Veronika Brandstetter scite author profile

Abstract. In automation plants, technical processes must be conducted in a way that products, substances, or services are produced reliably, with sufficient quality and with minimal strain on resources. A key driver in conducting these processes is the automation plant's control software, which controls the technical plant components and thereby affects the physical, chemical, and mechanical processes that take place in automation plants. To this end, the control software of an automation plant must adhere to strict process requirements arising from the technical processes, and from the physical plant design. Currently, the validation of the control software often starts late in the engineering process in many cases -once the automation plant is almost completely constructed. However, as widely acknowledged, the later the control software of the automation plant is validated, the higher the effort for correcting revealed defects is, which can lead to serious budget overruns and project delays. In this article we propose an approach that allows the early validation of automation control software against the technical plant processes and assumptions about the physical plant design by means of simulation. We demonstrate the application of our approach on the example of an actual plant project from the automation industry and present it's technical implementation.

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Simulationsgestützte Entwicklung der Automatisierung

Brandstetter¹,

Wehrstedt²,

Rosen³

et al. 2013

atp edition

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Classification of application scenarios for a virtual commissioning of CPS-based production plants into the reference architecture RAMI 4.0

Meyer¹,

Munske²,

Weyer³

et al. 2018

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Open Semantic Meta-model as a Cornerstone for the Design and Simulation of CPS-based Factories

Jan¹,

Diego²,

Pedrazzoli³

et al. 2022

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