IEEE Transactions on Industrial Informatics, (Early Access):1-12
August 2024 · DOI: 10.1109/TII.2024.3435373
Optimizing evolving manufacturing systems often requires considering the interplay of various architectural design decisions (ADDs), especially at the lower levels of the automation pyramid. Here, decisions about programmable logic controllers, stations, and shop-floor topology directly impact product characteristics. This necessitates a multidimensional design space exploration (DSE) approach that synthesizes diverse ADDs together. However, integrating diverse ADDs within the complex context of industrial automation remains a challenge, and existing DSE solutions from other domains often lack direct applicability. This work introduces a novel multidimensional DSE approach for such systems, leveraging domain-specific input models to automatically generate valid and optimal deployment, shop-floor topology, and production planning ADDs. We evaluate the approach by assessing the quality of derived ADDs against various domain optimization goals. This evaluation compares our approach to both random and manual ADDs, utilizing a prototype implementation and realistic manufacturing architectures.
Stichworte: Industry 4.0, IEC 61499, deployment synthesis, optimization, SMT, Design-Space Exploration, DSE, Model-based Systems engineering, MbSE