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Development of a novel material flow simulation model for the integration of spatial and process relevant information

  1. Dr. Gábor Bohács Budapest University of Technology and Economics, Faculty of Transportation Engineering and Vehicle Engineering, Department of Materials Handling and Logistics Systems
  2. Angéla Rinkács Budapest University of Technology and Economics, Faculty of Transportation Engineering and Vehicle Engineering, Department of Materials Handling and Logistics Systems

Abstract

Simulation techniques are almost indispensable in the analysis of complex systems. Materials- and related information flow processes in logistics often possess such complexity. Further problem arise as the processes change over time and pose a Big Data problem as well. To cope with these issues adaptive simulations are more and more frequently used. This paper presents a few relevant advanced simulation models and intro-duces a novel model structure, which unifies modelling of geometrical relations and time processes. This way the process structure and their geometric relations can be handled in a well understandable and transparent way. Capabilities and applicability of the model is also presented via a demonstrational example.

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Any party may pass on this Work by electronic means and make it available for download under the terms and conditions of the Digital Peer Publishing License. The text of the license may be accessed and retrieved at http://www.dipp.nrw.de/lizenzen/dppl/dppl/DPPL_v2_en_06-2004.html.

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