Embedding RADAR4Chem into NFDI - Integrating Base4NFDI services into a trusted research data repository for chemistry
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| Titel: | Embedding RADAR4Chem into NFDI - Integrating Base4NFDI services into a trusted research data repository for chemistry |
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| Autoren: | Pollo Vázquez, Sergio, Soltau, Kerstin, Hofmann, Stefan, Bonatto Minella, Christian, Bach, Felix |
| Verlagsinformationen: | Zenodo, 2025. |
| Publikationsjahr: | 2025 |
| Schlagwörter: | FAIR data, Base4NFDI, Repository, Research Data Management, IAM4NFDI, TS4NFDI, Forschungsdatenmanagement, Terminology, Research Data Repository, NFDI4Chem, FAIR Data Principles, NFDI, Chemistry, MIChI, RADAR4Chem, RDM, DMP4NFDI, Publication, Research Data, Forschungsdaten |
| Beschreibung: | RADAR4Chem is a discipline-specific research data repository developed to meet the needs of the chemical sciences within the framework of the National Research Data Infrastructure (NFDI). It is based on the generic repository RADAR, developed and operated by FIZ Karlsruhe Leibniz Institute for Infrastructure [1]. Our engagement in many NFDI consortia has already resulted in different RADAR variants that are tailored to the specific requirements of the various scientific communities. As a core repository of the NFDI4Chem consortium, RADAR4Chem enables the publication, long-term preservation, and sharing of FAIR (Findable, Accessible, Interoperable, Reusable) data. Its functional evolution, especially its ongoing integration with basic NFDI services (Base4NFDI), strengthens RADAR4Chem´s role in supporting trustworthy and standards-compliant digital research workflows and fosters its chemistry-specific focus. A key integration is the implementation of Terminology Services 4 NFDI (TS4NFDI), which RADAR4Chem has achieved as an incubator project. TS4NFDI provides access to well-maintained ontologies and controlled vocabularies relevant - but not limited - to chemistry, ensuring semantic consistency and enabling machine-readable data annotation [2]. Through TS4NFDI, RADAR4Chem facilitates metadata annotation and improves the interoperability and findability of datasets across disciplinary and institutional boundaries. To better address domain-specific needs of chemistry, RADAR4Chem is being continuously enhanced to support chemistry-relevant metadata standards, particularly Minimum Information about Chemical Investigation (MIChI). These community-driven profiles, being developed through a collaborative effort within the NFDI4Chem consortium, supported by IUPAC, defines essential metadata fields across common chemical domains [3]. By embedding MIChI profiles into RADAR4Chem, the repository enables more accurate and structured metadata collection, thus supporting reproducibility, reuse, and compliance with publisher and funder requirements. In alignment with NFDI-wide efforts to streamline authentication and access, RADAR4Chem supports federated Identity and Access Management (IAM) via the IAM4NFDI service and its RegApp system. This allows researchers to safely log in through their institutional credentials, thus avoiding local account management and promoting seamless integration across services [4]. In future, the AAI (Authentication and Authorisation Infrastructure) model will also support RADAR4Chem´s role-based access control and facilitate collaborative curation management. Furthermore, RADAR4Chem is linked with the Research Data Management Organiser (RDMO) to support the creation and exchange of structured data management plans [5]. This integration is aligned with the goals of the DMP4NFDI initiative, which aims to structure and lifecycle standardisation of data management planning across domains [6], with NFDI4Chem participating as an incubator project. By means of this connection, metadata defined in RDMO NFDI4Chem, as a chemistry-specific instance, can be seamlessly transferred to RADAR4Chem, enabling more efficient workflows with minimal redundancy. A similar transfer is possible by RADAR4Chem's connection to the Chemotion Electronic Lab Notebook (ELN), allowing chemists to handle their data throughout the data lifecycle, from planning and annotation to publication and long-term preservation. Our poster illustrates how technical and semantic integrations establish RADAR4Chem as a robust and interoperable repository service aligned with the goals of both NFDI4Chem [7] and NFDI. It streamlines data management workflows, enhances interoperability, and supports effective dissemination and preservation of research data, ensuring that outputs remain documented, accessible, reusable, and fulfill the FAIR principles. |
| Publikationsart: | Article Conference object |
| DOI: | 10.5281/zenodo.16736266 |
| DOI: | 10.5281/zenodo.16736267 |
| DOI: | 10.5281/zenodo.16630474 |
| DOI: | 10.5281/zenodo.16630471 |
| Rights: | CC BY |
| Dokumentencode: | edsair.doi.dedup.....dceb48b58edb64fdd7b409b19ea9435a |
| Datenbank: | OpenAIRE |
Nájsť tento článok vo Web of Science | Abstract: | RADAR4Chem is a discipline-specific research data repository developed to meet the needs of the chemical sciences within the framework of the National Research Data Infrastructure (NFDI). It is based on the generic repository RADAR, developed and operated by FIZ Karlsruhe Leibniz Institute for Infrastructure [1]. Our engagement in many NFDI consortia has already resulted in different RADAR variants that are tailored to the specific requirements of the various scientific communities. As a core repository of the NFDI4Chem consortium, RADAR4Chem enables the publication, long-term preservation, and sharing of FAIR (Findable, Accessible, Interoperable, Reusable) data. Its functional evolution, especially its ongoing integration with basic NFDI services (Base4NFDI), strengthens RADAR4Chem´s role in supporting trustworthy and standards-compliant digital research workflows and fosters its chemistry-specific focus. A key integration is the implementation of Terminology Services 4 NFDI (TS4NFDI), which RADAR4Chem has achieved as an incubator project. TS4NFDI provides access to well-maintained ontologies and controlled vocabularies relevant - but not limited - to chemistry, ensuring semantic consistency and enabling machine-readable data annotation [2]. Through TS4NFDI, RADAR4Chem facilitates metadata annotation and improves the interoperability and findability of datasets across disciplinary and institutional boundaries. To better address domain-specific needs of chemistry, RADAR4Chem is being continuously enhanced to support chemistry-relevant metadata standards, particularly Minimum Information about Chemical Investigation (MIChI). These community-driven profiles, being developed through a collaborative effort within the NFDI4Chem consortium, supported by IUPAC, defines essential metadata fields across common chemical domains [3]. By embedding MIChI profiles into RADAR4Chem, the repository enables more accurate and structured metadata collection, thus supporting reproducibility, reuse, and compliance with publisher and funder requirements. In alignment with NFDI-wide efforts to streamline authentication and access, RADAR4Chem supports federated Identity and Access Management (IAM) via the IAM4NFDI service and its RegApp system. This allows researchers to safely log in through their institutional credentials, thus avoiding local account management and promoting seamless integration across services [4]. In future, the AAI (Authentication and Authorisation Infrastructure) model will also support RADAR4Chem´s role-based access control and facilitate collaborative curation management. Furthermore, RADAR4Chem is linked with the Research Data Management Organiser (RDMO) to support the creation and exchange of structured data management plans [5]. This integration is aligned with the goals of the DMP4NFDI initiative, which aims to structure and lifecycle standardisation of data management planning across domains [6], with NFDI4Chem participating as an incubator project. By means of this connection, metadata defined in RDMO NFDI4Chem, as a chemistry-specific instance, can be seamlessly transferred to RADAR4Chem, enabling more efficient workflows with minimal redundancy. A similar transfer is possible by RADAR4Chem's connection to the Chemotion Electronic Lab Notebook (ELN), allowing chemists to handle their data throughout the data lifecycle, from planning and annotation to publication and long-term preservation. Our poster illustrates how technical and semantic integrations establish RADAR4Chem as a robust and interoperable repository service aligned with the goals of both NFDI4Chem [7] and NFDI. It streamlines data management workflows, enhances interoperability, and supports effective dissemination and preservation of research data, ensuring that outputs remain documented, accessible, reusable, and fulfill the FAIR principles. |
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| DOI: | 10.5281/zenodo.16736266 |