Autor: Thomas Makuschewitz

Global production networks connect partners with outstanding expertise, and make use of regional cost advantages for purchasing and production operations. This development leads to an increasing structural complexity of the networks, which is accompanied by a closer collaboration of dynamic logistics processes. Hence, the resulting dynamics of a large-scale production network is characterized by the dynamics of the individual logistics processes, the dynamics of the network structure and dynamics of the external processes that affect the production network. However, in practice a lack of adequate procedures for the analysis and design of these networks can be observed. The presented article addresses this need by introducing tools and methods for the approximation of large-scale production networks, analysis of their dynamics and the robust design of the network resources.

Dynamic production and logistics systems along supply chains have to operate smoothly with each other in order to satisfy customer demand in time. This task becomes even more challenging in the presence of perturbations affecting the systems. In order to address this challenge, information concerning capabilities and employment level should be appropriately exchanged between production and transportation systems. Nevertheless different stakeholders perform the planning and control of the individual systems, making locally bounded decisions. In this article we present a new approach for the alignment of production and transportation processes that enables an advanced handling of perturbations on the operational level. To this end we introduce a trigger that indicates when a re-planning of existing schedules becomes necessary. We also present a collaborative planning approach that allows for an advanced management of perturbations and a dynamic vehicle routing concept for the on time ...

Global supply chains source raw material around the world, make use of local cost advantages for production and utilise the expertise of excellent partners. They aim at the creation of a sustainable competitive network. In order to benefit from the locally obtained advantages the processes of the partners have to be synchronised. This is a classic task of advanced planning systems. However operational planning and control is quite often conducted in a decentralised, function and department oriented way. This paper presents a framework for an integrated scheduling of production and transportation systems along a global supply chain on the operational level. The framework enhances the synchronisation of material flows and increases the competitiveness of the supply chain.

Planning and control of logistics processes is more and more determined by an increasing complexity of structure of logistics networks and dynamics. However, in many aspects methods and tools for a comprehensive analysis of large-scale logistics networks are missing. This set of problems is the object of investigation in the new research project ‘Stability, Robustness and Approximation of Dynamic Large-Scale Networks - Theory and Applications in Logistics Networks’ founded by Volkswagen Foundation. The project will be run in a dual way: Mathematicians from the university of Bremen und the university of Würzburg cooperate with researchers from the field of engineering of the university of Bremen.