Human factors evaluation in nuclear power plant control rooms using a mobile system to support collaborative observation

Abstract Nuclear industry has several regulations and guidelines for human factors engineering (HFE) that should be applied in modernization of existing ones and in construction of new power plants. Their aim is to ensure that human factors/ergonomics are applied during the design process, making the system more controllable, reliable and safe than it would be if human factors were not adequately incorporated. Time consuming and inadequate methods for data collection and analysis in complex settings are often described as a problem to apply human factors in the design of process control systems. To facilitate the use of human factors/ergonomics in the design, we developed a mobile computer system to support collaborative observation of work teams to be used in complex environments. In this paper, we argue that collaborative observation should be used in the work teams’ knowledge elicitation for human system interface design purposes, showing the advantages of the collaborative approach in comparison to other non-collaborative ones. We describe the development of a mobile support system for collaborative observation tested in the evaluation of human system interfaces of a nuclear power simulator crew when operating a digital human-system interface. The results indicated that the mobile system stimulates collaboration among observers and the organization of overall human-system interface evaluation.

[1]  Richard Bentley,et al.  Ethnographically-informed systems design for air traffic control , 1992, CSCW '92.

[2]  John M. O'Hara,et al.  Human Factors Engineering Program Review Model , 2004 .

[3]  Isaac José Antonio Luquetti dos Santos,et al.  Nuclear power plant shift supervisor's decision making during microincidents , 2005 .

[4]  Isaac José Antonio Luquetti dos Santos,et al.  Collective work and resilience of complex systems , 2009 .

[5]  M. Vidal,et al.  Safety implications of cultural and cognitive issues in nuclear power plant operation. , 2006, Applied ergonomics.

[6]  Christopher D. Wickens,et al.  A model for types and levels of human interaction with automation , 2000, IEEE Trans. Syst. Man Cybern. Part A.

[7]  Thomas B. Sheridan,et al.  Humans and Automation: System Design and Research Issues , 2002 .

[8]  Stephanie Guerlain,et al.  A Team Performance Data Collection and Analysis System , 2002 .

[9]  Marcos R. S. Borges,et al.  Human factors approach for evaluation and redesign of human-system interfaces of a nuclear power plant simulator , 2008, Displays.

[10]  Isaac José Antonio Luquetti dos Santos,et al.  A computerized tool to evaluate the cognitive compatibility of the emergency operational procedures task flow , 2009 .

[11]  E. Hutchins Cognition in the wild , 1995 .

[12]  Thomas B. Sheridan,et al.  Using field observations as a tool for discovery: analys ing cognitive and collaborative demands in the operating room , 2004, Cognition, Technology & Work.

[13]  Guy H. Walker,et al.  Human Factors Methods: A Practical Guide for Engineering and Design , 2012 .

[14]  Mark Rouncefield,et al.  Ethnography, Communication and Support for Design , 2000 .

[15]  Paulo Victor Rodrigues de Carvalho,et al.  Nuclear power plant communications in normative and actual practice: A field study of control room operators' communications , 2007 .

[16]  Paulo Victor Rodrigues de Carvalho,et al.  Ergonomic field studies in a nuclear power plant control room , 2006 .

[17]  Erik Hollnagel,et al.  Joint Cognitive Systems: Foundations of Cognitive Systems Engineering , 2005 .

[18]  Dan Shapiro,et al.  Harmonious Working and CSCW: Computer Technology and Air Traffic Control , 1990 .

[19]  Emilie M. Roth,et al.  Operational Concepts, Teamwork, and Technology in Commercial Nuclear Power Stations. , 2006 .

[20]  Kyo Chul Kang,et al.  Issues in Requirements Elicitation , 1992 .

[21]  Gary Klein,et al.  Working Minds: A Practitioner's Guide to Cognitive Task Analysis , 2006 .

[22]  Friedhelm Nachreiner,et al.  Human factors in process control systems: The design of human–machine interfaces ☆ , 2006 .

[23]  James D. Hollan,et al.  Distributed cognition: toward a new foundation for human-computer interaction research , 2000, TCHI.

[24]  Isaac José Antonio Luquetti dos Santos,et al.  The use of a simulator to include human factors issues in the interface design of a nuclear power plant control room , 2008 .