2 edition of Human factors engineering guidance for the review of advanced alarm systems found in the catalog.
Human factors engineering guidance for the review of advanced alarm systems
by Division of Systems Research, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, Supt. of Docs., U.S. G.P.O. [distributor] in Washington, DC
Written in English
|Statement||prepared by J.M. O"Hara ... [et al.].|
|Contributions||O"Hara, J. M., U.S. Nuclear Regulatory Commission. Office of Nuclear Regulatory Research. Division of Systems Research., Brookhaven National Laboratory.|
|The Physical Object|
|Pagination||1 v. (various pagings)|
Human Factors Chapter 14 Introduction Why are human conditions, such as fatigue, complacency, and stress, so important in aviation maintenance? These conditions, along with many others, are called human factors. Human factors directly cause or contribute to many aviation accidents. It is universally agreed that 80 percent of maintenance errors. This paper describes a research program sponsored by the US Nuclear Regulatory Commission to address the human factors engineering (HFE) aspects of nuclear power plant alarm systems. The overall objective of the program is to develop HFE review guidance for advanced alarm systems.
Human Factors Engineering Review Model for advanced nuclear power reactors Article Human-system Interfaces to Automatic Systems: Review Guidance and Technical Basis. Human factors/usability engineering focuses on the interactions between people and devices. Figure 1 presents a model of the interactions between a user and a device, the processes performed by each, and the user interface between them. The critical element in these interactions is the device user interface.
NUREG, Revision 1, provides human factors engineering (HFE) guidance to the US Nuclear Regulatory Commission staff for its: (1) review of the human system interface (HSI) design submittals prepared by licensees or applications for a license or design certification of commercial nuclear power plants, and (2) performance of HSI reviews that could be undertaken as part of an inspection or. Human factors engineering guidance for the review of advanced alarm systems. NURG/CR BNL-NUREG,  Green, P., William, L., Paelke, G., & C. Serafin. Suggested human factors design guidelines for driver information systems. FHWA-RD, Technical Report UMTRI .
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This report provides guidance to support the review of the human factors aspects of advanced alarm system designs in nuclear power plants. The report is organized into three major sections. The first section describes the methodology and criteria that were used to develop the design review guidelines.
Engineering Guidance for the Review of Advanced Alarm Systems (NUREG/CR). Specifically, where supported by the technical bases, changes were made to the alarm system characterization, HFE guidelines, and the previously identified human performance issues.
While the characterization of alarm systems in NUREG/CR This report provides guidance to support the review of the human factors aspects of advanced alarm system designs in nuclear power plants. The guidance herein will serve as an update and revision to the Nuclear Regulatory Commission's (NRC) existing guidance for reviewing alarm system by: 9.
Get this from a library. Human factors engineering guidance for the review of advanced alarm systems. [J M O'Hara; U.S. Nuclear Regulatory Commission. Office of Nuclear Regulatory Research. Division of Systems Research.; Brookhaven National Laboratory.;]. The book, which is based on the AHFE International Conference on Safety Management and Human Factors, held on July 21–25,in Orlando, Florida, USA, provides readers, including decision makers, professional ergonomists and program managers in government and public authorities, with a timely snapshot of the state of the art in the.
The objective of this study was to update and revise the Nuclear Regulatory Commission's (NRC) guidance for reviewing alarm system designs. The revisions were based on recent NRC research on the effects of alarm system design characteristics on operator performance and on a study examining the introduction of new computer-based human-system interface systems.
FDA has developed this guidance document to assist industry in following appropriate human factors and usability engineering processes to maximize the likelihood that new medical devices will be safe and effective for the intended users, uses and use environments. Outside the ISO group the EEMUA  is an industrial standard developed by the Engineering Equipment and Materials Usersâ€™ Association to support the design of alarm systems taking into account the requirements of the human operator receiving and responding to those alarms, while EEMUA  is focused on the design of HMIs and gives guidance on areas such as display hierarchies.
This report provides guidance to support the review of the human factors aspects of advanced alarm system designs in nuclear power plants. The report is organized into three major sections. The human factors engineering paradigm of designing systems to support the performance needs of HCPs and to reduce hazards was presented as complementary to the paradigms of reducing errors, reducing injuries, and focusing on evidence based medicine.
Each of the other three paradigms offers important insights and directions for improving by: Effective alarm management is an obligation not only to the employees operating our plants but also to the communities granting us our license to operate.
Here is clear guidance for the technical expert who must implement an effective alarm management system and excellent insights for the manager who must justify the necessary investments/5(16). The Engineering Equipment and Materials Users Association (EEMUA) has produced guidance on.
Human factors in engineering and design. administrative controls. Key messages • Integration of human factors principles in the design and engineering of new or modified offshore petroleum facilities can improve safety, integrity and environment outcomes, and reduce ongoing costs over the.
9 rows A Human Factors Engineering or Usability Engineering (HFE/UE) report included in a. The Management of Alarm Systems: A review of current practice in the procurement, design and management of alarm systems in the chemical and power industries.
HSE (). Contact Research Report / A report based upon visits to 15 chemical and power plants, a survey of 96 control room operators and review of the literature on alarm systems.
Healthcare systems need to be redesigned to provide care that is safe, effective and efficient, and meets the multiple needs of patients. This systematic review examines how Human Factors and Ergonomics (HFE) is applied to redesign healthcare work systems and processes and improve quality and safety of by: The Association for the Advancement of Medical Instrumentation® (AAMI) is a nonprofit organization founded in It is a diverse community of more than 9, professionals united by one important mission—the development, management, and use of safe and effective health technology.
Development of Human Factors Engineering Guidance for Safety Evaluations of Advanced Reactors John O’Hara Brookhaven National Laboratory PO Box Upton, NY [email protected] Julius J. Persensky U.S. Nuclear Regulatory Commission MS: TE50 Washington D.C. Autumn Szabo U.S.
Nuclear Regulatory Commission MS: TE The relevance of human factors to the chemical and process industries is discussed. The definition of human factors presented in the first chapter is used to illustrate the types of improvements that can be realized through the application of human factors.
Edward J. Szewczak is Professor of Information Systems at Canisius College. He has co-edited a number of scholarly readings texts for Idea Group Publishing, including Human Factors in Information Systems (with Coral Snodgrass), Managing the Human Side of Information Technology: Challenges and Solutions (with Coral Snodgrass), Measuring Information Technology Investment Payoff (with Mo.
Introduction. Alarm management refers to the effective design, implementation, operation, and maintenance of industrial manufacturing/process plant alarms.
Alarm management is necessary in a process plant environment controlled by an operator using a control system, such as a DCS, or a Programmable Logic Controller (PLC). Human factors and cognitive engineering are considered nowadays as important multidisciplinary domains that focus on improving the relations between humans, technology and systems to be supervised and operated.
The industrial automation and control systems (IACS) in hazardous plants are increasingly computerized and perform various safety.Accordingly, the human factors guidance needs to be updated to serve as the basis for NRC review of these advanced designs.
The purpose of this project was to develop a general approach to advanced HSI review and the human factors guidelines to support. NRC safety reviews of advanced by: