Testing the vertical and cyber-physical integration of cognitive robots in manufacturing

Research output: Contribution to journalArticle

Bibtex

@article{a575156ef1ab4d6390e9d197e8216888,
title = "Testing the vertical and cyber-physical integration of cognitive robots in manufacturing",
abstract = "In recent years, cognitive robots have started to find their way into manufacturing halls. However, the full potential of these robots can only be exploited through (a) an integration of the robots with the Manufacturing Execution System (MES), (b) a new and simpler way of programming based on robot skills, automated task planning, and knowledge modeling, and (c) enabling the robots to function in a shared human/robot workspace with the ability to handle unexpected situations. The STAMINA project has built a robotic system that meets these objectives for an automotive kitting application, which has also been tested, validated, and demonstrated in a relevant environment (TRL6). This paper describes the STAMINA robot system and the evaluation of this system on a series of realistic kitting tasks. The structure of the system, evaluation methodology, and experimental results, are presented along with the insights and experiences gained from this work.",
keywords = "Autonomous robot, Kitting, Robot skills",
author = "Volker Krueger and Francesco Rovida and Bjarne Grossmann and Ronald Petrick and Matthew Crosby and Arnaud Charzoule and {Martin Garcia}, German and Sven Behnke and Cesar Toscano and Germano Veiga",
year = "2019",
month = "6",
day = "1",
doi = "10.1016/j.rcim.2018.11.011",
language = "English",
volume = "57",
pages = "213--229",
journal = "Robotics and Computer-Integrated Manufacturing",
issn = "0736-5845",
publisher = "Pergamon Press Ltd.",

}