시스템엔지니어링학술지 (Journal of the Korean Society of Systems Engineering)

  • 제12권2호
  • /
  • Pages.59-67
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  • 2016
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  • 1738-480X(pISSN)
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  • 2288-3592(eISSN)
한국시스템엔지니어링학회 (The Korean Society of Systems Engineering)
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A Proposal of Quality Assessment for System Model

  • Onozuka, Yuki (Graduate School of System Design and Management, Keio University) ;
  • Ioki, Makoto (Graduate School of System Design and Management, Keio University) ;
  • Shirasaka, Seiko (Graduate School of System Design and Management, Keio University)
  • 투고 : 2015.11.19
  • 심사 : 2016.09.12
  • 발행 : 2016.12.31
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초록

Recently, the increased complexity of systems has made systems engineering necessary. It is very useful for system designers to understand the whole context of the concerned system based on systems engineering. A system model can be used to describe the outcome of a system design. A system model describes the system from the viewpoint of the stakeholder's needs using the mutually exclusive and collectively exhaustive principle. A system model can be used to smoothly design a large and complicated system based on the systems engineering development process. Many companies and countries are attempting to apply model-based systems engineering, and the significance of the system model quality is increasing as system models are referenced during system development. In this paper, we propose a quality assessment method for ontology which is one of system models by focusing on the system development process. First, in this process, a system developer should explicitly show the relationship between viewpoints. Then, the system developer should select dependent rather than independent viewpoints. With dependent viewpoints, each viewpoint used to describe the system has some logical relationship. The set of viewpoints makes it possible to show, not only tangible and physical system parts, but also conceptual system parts. In this paper, we develop an ontological system model of a Japanese weather observation system. By comparing some ontological system models, we verify the effectiveness of explicitly describing the relationships between viewpoints and select dependent viewpoints.

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참고문헌

  1. Fosse E., "Model-Based Systems Engineering (MBSE) 101," International Workshop INCOSE (USA), 2014.
  2. "INCOSE Systems Engineering Vision 2020," Technical Operations INCOSE, 2007.
  3. Friedenthal, S., Moore, A., and Steiner, R., "A Practical Guide to SysML: The Systems Modeling Language." Morgan Kauffman, San Francisco, CA, 2008.
  4. Bjorn, C., Chris, D., and Kenny D., "Piloting Model Based Engineering Techniques for Spacecraft Concepts in Early Formulation."
  5. "ISO/IEC/IEEE Systems and Software Engineering Architecture Description," ISO/IEC/IEEE 42010:2011(E) (Revision of ISO/IEC 42010: 2007 and IEEE Std 1471-2000). 2011.
  6. Holt, J. and Perry, S., "SysML for Systems Engineering 2nd Edition: A model-Based Approach", Chap. 2, pp16, The Institution of Engineering and Technology, 2013.
  7. Jenkins, S., "Ontologies and Model-Based Systems Engineering," INCOSE I W MBSE Workshop, 2010.
  8. Tartir, S., Arpinar, I., Moore, M., Sheth, A., and Aleman-Meza, B., "OntoQA: Metric-Based Ontology Quality Analysis," IEEE Workshop on Knowledge Acquisition from Distributed, Autonomous, Semantically Heterogeneous Data and Knowledge Sources, pp45-53. IEEE Computer Society, Los Alamitos, 2005.
  9. Sathya, D. and Uthayan, K.R., "Proposal for Semantic Metric to Assess the Quality of Ontologies," ICSCCN, 2011.
  10. Sunju, O. and Joongho, A., "Ontology Module Metrics," IEEE International Conference on e-Business Engineering, 2009.
  11. Farhad, M., "Improving Quality of Ontology: An Ontology Transformation Approach," 22nd International Conference on Data Engineering Workshops, 2006.
  12. Assenova, P. and Johannesson, J., "Improving Quality in Conceptual Modeling by the Use of Schema Transformations," ACM SIGMOD 15th International Conference, pp277-291, 1996.
  13. Shirasaka, S., "Architecture Framework Development Process using Meta-Thinking and Enabler," Ph.D. thesis, Keio University, 2011.
  14. Ackoff, R.L., "From Data to Wisdom," Journal of Applied Systems Analysis, Volume 16, pp3-9, 1989.
  15. Martin, J., "On the Use of Knowledge Modeling Tools and Techniques to Characterize the NOAA Observing System Architecture," INCOSE Symposium (Washington), 2003.
  16. Department of Defense, DOD Architecture Framework Version 2.02.