Journal of the Korea Safety Management & Science (대한안전경영과학회지)

Korea Safety Management & Science (대한안전경영과학회)
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Design Requirements-Driven Process for Developing Human-System Interfaces

설계 요건 중심의 인간-시스템 인터페이스 개발 프로세스

  • Ham, Dong-Han (School of Computing Science, Middlesex University, UK)
  • 함동한 (영국 미들섹스 대학교 전산학부)
  • Published : 2008.03.30
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Abstract

Development of human-system interfaces (HSI) supporting the interaction between human and automation-based systems, particularly safety-critical sociotechnial systems, entails a wide range of design and evaluation problems. To help HSI designers deal with these problems, many methodologies from traditional human-computer interaction, software engineering, and systems engineering have been applied; however, they have been proved inadequate to develop cognitively well engineered HSI. This paper takes a viewpoint that HSI development is itself a cognitive process consisting of various decision making and problem solving activities and then proposes a design requirements-driven process for developing HSI. High-level design problems and their corresponding design requirements for visual information display are explained to clarify the concept of design requirements. Lastly, conceptual design of software system to support the requirements-driven process and designers' knowledge management is described.

Keywords

References

  1. 한국과학기술원. 1999. 원전 제어실 설계에 대한 인지/인간공학적 평가(최종보고서). 한국전력공사 전력연구원
  2. Ham, Dong-Han and Wan Chul Yoon. 2001. Design of Information Content and Layout for Process Control Based on Goal-Means Domain Analysis. Cognition, Technology, and Work. 3(4): 205-223
  3. Ham, Dong-Han, Wan Chul Yoon, and Byoungtae Han. 2008. Experimental Study on the Effects of Visualized Functionally Abstracted Information on Process Control Tasks. Reliability Engineering and System Safety. 93(2): 254-270 https://doi.org/10.1016/j.ress.2006.12.003
  4. Hollnagel, Erik. and David Woods. 2005. Joint Cognitive Systems: Foundation of Cognitive Systems Engineering. Taylor & Francis
  5. Leveson, Nancy. 1995. Safeware: System Safety and Computers. Addison-Wesley
  6. Norman, Donald. 1998. The Invisible Computer. MIT Press
  7. Perrow, Charles. 1999. Normal Accidents Living with High-Risk Technologies. Princeton University Press
  8. Rasmussen, Jens, Annelise Pejtersen, and Goodstein, L.P. 1994. Cognitive Systems Engineering, Wiley
  9. Rasmussen, Jens. 1995. New Technology and Human Error. Wiley
  10. Rasmussen, Jens. 1999. Ecological Interface Design for Reliable Human-Machine Systems. International Journal of Aviation Psychology. 9(3): 203-223 https://doi.org/10.1207/s15327108ijap0903_2
  11. Rouse, William. 1991. Design for Success: Human-Centered Approach to Designing Successful Products and Systems. Wiley
  12. Stone, Debbie, Caroline Jarrett, Mark Woodroffe, and Shaley Minocha. 2005. User Interface Design and Evaluation. Morgan Kaufmann
  13. Sutcliffe, Alistair and John Carroll. 1999. Designing Claims for Reuse in Interactive Systems Design. Internatinal Journal of Human-Computer Studies. 50(3): 213-241 https://doi.org/10.1006/ijhc.1999.0245
  14. US-NRC. 1994. Human Factors Engineering Program Review Model. US-NRC
  15. US-NRC, 1996. Human-System Interface Design Review Guidelines. US-NRC
  16. Vicente, Kim. 1999. Cognitive Work Analysis. Lawrence Erlbaum Associates