Archie (robot)

Archie is a humanoid robot, developed in TU Wien (TUW) in Austria and University of Manitoba in Canada.[1][2] The development of Archie started in 2004 at the Institute of Handling Robots and Devices (IHRT) under supervision of Professor Peter Kopacek. Archie is in class a Teen size Humanoid and is over 120 cm tall. Lower body of Archie is designed and driven using brushless motors that are able to provide 50 Nm moment after the gearbox output. For Archie's joints Harmonic drives are employed in order to decreasing the size of the design and increasing the efficiency of the Robot. Each joint is controller individually and can provide a high performance motion control. All the joints are connected to central control unit using a customized high speed network. Archie's central controller unit is called Spinal system which is designed to control the whole robot as well as maintaining the balance of the robot. For the balance in the robot, the "Spinal system" uses the feedback from the joints and the data from an inertial measurement unit (IMU). Electronic design and implementation of Archie is done by Ahmad Byagowi as his PhD thesis required project.

Control System

The control system of Archie is based on a hierarchy structure with a central controller. The central controller which entitles an HydraXC50 (Xilinx Virtex 4 FPGA) is designed to run a Real Time Linux (RT-Linux) beside some application based hardware. For instance, the communication (back and forth) between the central controller and the joints of the robot is designated as a task for the application based hardware. As a rough explanation, the communication hardware used in the central controller acts like a graphic card. Detailed explanation can be found in related reference.[3][4]

Notes

  1. Byagowi, Ahmad; Peter Kopacek; Jacky Baltes (August 28 – September 2, 2011). ""Archie": A Cost Oriented Humanoid Robot" (PDF). IFAC World Congress Milano (Italy).
  2. Baltes, Jacky; Peter Kopacek; Ahmad Byagowi; John Anderson (2009). "Teen sized Humanoid Robot: Archie". Robocup 2009, Humanoid League.
  3. Byagowi, Ahmad (2010). Control System for a Humanoid Robot. Austria: University of Manitoba. p. 190.
  4. Byagowi, Ahmad; Peter Kopacek (14 June 2010). "INTELLIGENT ROBOTS AND COMPUTER VISION: Contributions to the 1st Austrian-Taiwanese-Canadian Workshop" (PDF). International Journal Automation Austria. 18. ISSN 1562-2703.



gollark: I have my reasons.
gollark: Still didn't work.
gollark: For LAN use, I mean.
gollark: I was TRYING to make UDP/IPv6 multicast work, except the libc(/POSIX? who knows) APIs for this appear to be terrible and not map onto the actual protocols at all.
gollark: I was using socket2, which provides a thin wrapper over Windows/libc sockets.
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