ICub explained

iCub
Imsize:230px
Manufacturer:Italian Institute of Technology
Country:Italy
Year Of Creation:2009–present
Type:Humanoid robot
Purpose:research, recreational
iCub software
Developer:Italian Institute of Technology
Latest Release Version:1.13.0
Programming Language:C++[1]
Operating System:Free/Libre operating systems: Linux, FreeBSD, NetBSD, OpenBSD;
Non-free operating systems: OS X, Windows
Genre:Artificial Intelligence, Robotics
License:GNU GPL/GNU LGPL[2] (Free software)

iCub is a one meter tall open source robotics humanoid robot testbed for research into human cognition and artificial intelligence.

It was designed by the RobotCub Consortium of several European universities, built by Italian Institute of Technology, and is now supported by other projects such as ITALK.[3] The robot is open-source, with the hardware design, software and documentation all released under the GPL license. The name is a partial acronym, cub standing for Cognitive Universal Body. Initial funding for the project was 8.5 million from Unit E5  - Cognitive Systems and Robotics  - of the European Commission's Seventh Framework Programme, and this ran for 65 months from 1 September 2004 until 31 January 2010.

The motivation behind the strongly humanoid design is the embodied cognition hypothesis, that human-like manipulation plays a vital role in the development of human cognition. A baby learns many cognitive skills by interacting with its environment and other humans using its limbs and senses, and consequently its internal model of the world is largely determined by the form of the human body. The robot was designed to test this hypothesis by allowing cognitive learning scenarios to be acted out by an accurate reproduction of the perceptual system, and an articulation of a small child so that it could interact with the world in the same way that such a child does.

Specifications

The dimensions of the iCub are similar to that of a 3.5-year-old child. The robot is controlled by an on-board PC104 controller which communicates with actuators and sensors using CANBus.

It utilises tendon driven joints for the hand and shoulder, with the fingers flexed by teflon-coated cable tendons running inside teflon-coated tubes, and pulling against spring returns. Joint angles are measured using custom-designed Hall-effect sensors and the robot can be equipped with torque sensors. The finger tips can be equipped with tactile touch sensors, and a distributed capacitive sensor skin is being developed.

The software library is largely written in C++ and uses YARP for external communication via Gigabit Ethernet with off-board software implementing higher level functionality, the development of which has been taken over by the RobotCub Consortium.[4] The robot was not designed for autonomous operation, and is consequently not equipped with onboard batteries or processors required for this - instead an umbilical cable provides power and a network connection.[4]

In its final version, the robot has 53 actuated degrees of freedom organized as follows:

The head has stereo cameras in a swivel mounting where eyes would be located on a human and microphones on the side. It also has lines of red LEDs representing mouth and eyebrows mounted behind the face panel for making facial expressions.

Since the first robots were constructed the design has undergone several revisions and improvements, for example smaller and more dexterous hands,[5] and lighter, more robust legs with greater joint angles and which permit walking rather than just crawling.[6]

Capabilities of iCub

The iCub has been demonstrated with capabilities to successfully perform the following tasks, among others:

iCubs in the world

These robots were built by Istituto Italiano di Tecnologia (IIT) in Genoa and are used by a small but lively community of scientists that use the iCub to study embodied cognition in artificial systems. There are about thirty iCubs in various laboratories mainly in the European Union but also one in the United States. The first researcher in North America to be granted an iCub was Stephen E. Levinson, for studies of computational models of the brain and mind and language acquisition.[18]

The robots are constructed by IIT and cost about €250,000[19] each depending upon the version.[20] Most of the financial support comes from the European Commission's Unit E5 or the Istituto Italiano di Tecnologia (IIT) via the recently created iCub Facility department.[21] The development and construction of iCub at IIT is part of an independent documentary film called Plug & Pray which was released in 2010.[22]

See also

External links

Notes and References

  1. https://github.com/robotology/icub-main iCub Source Code
  2. Web site: November 27, 2019 . iCub . The iCub is distributed as Open Source following the GPL/LGPL licenses and can now count on a worldwide community of enthusiastic developers..
  3. Web site: Official iCub website. An open source cognitive humanoid robotic platform . 2010-07-30.
  4. The iCub humanoid robot: an open platform for research in embodied cognition. Giorgio . Metta. Sandini Giulio . Vernon David . Natale Lorenzo . Nori Francesco . 2008. PerMIS’08. 2018-01-01.
  5. Web site: iCub gets upgraded with tinier hands, better legs . Engadget . June . Laura . 12 March 2010 . 2010-07-30.
  6. The Mechanical Design of the New Lower Body for the Child Humanoid robot 'iCub'. IEEE International Conference on Robotics and Automation Conference, (ICRA 2009). Tsagarakis. N.G.. Vanderborght Bram. Laffranchi Matteo. Caldwell D.G. 2010-07-30. https://web.archive.org/web/20110720064920/http://www.robotcub.org/misc/review5/papers/09_Tsagarakis_etal.pdf. 20 July 2011. dead.
  7. 16 April 2010 . Crawling . iCub HumanoidRobot . . 18 February 2022 . https://web.archive.org/web/20160611011417/https://www.youtube.com/watch?v=JRqdIFCIZd8 . 11 June 2016 . live.
  8. Learning to Fire at Targets by an iCub Humanoid Robot . AAAI Spring Symposium 2013 : Designing Intelligent Robots : Reintegrating AI II . Nath . Vishnu . Stephen Levinson . 2013-09-29 . 4 March 2016 . https://web.archive.org/web/20160304053716/http://www.aaai.org/ocs/index.php/SSS/SSS13/paper/viewFile/5701/5935 . dead .
  9. 8 March 2013 . iCub autonomously solving a puzzle . Vishnu Nath . . 18 February 2022 . https://web.archive.org/web/20160516231730/https://www.youtube.com/watch?v=78u8FkVc3Jc . 16 May 2016 . live.
  10. Learning the skill of archery by a humanoid robot iCub . IEEE International Conference on Humanoid Robots, (Humanoids 2010) . Kormushev . Petar . Calinon Sylvain . Saegusa Ryo . Metta Giorgio . 2011-03-19 .
  11. 22 September 2010 . Robot Archer iCub . PetarKormushev . . 18 February 2022 . https://web.archive.org/web/20210122123623/https://www.youtube.com/watch?v=QCXvAqIDpIw . 22 January 2021 . live.
  12. 17 March 2009 . iCub facial expressions . Vislab Lisboa . . 18 February 2022 . https://web.archive.org/web/20200905011140/https://www.youtube.com/watch?v=qsrs0e_9iX8 . 5 September 2020 . live.
  13. 11 October 2010 . Force control exploiting proximal force/torque sensors - pt.2 . iCub HumanoidRobot . . 18 February 2022 . https://web.archive.org/web/20160609211550/https://www.youtube.com/watch?v=sUErJodlPtQ . 9 June 2016 . live.
  14. Web site: Toward Intelligent Humanoids . iCub manipulating a variety of objects . 2013-07-22 . https://web.archive.org/web/20140310224232/http://vimeo.com/51011081 . 10 March 2014 . dead .
  15. The Modular Behavioral Environment for Humanoids & other Robots (MoBeE) . Mikhail . Frank . Jürgen Leitner . Marijn Stollenga . Gregor Kaufmann . Simon Harding . Alexander Förster . Jürgen Schmidhuber . 9th International Conference on Informatics in Control, Automation and Robotics (ICINCO) .
  16. Transferring Spatial Perception Between Robots Operating In A Shared Workspace . IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2012) . Jürgen ‘Juxi’ . Leitner . Simon Harding . Mikhail Frank . Alexander Förster . Jürgen Schmidhuber .
  17. Task-Relevant Roadmaps: A Framework for Humanoid Motion Planning . IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2013) . Marijn . Stollenga . Leo Pape . Mikhail Frank . Jürgen Leitner . Alexander Förster . Jürgen Schmidhuber.
  18. Web site: Humanoid Robot Learns Like a Child. Discovery News. February 11, 2013.
  19. Web site: XE: (EUR/USD) Euro to US Dollar Rate. www.xe.com. 2015-11-20.
  20. Web site: Archived copy . iCub website . 2010-07-30 . 17 February 2018 . https://web.archive.org/web/20180217063420/http://www.icub.org/bazaar.php . dead .
  21. Web site: The iCub humanoid robot project. Istituto Italiano di Tecnologia (IIT). 1 January 2018.
  22. http://www.plugandpray-film.de/en/content.html Plug & Pray