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Assessment of Collaboration Process in Interdisciplinary Research of Water-energy-food Nexus by Means of Ontology Engineering

  • Terukazu Kumazawa
  • Keishiro Hara
  • Aiko Endo
  • Makoto Taniguchi
Chapter
Part of the Global Environmental Studies book series (GENVST)

Abstract

This article discusses an assessment of the collaboration process of interdisciplinary research on the water-energy-food nexus by combining a text mining approach and an ontology engineering approach. For this purpose we first overview a collaboration experiment designed for research development. Second, we identify researchers’ concerns in the discussion context of this experiment and represent the communication process focusing on keyword usage. Third, we show the relationships between the researchers’ domains and the fixed research issue and its basic direction by means of ontology engineering. Finally, we discuss how the shared concepts among researchers are dealt with in the collaboration process by combining the represented communication process as an assessment of collaboration.

Keywords

Collaboration process Interdisciplinary research Assessment Text mining Ontology engineering 

Notes

Acknowledgments

The present research was supported by the Research Institute for Humanity and Nature (Project No. 14200097) and by KAKENHI (Grants 25340142 and 25280081). The authors would like to thank Dr. Kouji Kozaki, associate professor of Osaka University, for his technical support regarding the ontology-based mapping tool. We gratefully acknowledge all of the researchers who assisted with the workshop experiments.

References

  1. Committee on Facilitating Interdisciplinary Research.; Committee on Science, Engineering, and Public Policy; Institute of Medicine.; Policy and Global Affairs.; National Academy of Sciences.; National Academy of Engineering (2004) Facilitating interdisciplinary research. The National Academies Press, Washington, DC.Google Scholar
  2. Grin J, Rotmans J (eds) (2010) Transition to sustainable development—new directions in the study of long term transformative change. Routledge, New YorkGoogle Scholar
  3. Holsapple CW, Joshi KD (2002) A collaborative approach to ontology design. Commun ACM 45(2):42–47Google Scholar
  4. Kumazawa T, Hara K, Endo A, Taniguchi M (2017) Supporting collaboration in interdisciplinary research of water-energy-food nexus by means of ontology engineering. Journal of Hydrology: Regional Studies 11:31–43Google Scholar
  5. Loorbach D (2007) Transition management: new mode of governance for sustainable development. International Books, UtrechtGoogle Scholar
  6. Miller TR (2013) Constructing sustainability science: emerging perspectives and research trajectories. Sustain Sci 8(2):279–293CrossRefGoogle Scholar
  7. Repko AF, Szostak R (2016) Interdisciplinary research: process and theory. SAGE Publications, LondonGoogle Scholar
  8. Stokols D, Hall KL, Moser RP, Feng A, Misra S, Taylor BK (2010) Cross-disciplinary team science initiatives: research, training, and translation. In: Frodeman R, Klein JT, Mitcham C, Holbrook JB (eds) The Oxford handbook of interdisciplinary. Oxford University Press, New York, pp 471–493Google Scholar

Copyright information

© Springer Nature Singapore Pte Ltd. 2018

Authors and Affiliations

  • Terukazu Kumazawa
    • 1
  • Keishiro Hara
    • 2
  • Aiko Endo
    • 1
  • Makoto Taniguchi
    • 1
  1. 1.Research Institute for Humanity and NatureKyotoJapan
  2. 2.Osaka UniversityOsakaJapan

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