters, several workshops for mechanics, electronic, composite, 3D printing and storage. It also includes a teaching room for automatic control and … Continue reading Opening ENAC’s flying arena
Gautier Hattenberger 2018-06-15 21:25:04