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Human reliability : analysis, prediction, and prevention of human errors /
The objectives of Human Reliability are to build reliability into the job, into the machine, and into the environment, and to let man perform naturally. In this book the author shows how these objectives can be achieved by concentrating on human reliability issues during the design stage. This is do...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Amsterdam ; New York : New York, NY, U.S.A. :
Elsevier ; Distributors for the U.S. and Canada, Elsevier Science Pub. Co.,
1987.
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| Colección: | Advances in human factors/ergonomics ;
7. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Human Reliability: Analysis, Prediction, and Prevention of Human Error; Copyright Page; Table of Contents; Chapter 1. HUMANUM EST ERRARE; 1.1 MAN-MACHINE SYSTEM; 1.2 AUTOMATION AND THE MAN'S CHANGING ROLE; 1.3 HUMAN ERRORS; 1.4 HUMAN INITIATED FAILURE; 1.5 HUMAN ERRORS IN PRODUCTION; 1.6 INSPECTION ERRORS AND PRODUCT QUALITY; 1.7 IMPORTANCE OF HUMAN ERRORS IN SYSTEM SAFETY; Chapter 2. PSYCHOLOGY OF HUMAN ERROR; 2.1 HUMAN BEHAVIOR IN A MAN-MACHINE SYSTEM; 2.2 INFORMATION THEORY; 2.3 HUMAN SENSING CAPABILITIES; 2.4 HUMAN INFORMATION PROCESSING CAPABILITIES; 2.5 HUMAN MEMORY
- 2.6 HUMAN MOTOR RESPONSE CAPABILITIES2.7 LEARNING; 2.8 OTHER STRESS FACTORS AFFECTING HUMAN PERFORMANCE; Chapter 3. HUMAN ERROR; 3.1 THE NATURE OF HUMAN ERROR; 3.2 ANATOMY OF LARGE SCALE ACCIDENTS; 3.3 HUMAN ERROR PREVENTIVE TECHNIQUES; Chapter 4. HUMAN ENGINEERING IN SYSTEMS DESIGN; 4.1 HUMAN ENGINEERING; 4.2 MAN-MACHINE SYSTEMS DESIGN; 4.3 HUMAN AS SENSOR; 4.4 HUMAN AS INFORMATION PROCESSOR; 4.5 HUMAN AS CONTROLLER; 4.6 WORKING CONDITIONS; 4.7 HUMAN-COMPUTER INTERACTION; 4.8 FLEXIBLE MANUFACTURING SYSTEMS AND ROBOTICS; 4.9 THE VALUES OF HUMAN ENGINEERING
- Chapter 5. BASIC CONCEPTS AND MEASURES OF RELIABILITY5.1 RELIABILITY; 5.2 BASIC RELIABILITY CONCEPTS AND DERIVATIONS; 5.3 BASIC FAILURE LAWS; 5.4 RENEWAL THEORY; 5.5 ALTERNATING RENEWAL PROCESS AND AVAILABILITY; 5.6 NONHOMOGENEOUS POISSON PROCESS ; Chapter 6. ANALYSIS OF SYSTEM RELIABILITY; 6.1 SYSTEM RELIABILITY MODELS; 6.2 ANALYSIS OF COMPLEX SYSTEMS; 6.3 SPECIAL SYSTEMS; 6.4 RELIABILITY OPTIMIZATION; Chapter 7. HUMAN RELIABILITY PREDICTION; 7.1 MEASUREMENT OF HUMAN ERROR; 7.2 HUMAN RELIABILITY; 7.3 PREDICTIVE TECHNIQUES FOR HUMAN ERROR PROBABILITIES; 7.4 CRITICAL INCIDENCE TECHNIQUE
- 7.5 HUMAN ERROR DATA BANKS7.6 TASK CRITICALITY ANALYSIS; 7.7 TECHNIQUE FOR HUMAN ERROR RATE PREDICTION (THERP); 7.8 OPERATOR-ACTION TREE METHODOLOGY; 7.9 FAULT-TREE ANALYSIS; 7.10 FAULT-TREE ANALYSIS OF INTERMITTENT EVENTS; 7.11 DIGITAL SIMULATION FOR HUMAN RELIABILITY PREDICTION; Chapter 8. NEW HORIZONS; 8.1 HUMAN ERROR AND LEARNING; 8.2 HUMAN ERROR IN INDUSTRIAL QUALITY INSPECTION; 8.3 HUMAN ERROR IN MAINTENANCE; 8.4 APPLICATION OF OPTIMAL CONTROL MODELS TO HUMAN RELIABILITY ANALYSIS; 8.5 PROGRAMMING ERROR AND SOFTWARE RELIABILITY; 8.6 FUZZY SETS AND APPLICATIONS
- 8.7 IMPACT OF ARTIFICIAL INTELLIGENCE AND EXPERT SYSTEMS ON MANMACHINE SYSTEM RELIABILITYREFERENCES; ABOUT THE AUTHOR; SUBJECT INDEX