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

Autor/innen

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

DOI:

https://doi.org/10.2195/lj_NotRev_bohacs_en_201604_01

Schlagworte:

adaptive modelling, production logistics, simulation

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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Veröffentlicht

11.04.2016

Zitationsvorschlag

Bohács, G., & Rinkács, A. (2016). Development of a novel material flow simulation model for the integration of spatial and process relevant information. Logistics Journal: Editorial-Reviewed. https://doi.org/10.2195/lj_NotRev_bohacs_en_201604_01

Ausgabe

2016: Logistics Journal: Editorial Reviewed

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Artikel

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Copyright (c) 2016 Gábor Bohács, Angéla Rinkács