Toward fully autonomous mobile manipulation for industrial environments
Clicks: 314
ID: 66386
2017
This work presents a concept for autonomous mobile manipulation in industrial environments. Utilizing autonomy enables an unskilled human worker to easily configure a complex robotics system in a setup phase before carrying out fetch and carry operations in the execution phase. In order to perform the given tasks in real industrial production sites, we propose a robotic system consisting of a mobile platform, a torque-controlled manipulator, and an additional sensor head. Multiple sensors are attached which allow for perception of the environment and the objects to be manipulated. This is essential for coping with uncertainties in real-world application. In order to provide an easy-to-use and flexible system, we present a modular software concept which is handled and organized by a hierarchical flow control depending on the given task and environmental requirements. The presented concept for autonomous mobile manipulation is implemented exemplary for industrial manipulation tasks and proven by real-world application in a water pump production site. Furthermore, the concept has also been applied to other robotic systems and other domains for planetary exploration with a rover.
| Reference Key |
domel2017towardinternational
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| Authors | Dömel, Andreas;Kriegel, Simon;Kaßecker, Michael;Brucker, Manuel;Bodenmüller, Tim;Suppa, Michael; |
| Journal | international journal of advanced robotic systems |
| Year | 2017 |
| DOI | DOI not found |
| URL | |
| Keywords |
Technology
environmental effects of industries and plants
renewable energy sources
environmental sciences
social sciences (general)
social sciences
electronics
meteorology. climatology
environmental engineering
sociology (general)
electronic computers. computer science
geography. anthropology. recreation
environmental technology. sanitary engineering
military science
disasters and engineering
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