2019
DOI: 10.1515/auto-2018-0138
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Applying knowledge bases to make factories smarter

Abstract: Knowledge Bases (KBs) enable engineers to capture knowledge in a formalized way. This formalization allows us to combine knowledge, thus creating the basis for smart factories while also supporting product and production system design. Building comprehensive and reusable KBs is still a challenge, though, especially for knowledge-intensive domains like engineering and production. To cope with the sheer amount of knowledge, engineers should reuse existing KBs. This paper presents a comprehensive overview of doma… Show more

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Cited by 11 publications
(3 citation statements)
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“…Semantic Web technologies have been extensively applied to support various industrial applications in the last decade ranging from combining sensor networks with the Web [6] to augmenting products with semantic descriptions [33] or enabling smart city infrastructures [5]. The application of these technologies has been taking place in a variety of (mission-critical) domains, such as manufacturing [2,27], electric grids [18], or buildings [4] and addressed tasks both during the engineering (e.g., engineering model integration, digital twin model consistency management) and operation&maintenance (monitoring and anomaly detection, optimization and reconfiguration) phases of cyber-physical systems in such domains [35]. Furthermore, an important task is the verification of technical information objects (e.g., ontologies, semantic data sets) in terms of complying with constraints specified in languages such as SHACL, SWRL, or SPARQL.…”
Section: Application Of Semantic Web Technologies In Industrial Settingsmentioning
confidence: 99%
“…Semantic Web technologies have been extensively applied to support various industrial applications in the last decade ranging from combining sensor networks with the Web [6] to augmenting products with semantic descriptions [33] or enabling smart city infrastructures [5]. The application of these technologies has been taking place in a variety of (mission-critical) domains, such as manufacturing [2,27], electric grids [18], or buildings [4] and addressed tasks both during the engineering (e.g., engineering model integration, digital twin model consistency management) and operation&maintenance (monitoring and anomaly detection, optimization and reconfiguration) phases of cyber-physical systems in such domains [35]. Furthermore, an important task is the verification of technical information objects (e.g., ontologies, semantic data sets) in terms of complying with constraints specified in languages such as SHACL, SWRL, or SPARQL.…”
Section: Application Of Semantic Web Technologies In Industrial Settingsmentioning
confidence: 99%
“…This was the impetus for the use of Semantic Web technologies in industrial databases and knowledge of information search engines, including logical integration into the industrial Internet of Things (IIoT). It is the ontologies focused on the organisation and implementation of IIoT that meet new challenges in industry [11] and are currently relevant. In addition, ontological knowledge bases can be used for industrial design tasks in distributed systems and on the Web.…”
Section: Literature Reviewmentioning
confidence: 99%
“…This results both in an increase in knowledge and its quality [ 19 ]. An in-depth overview of top-level ontologies in the context of smart factories is presented in prior work [ 20 ].…”
Section: Related Workmentioning
confidence: 99%