Mobile manipulator
A mobile manipulator is a robot system built from a robotic manipulator arm mounted on a mobile platform. Such systems combine the advantages of mobile platforms and robotic manipulator arms and reduce their drawbacks. For instance, the mobile platform extends the workspace of the arm, whereas an arm offers several operational functionalities.
Description
A mobile manipulation system offers a dual advantage of mobility offered by a mobile platform and dexterity offered by the manipulator. The mobile platform offers unlimited workspace to the manipulator. The extra degrees of freedom of the mobile platform also provide user with more choices. However, the operation of such a system is challenging because of the many degrees of freedom and the unstructured environment that it performs in.General system composition:
- Mobile platform
- Robot manipulator
- Vision
- Tooling
Motivation
mobile manipulators, either autonomous or teleoperated, are used in many areas, e.g. space exploration, military operations, home-care and health-care. However, within the industrial field the implementation of mobile manipulators has been limited, although the needs for intelligent and flexible automation are present. In addition, the necessary technology entities are, to a large extent, available off-the-shelf components.
A reason for this is that the manufacturing industries act traditionally and, therefore, have reluctance in
taking risks by implementing new technologies. Also, within the field of industrial mobile manipulation the
centre of attention has been on optimization of the individual technologies, especially robot manipulators
and tooling, while the integration, use and application have been neglected. This means that few implementations of mobile robots, in production environments, have been reported – e.g. and.
Timeline
Year | Robot name | Company / Research Institute |
1996 | LAAS-CNRS, France | |
2000 | Jaume | Robotic Intelligence Lab, Jaume I University, Spain |
2004 | FAuStO | University of Verona, Italy |
2006 | Neobotix GmbH, Germany | |
2009 | Department of Production, Aalborg University, Denmark | |
2012 | Robotnik Automation & Barrett Technologies, Spain & United States | |
2013 | Unbounded Robotics, United States | |
2013 | Robotnik Automation & Barrett Technologies, Spain & United States | |
2015 | AIMEN, Spain | |
2015 | Robotnik Automation & Kinova Robotics, Spain & Canada | |
2018 | MuR 205 | , Leibniz University Hanover, Germany |