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Bibliographic Details
Main Authors: Nahshon, Yoav, Morand, Lukas, Büschelberger, Matthias, Helm, Dirk, Kumaraswamy, Kiran, Zierep, Paul, Weber, Matthias, de Andrés, Pablo
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2406.19509
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author Nahshon, Yoav
Morand, Lukas
Büschelberger, Matthias
Helm, Dirk
Kumaraswamy, Kiran
Zierep, Paul
Weber, Matthias
de Andrés, Pablo
author_facet Nahshon, Yoav
Morand, Lukas
Büschelberger, Matthias
Helm, Dirk
Kumaraswamy, Kiran
Zierep, Paul
Weber, Matthias
de Andrés, Pablo
contents In materials science and manufacturing, vast amounts of heterogeneous data (e.g., measurement and simulation logs, process data, publications) serve as the bedrock of valuable knowledge for various engineering applications. However, efficiently storing and managing this diverse data poses challenges due to limited standardization and integration across different organizational units. Addressing these challenges is essential to fully unlock the potential of data-driven approaches. This paper introduces novel, comprehensive semantic methodology tailored to materials engineering and realized as a technology stack named Dataspace Management System (DSMS), which powers dataspace solutions that leverage the knowledge encoded in heterogeneous data sources to support data-driven insights and to derive new knowledge. At its core, DSMS offers a distinctive knowledge management approach tuned to meet the specific requirements of the materials science and manufacturing domain, all while adhering to the FAIR principles. DSMS provides functionalities for data integration, linkage, exploration, visualization, processing, data sharing, and services (e.g., consulting) to support engineers in decision-making, design and optimization. We present an architectural overview of DSMS, outlining its core concepts and their technological implementation, as well as demonstrate its applicability to common data-processing tasks through use cases from the StahlDigital and KupferDigital research projects within Germany's MaterialDigital initiative.
format Preprint
id arxiv_https___arxiv_org_abs_2406_19509
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Semantic orchestration and exploitation of material data: A dataspace solution demonstrated on steel and copper applications
Nahshon, Yoav
Morand, Lukas
Büschelberger, Matthias
Helm, Dirk
Kumaraswamy, Kiran
Zierep, Paul
Weber, Matthias
de Andrés, Pablo
Databases
In materials science and manufacturing, vast amounts of heterogeneous data (e.g., measurement and simulation logs, process data, publications) serve as the bedrock of valuable knowledge for various engineering applications. However, efficiently storing and managing this diverse data poses challenges due to limited standardization and integration across different organizational units. Addressing these challenges is essential to fully unlock the potential of data-driven approaches. This paper introduces novel, comprehensive semantic methodology tailored to materials engineering and realized as a technology stack named Dataspace Management System (DSMS), which powers dataspace solutions that leverage the knowledge encoded in heterogeneous data sources to support data-driven insights and to derive new knowledge. At its core, DSMS offers a distinctive knowledge management approach tuned to meet the specific requirements of the materials science and manufacturing domain, all while adhering to the FAIR principles. DSMS provides functionalities for data integration, linkage, exploration, visualization, processing, data sharing, and services (e.g., consulting) to support engineers in decision-making, design and optimization. We present an architectural overview of DSMS, outlining its core concepts and their technological implementation, as well as demonstrate its applicability to common data-processing tasks through use cases from the StahlDigital and KupferDigital research projects within Germany's MaterialDigital initiative.
title Semantic orchestration and exploitation of material data: A dataspace solution demonstrated on steel and copper applications
topic Databases
url https://arxiv.org/abs/2406.19509