Planung und Berechnung der systemischen Leistungsverfügbarkeit komplexer Logistiksysteme

Das Verständnis von Leistungsverfügbarkeit, wie sie in der VDI-Richtlinie 4486 definiert ist, reicht für die Planung komplexer, dynamischer und teil-autonomer Systeme nicht aus. Die Definition in der VDI 4486 setzt den Fokus ausschließlich auf den Erfüllungsgrad vereinbarter Prozesse bei der Inbetriebnahme lo-gistischer Anlagen und regelt die Messungen und Be-rechnungen der Leistungsverfügbarkeit zu diesem Zeitpunkt. Es bleibt die Frage, wie ein Materialflusssystem für eine spezifizierte Leistungsverfügbarkeit geplant werden kann. Dazu werden die Wirkzusammenhänge zwischen dem logistischen System und seinen Sub-Systemen z.B. vertikale Integration von Wirkzusammenhängen der Instandhaltung, von Echtzeiteffekten der Kommunikationsprozesse oder Effekten der Ma-schinensteuerung, betrachtet.

Performance Availability and Anticipatory Change Planning of Intralogistics Systems: A Simulation-Based Approach

In recent years, the ability to respond to real time changes in operations and reconfigurability in equipment are likely to become essential characteristics for next generation intralogistics systems as well as the level of automation, cost effectiveness and maximum throughput. In order to cope with turbulences and the increasing level of dynamic conditions, future intralogistics systems have to feature short reaction times, high flexibility in processes and the ability to adapt to frequent changes. The increasing autonomy and complexity in processes of today’s intralogistics systems requires new and innovative management approaches, which allow a fast response to (un)anticipated events and adaptation to changing environment in order to reduce the negative consequences of these events. The ability of a system to respond effectively a disruption depends more on the decisions taken before the event than those taken during or after. In this context, anticipatory change planning can be a usable approach for managers to make contingency plans for intralogistics systems to deal with the rapidly changing marketplace. This paper proposes a simulation-based decision making framework for the anticipatory change planning of intralogistics systems. This approach includes the quantitative assessments based on the simulation in defined scenarios as well as the analysis of performance availability that combines the flexibility corridors of different performance dimensions. The implementation of the approach is illustrated on a new intralogistics technology called the Cellular Transport System.