Robot Operating System

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Robot Operating System
ROS Kinetic Kame version logo
Cart pushing simulation in RVIZ
Original author(s) Willow Garage
Stanford Artificial Intelligence Laboratory
Initial release 2007; 12 years ago (2007)
Stable release Kinetic Kame[1] / 23 May 2016; 2 years ago (2016-05-23)
Development status Active
Written in C++ or Python
Operating system Linux
Type Robotics suite, OS, library
License BSD license

Robot Operating System (ROS) is a collection of software frameworks for robot software development, (see also Robotics middleware) providing operating system-like functionality on a heterogeneous computer cluster. ROS provides standard operating system services such as hardware abstraction, low-level device control, implementation of commonly used functionality, message-passing between processes, and package management. Running sets of ROS-based processes are represented in a graph architecture where processing takes place in nodes that may receive, post and multiplex sensor, control, state, planning, actuator and other messages. Despite the importance of reactivity and low latency in robot control, ROS, itself, is not a Realtime OS, though it is possible to integrate ROS with realtime code.[2]

Software in the ROS Ecosystem[3] can be separated into three groups:

  • Language-and platform-independent tools used for building and distributing ROS-based software;
  • ROS client library implementations such as roscpp,[4] rospy,[5] and roslisp;[6]
  • Packages containing application-related code which uses one or more ROS client libraries.

Both the language-independent tools and the main client libraries (C++, Python, LISP) are released under the terms of the BSD license, and as such are open source software and free for both commercial and research use. The majority of other packages are licensed under a variety of open source licenses. These other packages implement commonly used functionality and applications such as hardware drivers, robot models, datatypes, planning, perception, simultaneous localization and mapping, simulation tools, and other algorithms.

The main ROS client libraries (C++, Python, LISP) are geared toward a Unix-like system, primarily because of their dependence on large collections of open-source software dependencies. For these client libraries, Ubuntu Linux is listed as "Supported" while other variants such as Fedora Linux, Mac OS X, and Microsoft Windows are designated "Experimental" and are supported by the community.[7] The native Java ROS client library, rosjava, however, does not share these limitations and has enabled ROS-based software to be written for the Android OS.[8] rosjava has also enabled ROS to be integrated into an officially-supported MATLAB toolbox which can be used on Linux, Mac OS X, and Microsoft Windows.[9] A JavaScript client library, roslibjs has also been developed which enables integration of software into a ROS system via any standards-compliant web browser.


ROS was originally developed in 2007 under the name switchyard by the Stanford Artificial Intelligence Laboratory in support of the Stanford AI Robot STAIR (STanford AI Robot)[10][11] project.

Description of STAIR on its homepage : —

Our single robot platform will integrate methods drawn from all areas of AI, including machine learning, vision, navigation, planning, reasoning, and speech/natural language processing. This is in distinct contrast to the 30-year trend of working on fragmented AI sub-fields, and will be a vehicle for driving research towards true integrated AI.

From 2008 until 2013, development was performed primarily at Willow Garage, a robotics research institute/incubator. During that time, researchers at more than twenty institutions collaborated with Willow Garage engineers in a federated development model.[12][13]

In February 2013, ROS stewardship transitioned to the Open Source Robotics Foundation.[14] In August 2013, a blog posting[15] announced that Willow Garage would be absorbed by another company started by its founder, Suitable Technologies. The support responsibilities for the PR2 created by Willow Garage were also subsequently taken over by Clearpath Robotics.[16]


ROS areas include:

  • A master coordination node
  • Publishing or subscribing to data streams: images, stereo, laser, control, actuator, contact ...
  • Multiplexing information
  • Node creation and destruction
  • Nodes are seamlessly distributed, allowing distributed operation over multi-core, multi-processor, GPUs and clusters
  • Logging
  • Parameter server
  • Test systems

ROS Package application areas will include:

ROS -Industrial[17] is a BSD-licensed “hardware-agnostic” software development program to create a Unified Robot Description Format (URDF) for industrial robots.

Version History

ROS releases may be incompatible with other releases and are often referred to by code name rather than version number. The major releases so far are:

Distro Release date Poster EOL date
Kinetic Kame May 23, 2016 75px Current stable version: 2021-05-30
Jade May 23, 2015 75px Older version, yet still supported: 2017-05-30
Indigo July 22, 2014 75px Older version, yet still supported: 2019-04-30
Hydro September 4, 2013 75px Old version, no longer supported: 2014-05-31
Groovy Galapagos December 31, 2012 75px Old version, no longer supported: 2014-07-31
Fuerte Turtle April 23, 2012 75px
Electric Emys August 30, 2011 75px
Diamondback March 2, 2011 75px
C Turtle August 2, 2010 75px
Box Turtle March 2, 2010 75px
Old version
Older version, still supported
Latest version
Latest preview version
Future release

Ports to robots and boards

  • ABB, Adept, Motoman, and Universal Robots are supported by ROS-Industrial
  • Baxter[18] at Rethink Robotics, Inc.
  • BeagleBoard. The robotics lab of the Katholieke Universiteit Leuven, Belgium:[19] has ported ROS to the Beagleboard
  • HERB[20] developed at Carnegie Mellon University in Intel's personal robotics program
  • Husky A200[21] robot developed (and integrated into ROS) by Clearpath Robotics
  • PR1[22] personal robot developed in Ken Salisbury's lab at Stanford
  • PR2[23] personal robot being developed at Willow Garage
  • Raven II Surgical Robotic Research Platform[24][25]
  • rosbridge protocol and server[26] Brown University[27] developed the rosbridge protocol to enable any robot or computing environment to integrate with ROS using JSON-based messaging, such as for common web browsers, Matlab, Microsoft Windows, OS X, and embedded systems
  • Shadow Robot Hand[28] – A Fully dexterous humanoid hand.
  • STAIR I and II[29] robots developed in Andrew Ng's lab at Stanford
  • SummitXL:[30] Mobile robot developed by Robotnik, an engineering company specialized in mobile robots, robotic arms and industrial solutions with ROS architecture.
  • Nao[31] humanoid: University of Freiburg's Humanoid Robots Lab[32] developed a ROS integration for the Nao humanoid based on an initial port by Brown University[33][34]
  • UBR1[35][36] developed by Unbounded Robotics, a spin-off of Willow Garage.

ROS Packages

  • Roscopter[37] is a ROS interface for ArduCopter using Mavlink 1.0 interface. roscopter gives data and information on IMU, GPS, RC Input, airspeed, groundspeed, heading, throttle, alt, climb states. It can also control airborne devices by passing RC values back to ArduCopter. Currently its only available for Hydro or lower version[38] of ROS.

See also


  1. "ROS Kinetic Kame". Retrieved 2015-06-01.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  2. ROS-Introduction
  3. "Browsing packages for indigo". ROS. Retrieved 21 February 2016.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  4. "Package Summary". ROS. Retrieved 21 February 2016.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  5. "Package SUmmary". ROS. Retrieved 21 February 2016.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  6. "Package Summary". ROS. Retrieved 21 February 2016.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  7. "ROS/Installation - ROS Wiki". 2013-09-29. Retrieved 2014-07-12.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  8. "android - ROS Wiki". 2014-04-12. Retrieved 2014-07-12.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  9. "Robot Operating System (ROS) Support from MATLAB - Hardware Support". Retrieved 2014-07-12.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  10. STanford Artificial Intelligence Robot
  11. Morgan Quigley, Eric Berger, Andrew Y. Ng (2007), STAIR: Hardware and Software Architecture (PDF), AAAI 2007 Robotics Workshop <templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  12. "Repositories". Retrieved 7 June 2011.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  13. Morgan Quigley, Brian Gerkey, Ken Conley, Josh Faust, Tully Foote, Jeremy Leibs, Eric Berger, Rob Wheeler, Andrew Ng. "ROS: an open-source Robot Operating System" (PDF). Retrieved 3 April 2010. <templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  14. "Osrf - Ros @ Osrf". 2013-02-11. Retrieved 2014-07-12.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  15. "employees join Suitable Technologies". Willow Garage. Retrieved 2014-07-12.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  16. Robotics Corner 2014/01/15 (2014-01-15). "Clearpath Welcomes PR2 to the Family". Clearpath Robotics. Retrieved 2014-07-12.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  17. ROS-Industrial
  18. Baxter
  19. K U leuven
  20. HERB
  21. Husky A200
  22. PR1
  23. PR2
  24. B. Hannaford, J. Rosen, Diana CW Friedman, H. King, P. Roan, L. Cheng, D. Glozman, J. Ma, S.N. Kosari, L. White, 'Raven-II: AN Open Platform for Surgical Robotics Research,' IEEE Transactions on Biomedical Engineering, vol. 60, pp. 954-959, April 2013.
  25. "BioRobotics Laboratory | Biorobotics Laboratory - University of Washington". Retrieved 2014-07-12.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  26. rosbridge protocol and server
  27. brown-robotics
  28. SDH
  29. STAIR I and II
  30. "Summit XL - Robotnik". Retrieved 2014-07-12.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  31. "nao - ROS Wiki". 2013-10-28. Retrieved 2014-07-12.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  32. Humanoid Robots Lab
  33. brown-robotics
  34. G.T. Jay, Post to ros-users mailing list announcing ROS support for the Nao
  35. "Specification". Unbounded Robotics. Retrieved 2014-07-12.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  36. Ackerman, Evan (2013-10-21). "UBR-1 Robot From Unbounded Robotics Revolutionizes Affordable Mobile Manipulation - IEEE Spectrum". Retrieved 2014-07-12.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  37. "roscopter". Retrieved 2014-09-09.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  38. "tested versions". Retrieved 2014-09-09.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  • STAIR: The STanford Artificial Intelligence Robot project, Andrew Y. Ng, Stephen Gould, Morgan Quigley, Ashutosh Saxena, Eric Berger. Snowbird, 2008.

Related projects

External links