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Mathematical Optimization in Robotics: Towards Automated High Speed Motion Planning

Please always quote using this URN: urn:nbn:de:0297-zib-2722
  • \def\KukaRob {{\sf KUKA IR\,761}} {\small Industrial robots have greatly enhanced the performance of automated manufacturing processes during the last decades. International competition, however, creates an increasing demand to further improve both the accuracy of off-line programming and the resulting cycle times on production lines. To meet these objectives, validated dynamic robot models are required. We describe in detail the development of a generic dynamic model, specialize it to an actual industrial robot \KukaRob, and discuss the problem of dynamic calibration. Efficient and robust trajectory optimization algorithms are then presented which, when integrated into a CAD system, are suitable for routine application in an industrial environment. Our computational results for the \KukaRob\ robot performing a real life transport maneuver show that considerable gains in productivity can be achieved by minimizing the cycle time.}

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Metadaten
Author:Marc Steinbach, H. Georg Bock, Georgii V. Kostin, Richard W. Longman
Document Type:ZIB-Report
Date of first Publication:1997/01/27
Series (Serial Number):ZIB-Report (SC-97-03)
ZIB-Reportnumber:SC-97-03
Published in:Appeared in: Surveys on Mathematics for Industry 7 (1998) 303-340
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