Biffl, S., Kropatschek, S. J., Meixner, K., Hoffmann, D., & Lüder, A. (2024). Configuring and Validating Multi-aspect Risk Knowledge for Industry 4.0 Information Systems. In Advanced Information Systems Engineering (pp. 492–508). https://doi.org/10.1007/978-3-031-61057-8_29
36th International Conference on Advanced Information Systems Engineering (CAiSE 2024)
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Event date:
3-Jun-2024 - 7-Jun-2024
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Event place:
Limassol, Cyprus
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Number of Pages:
17
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Peer reviewed:
Yes
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Keywords:
configuration management; cyber-physical production system engineering; DIN 60812; Industry 4.0; multi-aspect IS engineering
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Abstract:
Industry 4.0 information systems support production stakeholders in configuring and debugging increasingly flexible Cyber-Physical Production Systems (CPPSs), such as automated car plants. A Failure Mode and Effects Analysis (FMEA) aims at mitigating production risks by analyzing the main causes of risks in production, such as defective products. However, a FMEA provides limited guidance on (i) validating risk knowledge and (ii) reducing risk knowledge complexity regarding CPPS engineering artifacts. This paper introduces the Multi-aspect FMEA Configuration Management (MFCM) approach (i) to design and validate a multi-aspect CPPS risk knowledge graph and (ii) to focus on required graph parts, adapting conditioned backward program slicing. This small graph serves as a foundation for answering stakeholder questions on production risks and causes with data from validated sources. We evaluated MFCM in a feasibility study on a real-world welding line. Results indicate that MFCM is effective for production process slicing of multi-aspect risk knowledge required to analyze a production condition.
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Project title:
Verbesserung der Sicherheit von Informationsprozessen in Produktionssystemen: CDL SQI (Christian Doppler Forschungsgesells; Christian Doppler Forschungsgesells)
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Research Areas:
Digital Transformation in Manufacturing: 50% Information Systems Engineering: 50%
