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A framework for a fault tolerant and learning robotic assembly system

 
: Nägele, Frank; Naumann, Martin; Verl, Alexander

Berns, Karsten (Chair); Verl, Alexander (Vice Chair); Hägele, Martin (Session Chair) ; Deutsche Gesellschaft für Robotik; Informationstechnische Gesellschaft im VDE; Fraunhofer-Institut für Produktionstechnik und Automatisierung -IPA-, Stuttgart; TU Kaiserslautern:
ROBOTIK 2012, 7th German Conference on Robotics 2012. Proceedings. CD-ROM : 21-22 May 2012, Munich in Conjunction with Automatica 2012
Berlin: VDE-Verlag, 2012
ISBN: 978-3-8007-3418-4
pp.434-439
German Conference on Robotics (ROBOTIK) <7, 2012, Munich>
International Trade Fair on Automation and Mechatronics (AUTOMATICA) <5, 2012, Munich>
European Commission EC
FP7-ICT; 230902; ROSETTA
English
Conference Paper
Fraunhofer IPA ()
lernendes System; assembly; assembly robot; Montagesystem; Roboter; Industrieroboter; Montageroboter; fehlertolerantes System

Abstract
Integrating robots into a hybrid assembly line with both human workers and robots presents a big challenge. The robots have to cope with an unstructured environment, designed for and inhabited by humans. This requires the robotic system to be more fault tolerant than usual, so unforeseen situations can be handled autonomously and productivity can be ensured. In this paper, a six stage framework for a fault tolerant robotic assembly system is presented. The three basic stages are error detection, reasoning and recovery. Recovery is handled on six succeeding levels with increasing possibilities - but also with the increasing need for user interaction and thus with a decreasing degree of autonomy. In addition, the framework's components have the ability to improve themselves by learning. Concepts are shown how each of the three basic stages can be adapted to a changing environment. The paper also addresses the ease of deployment and usage of such an assembly system with the two topmost levels: Portability handles the reuse of the framework's components and the learned knowledge; usability is concerned with providing an intuitive way for the user to utilize the presented framework.

: http://publica.fraunhofer.de/documents/N-208327.html