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http://dx.doi.org/10.4275/KSLIS.2020.54.4.169

A Study on the Design of Metadata for Research Data Management in Forestry Engineering  

Kim, Juseop (전북대학교 문헌정보학과)
Han, Yeonjung (국립산림과학원 목재이용연구부)
Youe, Wonjae (국립산림과학원 목재이용연구부)
Kim, Suntae (전북대학교 문헌정보학과)
Publication Information
Journal of the Korean Society for Library and Information Science / v.54, no.4, 2020 , pp. 169-194 More about this Journal
Abstract
Recently, many academic fields are developing metadata to manage data produced in the field. Metadata to support a specific academic field beyond the general field is considered essential for searching, managing, sharing, and reusing research data in the field. Therefore, in this study, metadata items were derived to manage research data produced in forestry engineering. In order to derive metadata items, mapping work was performed on 7 metadata such as FGDC-CSDGM, ISO 19115, NEFIS, INSPIRE, ANZLIC, DataCite 4.3, and TTA.KO-10.0976. As a result of this study, 6 mandatory, 13 recommendations and 9 optional elements were derived. The derived metadata can be used as an item to systematically manage research data in the field of forestry engineering.
Keywords
Metadata; Research Data; Crosswalk; NEFIS; DataCite;
Citations & Related Records
Times Cited By KSCI : 12  (Citation Analysis)
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1 Ko, Young-Man, Seo, Tae-Sul and Lim, Tae-Hoon. 2007. "A Study on Metadata Mapping for Semantic Interoperability." Journal of the Korean Society for Information Management, 24(4): 223-238.   DOI
2 Kim, Kyoung-Min, Kim, Cheol-Min and Kim, Tae-Kyun. 2008. "Design and Implementation of Standard Metadata for Digital Forest Cover Type Map." Journal of the Korean Association of Geographic Information Studies, 11(4): 51-63.
3 Kim, Juseop, Kim, Suntae and Choi, Sangki. 2020. "A Study on Functional Details and Importance of Geoscience Research Data Management." Journal of the Korean Society for Library and Information Science, 54(1): 411-440.   DOI
4 Park, Ok-Nam. 2012. "A Study on Developing Preservation Metadata Based on PREMIS Focusing on Digital Data in National Library of Korea." Journal of the Korean Society for Library and Information Science, 46(2): 83-113.   DOI
5 Seo, Kang-Hyeon et al. 2017. "Standard Metadata Design for Linkage and Utilization of Damage Prediction Maps." Journal of the Korean Association of Geographic Information Studies, 20(3): 52-66.   DOI
6 Sim, Gyu-Seong. 2016. "Metadata Design Based on Vector Type Geospatial Information Standard for the Collection and Management of Inundation Map." Journal of the Korea Academia-Industrial cooperation Society, 17(5): 42-48.   DOI
7 Yea, Sang-Jun, Jang, Ho and Kim, Suntae. 2019. "Metadata Element Design for Korean Medicine Research Data Management and Re-use." Journal of the Korean Society for Library and Information Science, 53(2): 223-246.   DOI
8 Lee, Mihwa, Lee, Eun-Ju and Rho, Jee-Hyun. 2020. "A Preliminary Study on Extending OAK Metadata for Research Data." Journal of Korean Library and Information Science Society, 51(3): 27-51.   DOI
9 Jeon, Bang Jin. 2011. "A Study on the Applying Metaata Standards in Cadastral Information for increasing its Utilization." Journal of the Korean Cadastre Information Association, 13(1): 81-92.
10 ANZLIC. 2011, ANZLIC Metadata Profile Guidelines Version 1.2. [online] [cited 2019. 7. 2.]
11 CodeMeta. 2019. CodeMeta Overview. [online] [cited 2020. 6. 25.]
12 DCC. 2019. Federal Geographic Data Committee Content Standard for Digital Geospatial Metadata. [online] [cited 2020. 7. 1.]
13 DCC. 2019. ISO 19115. [online] [cited 2020. 7. 2.]
14 Desconnets, J. C., Mougenot, I. and Chahdi, H. 2017. "A methodology for effective metadata design in Earth observation. In Developing Metadata Application Profiles." IGI Global, 65-97.
15 European Commission. 2008. Commission Regulation (EC) No 1205/2008 of 3 December 2008 implementing Directive 2007/2/EC of the European Parliament and of the Council as regards metadata (Text with EEA relevance) Metadata Implementing Rules Part B. [online] [cited 2020. 7. 2.]
16 European Forest Institute. 2019. [online] [cited 2020. 7. 26.]
17 Li, C. and Sugimoto, S. 2018. "Provenance description of metadata application profiles for long-term maintenance of metadata schemas." Journal of Documentation, 74(1): 36-61.   DOI
18 Habermann, T. 2019. "Mapping ISO 19115-1 geographic metadata standards to CodeMeta." PeerJ Computer Science, 5: e174.   DOI
19 Heery, R., and Patel, M. 2000. "Application profiles: mixing and matching metadata schemas." Ariadne, (25).
20 ISO. [n.d.]. International Organization for Standardization (1 April 2014). "ISO 19115-1:2014 (en)." [online] [cited 2020. 7. 15.]
21 Malta, M. C. and Baptista, A. A. 2012. "State of the art on methodologies for the development of a metadata application profile." In Research Conference on Metadata and Semantic Research, 61-73.
22 Morsy, M. et al. 2017. "Design of a metadata framework for environmental models with an example hydrologic application in HydroShare." Environmental modeling & software, 93: 13-28.   DOI
23 NEFIS - Network for a European Forest Information Service. 2019. [online] [cited 2020. 5. 27.]
24 NOAA Environmental Data Management Wiki. 2010. ISO 19115 Core Elements. [online] [cited 2020. 7. 29.]
25 Schuck, A. et al. 2006. "A metadata schema for forest information resources." The FBMIS Group, 1: 11-21.
26 Schuck, Andreas, 2007. Towards a European forest information system, Boston: Brill.
27 Wikipedia, 2019. PROV (Provenance). [online] [cited 2020. 6. 25.]
28 Wikipedia. 2019. Directive (European Union). [online] [cited 2020. 7. 2.]