Title :
Production assistants: The rob@work family
Author :
Drust, Manuel ; Dietz, Thomas ; Pott, Andreas ; Verl, A.
Author_Institution :
Fraunhofer Inst. for Manuf. Eng. & Autom. (IPA), Stuttgart, Germany
Abstract :
Mobile robots offer a high potential for future manufaturing and assembly. To this day the co-operation and co-action is in these fields hardly applicable, because of safety regulations, insufficient technology and its missing integration. In order to fill the gap this paper presents the hard- and software design of the mobile assistant rob@work 2. This system is the second iteration of the rob@work system.. As an exemplary work the conditions of a prototypic industrial application are analyzed and devided into modes of operation which are portable to generic assembly processes. For each mode of operation the safety requirements for human-robot interaction are surveyed taking into account recent regulations. In order to evaluate the performance of the robotic system, repeatability benchmarks and respective measurements are presented.
Keywords :
control engineering computing; hardware-software codesign; human-robot interaction; mobile robots; production engineering computing; robotic assembly; safety; generic assembly processes; hard-and-software design; human-robot interaction; mobile assistant; mobile robots; production assistants; prototypic industrial application; rob@work system; safety regulations; safety requirements; Employment; Graphical user interfaces; Hardware; Navigation; Robots; Safety; Zirconium;
Conference_Titel :
Robotics (ISR), 2013 44th International Symposium on
Conference_Location :
Seoul
DOI :
10.1109/ISR.2013.6695746
