Efficient management of product lifecycle information through a semantic platform

Bruno, Giulia; Korf, Roman; Lentes, Joachim; Zimmermann, Nikolas

doi:10.1504/ijplm.2016.078864

Cited by 17 publications

(7 citation statements)

References 21 publications

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“…Step 2 has mostly been achieved by defining the common ontology and forcing the use of globally defined attributes [16,17]. Regarding steps 2 and 3, some tools for the current business organization have been implemented.…”

Section: Resultsmentioning

confidence: 99%

Changing Information Management in Product-Service System PLM: Customer-Oriented Strategy

Smirnov

Shilov

Oroszi

et al. 2017

Product Lifecycle Management and the Industry of the Future

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Increasing competition and appearance of new information and communication technologies makes companies to introduce new production and marketing models. The paper shares the experiences of improving PLM information management at an automation equipment manufacturer caused by implementation of product-service systems and their customer-driven configuration. Though the research results are based on the analysis of one company, the presented work can give significant input to achieve benefits for component manufacturers that tend to become system vendors in general.

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Section: Resultsmentioning

confidence: 99%

Changing Information Management in Product-Service System PLM: Customer-Oriented Strategy

Smirnov

Shilov

Oroszi

et al. 2017

Product Lifecycle Management and the Industry of the Future

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“…The Suggested Upper Merged Ontology (SUMO) is another commonly reused upper ontology (Niles and Pease, 2001). Manufacturing process (MPRO) ontology is built using aspects of the SUMO ontology as its foundation, focusing on classes and properties specific to manufacturing processes, such as assembly processes (Bruno, 2015). The Core Ontology for Robotics and Automation (CORA) is also designed using SUMO as a foundation and is the IEEE standard for this area (Prestes et al, 2013).…”

Section: Ontologies Within Manufacturingmentioning

confidence: 99%

Towards an ontology to capture human attributes in human-robot collaboration

Hall,

Dhanda,

Dhokia

2024

Proc. Des. Soc.

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A core predicate of Industry 5.0 (I5.0) is the integration of human, environmental and social factors with new technologies. The integration of collaborative robots offers increased productivity but raises questions on safety and how robots can respond to varying cognitive and physical attributes. This paper discusses the significance of structured ontologies in managing complex information for proactive, safe, and productive human-robot collaboration. The paper highlights the future work to be undertaken to ensure the safe and fluid integration of humans and robots within I5.0.

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“…Previous works addressed the issue of structuring and formalising product-related knowledge [6][7][8][9], while several international research projects addressed the development of industrial knowledge sharing systems (e.g., amePLM [10], ICP4Life [11], Know4car [12], Manutelligence [13]). The importance of collaboration between design and manufacturing is highlighted in several papers [14,15].…”

Section: Related Workmentioning

confidence: 99%

A Knowledge-Based System for Collecting and Integrating Production Information

Bruno

Traini

Lombardi

2019

Collaborative Networks and Digital Transformation

Self Cite

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Design and production departments are scarcely integrated in manufacturing companies. This fact, especially for companies with a highly customized production, is very critical, since the collaboration between the two departments is essential to reduce the trial-and-errors cycles to design new products and process. It is therefore necessary to collect data from the shop floor, especially the ones related to anomalies or critical situations, and make them at disposal to be used to improve the design of the next products and processes. The aim of this paper is to develop a knowledge-based system to digitalize and collect data regarding anomalies at the shop floor, and to integrate them with data coming from the design phase, in order to reduce the time for finalizing a new product. A case study has been developed for a car prototyping company to illustrate the potentiality of the proposed solution.

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Efficient management of product lifecycle information through a semantic platform

Cited by 17 publications

References 21 publications

Changing Information Management in Product-Service System PLM: Customer-Oriented Strategy

Changing Information Management in Product-Service System PLM: Customer-Oriented Strategy

Towards an ontology to capture human attributes in human-robot collaboration

A Knowledge-Based System for Collecting and Integrating Production Information

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