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Abstract
During the analysis and design of manufacturing systems, companies are challenged by existing restrictions and the running production. To deal with these key issues, different virtual factory approaches and tools have been widely implemented in recent years. By employing modern approaches and tools, a manufacturing system can be adapted effectively. Virtual reality (VR), one of the most important approaches, has recently been applied to the scientific and the industrial fields. Recent studies of VR applications are mainly focusing on the design of products, but not manufacturing systems. This paper presents VR as an innovative and collaborative design platform for manufacturing systems, which enables a holistic use of virtual factory tools. Based on this platform, three applications were implemented, which are addressed at different levels of a manufacturing system. Furthermore, a noise simulation and a virtual machining tool were visualised in a cave automatic virtual environment (CAVE).
Acknowledgments
This work was funded by the German Science Foundation (DFG) within the International Research Training Group (IRTG) 1131 Visualisation of Large and Unstructured Data Sets Applications in Geospatial Planning, Modeling, and Engineering. The implementation of EC in VR resulted from a project funded by the German Research Foundation (DFG) ‘Impact Mechanisms of Engineering Changes in Production’ (fund number AU 185/15-1). The CIP workshop resulted from a project funded by DFG ‘VR supported continuous improvement of the mechanical manufacturing’ (fund number AU 185/13-1 and -2).
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