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Nachhaltige Qualitätsoptimierung durch maschinelles Lernen. Wie wird Qualität in der Zukunft optimiert?

Vortrag gehalten auf der 32. Control Messe, Internationalen Fachmesse für Qualitätssicherung, 24.-27. April 2018, Stuttgart
 
: Chen, Xi

:
Präsentation urn:nbn:de:0011-n-5069369 (846 KByte PDF)
MD5 Fingerprint: 6e647099e9637443543d703d6d09c38d
Erstellt am: 29.8.2018


2018, 20 Folien
Control - Die internationale Messe für Qualitätssicherung <32, 2018, Stuttgart>
Deutsch
Vortrag, Elektronische Publikation
Fraunhofer IPA ()
maschinelles Lernen; Qualitätsoptimierung; Nachhaltigkeit; Industrie 4.0

Abstract
Although existing industrial robots are able to work in challenging environments, accomplish high-precision assignments, as well as help to enhance and increase productivity, most of this are still operated with prebuilt commandos and robot programs. Given the pressure of labor costs and fierce competition, there is a tremendous shortage of autonomous and intelligent robots and cyber-physical systems with the ability of perception and decision in coming Industry 4.0 application. These intelligent robots are able to analyze their tasks by selecting appropriate tools, planning their movements and executing suitable operations, in the same way as a trained human worker would do.
In this paper, an industrial robot UR5 is allowed to perceive, locate and interact with different objects such as tools and office supplies. Using a stereo vision camera, it is possible to obtain both RGB- and Depth-data of the robots surrounding and workspace. This data is fed into a Deep Learning Faster-RCNN Network to realize the recognition and localization of present objects out of 50 different classes. With the derived information, proper operations can be planed and executed. The experimental results prove a successful recognition and gripping of reachable objects in the robot’s workspace or suitable feedback for unreachable objects. This work confirms the possibility of using current Deep Learning algorithms in combination with industrial robots to build intelligent systems. The configuration will become increasingly useful for automation and assembly technologies in upcoming Industry 4.0 applications with further developed hardware and software algorithms. Thus representing a significant milestone in the construction of intelligent robots and laying the foundation for future work.

: http://publica.fraunhofer.de/dokumente/N-506936.html