Battery manufacturing knowledge infrastructure requirements for multicriteria optimization based decision support in design of simulation

Authors

Horsch M.T., Romanov D., Valseth E., Belouettar S., López L.E.C., Glutting J., Janssen M.A., Klein P., Linhart A., Seaton M.A., Sødahl E.D., Vizcaino N., Werth S., Stephan S., Todorov I.T., Chiacchiera S., Al Machot F.

Reference

CEUR Workshop Proceedings, vol. 3760, pp. 112-119, 2024

Description

This position paper reports on the requirements analysis within the project Battery Cell Assembly Twin (BatCAT), which develops a digital twin for battery manufacturing. The focus is on the aspects of this work that are at the intersection between semantic web technology and materials science and engineering, specifically, the co-design of the architecture of the semantic interoperability layer and the decision support system (DSS). First, visions and ideas are provided on how the architecture will look, and what technology and previous work it will be based on. Key elements to this include, on the side of the semantic technology, the Meta Object Facility (MOF) with the OntoCommons ecosystem as a meta-metamodel (MOF M3 level), a system of ontologies with OWL EL or RL expressivity as a metamodel (MOF M2 level), and a MOF M1-level model based on OO-LD. On the side of the DSS, answer set programming will be combined with multicriteria optimization (MCO), such that MCO can be applied to model parameterization and design of simulation to make best use of computational resources and data.