Knowledge-based expert system to support the semantic interoperability in smart manufacturing

Knowledge-based expert system to support the semantic interoperability in smart manufacturing

•An approach for the representation, the sharing and the reuse of information and knowledge was applied for an interoperable smart manufacturing system.•All methods in the literature rely on a partial analysis to overcome semantic barriers.•The information and knowledge formalisation in a well-defin...

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Bibliographic Details
Published in:Computers in industry Vol. 115; p. 103161
Main Authors: Adamczyk, Bruno Sérgio, Szejka, Anderson Luis, Canciglieri, Osiris
Format: Journal Article
Language:English
Published: Elsevier B.V 01-02-2020
Subjects:
Information and knowledge formal representation
Integrated engine calibration process
Manufacturing system
Ontology
Semantic interoperability
Semantic rules
Semantic interoperability
Ontology
Integrated engine calibration process
Information and knowledge formal representation
Manufacturing system
Semantic rules
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Summary:•An approach for the representation, the sharing and the reuse of information and knowledge was applied for an interoperable smart manufacturing system.•All methods in the literature rely on a partial analysis to overcome semantic barriers.•The information and knowledge formalisation in a well-defined structure is highlighted.•The information and knowledge sharing across different stages for integrated all phases of manufacturing process are proposed.•The promotion of interoperability by means of reusability, renewability and transformation by ontologies is explored to overcome semantic barriers. The manufacturing industry has been challenged to find new technologies solutions to improve their manufacturing systems to meet new customise product while ensuring high quality and low costs. Alongside, a considerable increase in the quantity, complexity and detailed information necessary to make all system work, it has increased the need for semantic interoperability over the entire process. The semantic interoperability is necessary to integrate the heterogenic nature of the information that comes from different sources, which could lead a divergent way of interpreting its meaning, causing misinformation, misleads and errors that increase project costs and development time. The semantic interoperability is necessary to integrate the heterogenic nature of the information that comes from different sources and have its meaning interpreted in a divergent way, causing misinformation, misleads and errors that increase project costs and development time. In this context, this work contributes to the development of a Semantic Interoperable Smart Manufacturing to promote semantic interoperability across the manufacturing system considering information and concepts from multiple domains as well as sharing them across different phases of the manufacturing process. The approach proposed was validates in an experimental case of the engine calibration process of an automotive industry. The case was focused on an integration of a new auxiliary brake system composed by an electrical vacuum pump. The experimental system aids gathering and sharing information across the domains of design definitions, project requirements, and calibration process. The results demonstrated the potential of ontology-based systems to promote interoperability, exchanging information and pointing out the inconsistency within a smart manufacturing system.
ISSN:0166-3615
1872-6194
DOI:10.1016/j.compind.2019.103161