Technology, Human Performance, and Nuclear Facilities
portes grátis
Technology, Human Performance, and Nuclear Facilities
A Systems Engineering Approach to Reduce Human Error
Corrado, Jonathan K.
Taylor & Francis Ltd
10/2024
154
Mole
9781032386782
Pré-lançamento - envio 15 a 20 dias após a sua edição
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1. Incident Case Studies in the US Nuclear Power Industry and Impetus for Human Error Reduction. 2. Nuclear Incident Severity Determination and Public and Industry Perception of Incidents and the Impact this has on Nuclear Powers Future. 3. Why Nuclear Incidents Happen: A Detailed Review of Human Performance, Human Errors, and Technology Interface. 4. An Observational Study on the Interface Between Human Error and Technology Advancement. 5. The Data Analysis and Result Interpretation Correlating Human Error and Technology Advancement in Nuclear Operation. 6. The Application of the Systems Engineering Process to Enhance Human Performance Improvement in the Operation of Nuclear Facilities. 7. The Incorporation of Procedure and Training Development in the Systems Engineering Process as a Method of Human Performance Improvement in Nuclear Facility Operation. 8. Final Recommendations for the Favorable Combination of Advancing Technology and Human Performance in the Nuclear Setting. Appendix. Survey Structure, Analysis, and Results.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Systems Engineering;Human Error Reduction;System Optimization;Human-Machine Interface;Automation;Risk and Uncertainty;Human Performance Improvement;ASME Journal;Probabilistic Safety Analysis;Dynamic Control Structure;Systems Engineering Process;Copyright Clearance Center;Deterministic Safety Analysis;Latent Error;Reactor Core Meltdowns;Systems Engineering Approach;Human Machine Interface Design;Operator Error;Wilcoxon Mann Whitney Test;Pilot Operated Relief Valve;INES Scale;Fukushima Nuclear Power Plant Accident;Independent Groups;Human Machine Interface;Kolmogorov Smirnov Test;International Nuclear Event Scale;Slope Intercept Equation;Organizational DNA;Soviet Air Defense Forces;Capacity Factor
1. Incident Case Studies in the US Nuclear Power Industry and Impetus for Human Error Reduction. 2. Nuclear Incident Severity Determination and Public and Industry Perception of Incidents and the Impact this has on Nuclear Powers Future. 3. Why Nuclear Incidents Happen: A Detailed Review of Human Performance, Human Errors, and Technology Interface. 4. An Observational Study on the Interface Between Human Error and Technology Advancement. 5. The Data Analysis and Result Interpretation Correlating Human Error and Technology Advancement in Nuclear Operation. 6. The Application of the Systems Engineering Process to Enhance Human Performance Improvement in the Operation of Nuclear Facilities. 7. The Incorporation of Procedure and Training Development in the Systems Engineering Process as a Method of Human Performance Improvement in Nuclear Facility Operation. 8. Final Recommendations for the Favorable Combination of Advancing Technology and Human Performance in the Nuclear Setting. Appendix. Survey Structure, Analysis, and Results.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Systems Engineering;Human Error Reduction;System Optimization;Human-Machine Interface;Automation;Risk and Uncertainty;Human Performance Improvement;ASME Journal;Probabilistic Safety Analysis;Dynamic Control Structure;Systems Engineering Process;Copyright Clearance Center;Deterministic Safety Analysis;Latent Error;Reactor Core Meltdowns;Systems Engineering Approach;Human Machine Interface Design;Operator Error;Wilcoxon Mann Whitney Test;Pilot Operated Relief Valve;INES Scale;Fukushima Nuclear Power Plant Accident;Independent Groups;Human Machine Interface;Kolmogorov Smirnov Test;International Nuclear Event Scale;Slope Intercept Equation;Organizational DNA;Soviet Air Defense Forces;Capacity Factor
