Jonathan K Corrado
Technology, Human Performance, and Nuclear Facilities
A Systems Engineering Approach to Reduce Human Error
Jonathan K Corrado
Technology, Human Performance, and Nuclear Facilities
A Systems Engineering Approach to Reduce Human Error
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Technology, Human Performance, and Nuclear Facilities: A Systems Engineering Approach to Reduce Human Error provides a basic understanding of Human Error/Performance and its relation to industrial operations and advancing technologies incorporated into facilities.
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Technology, Human Performance, and Nuclear Facilities: A Systems Engineering Approach to Reduce Human Error provides a basic understanding of Human Error/Performance and its relation to industrial operations and advancing technologies incorporated into facilities.
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 154
- Erscheinungstermin: 9. Oktober 2024
- Englisch
- Abmessung: 216mm x 140mm x 9mm
- Gewicht: 204g
- ISBN-13: 9781032386782
- ISBN-10: 1032386789
- Artikelnr.: 71692870
- Herstellerkennzeichnung
- Produktsicherheitsverantwortliche/r
- Europaallee 1
- 36244 Bad Hersfeld
- gpsr@libri.de
- Verlag: CRC Press
- Seitenzahl: 154
- Erscheinungstermin: 9. Oktober 2024
- Englisch
- Abmessung: 216mm x 140mm x 9mm
- Gewicht: 204g
- ISBN-13: 9781032386782
- ISBN-10: 1032386789
- Artikelnr.: 71692870
- Herstellerkennzeichnung
- Produktsicherheitsverantwortliche/r
- Europaallee 1
- 36244 Bad Hersfeld
- gpsr@libri.de
Jonathan K. Corrado's professional background is primarily in the nuclear industry, where he has expertise in program management, nuclear safety, nuclear criticality safety, regulatory compliance, event investigation and reporting, regulatory commitment management, and oversight of industrial safety, waste management, environmental monitoring, and Nuclear Materials Control and Accountability. Prior to his work in the nuclear industry, Dr. Corrado served in the US Navy, where he was a nuclear surface warfare officer. He continued his naval career in the US Navy Reserve where he is currently a senior officer and has held a breadth of assignments including command roles on several occasions. Dr. Corrado also briefly worked at a DoD Laboratory and in the defense industry managing systems engineering. Dr. Corrado holds a Bachelor of Science degree in Mechanical Engineering from the Virginia Military Institute, a Master of Engineering Management from the Old Dominion University, a PhD in Systems Engineering from the Colorado State University and is a graduate of the Navy Nuclear Power Program and Naval Postgraduate School. He is also a licensed Professional Engineer in Mechanical Engineering in the State of Ohio. He has several fields of research interest, including nuclear engineering, systems engineering, human performance, and military affairs, and has authored several refereed journal articles in these fields.
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.
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.
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.
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.