Hazard analysis techniques for system safety / Clifton A. Ericson, II.

By: Material type: TextTextPublisher: Hoboken, New Jersey : John Wiley & Sons, Inc., 2015Edition: Second editionDescription: 1 online resourceContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781119101727
  • 1119101727
  • 9781119101680
  • 1119101689
Subject(s): Genre/Form: Additional physical formats: Print version:: Hazard analysis techniques for system safety.DDC classification:
  • 363.11 23
LOC classification:
  • T55
Online resources:
Contents:
Title Page; Copyright; Preface; Acknowledgments; Chapter 1: System Safety and Hazard Analysis; 1.1 Introduction; 1.2 The Need for Hazard Analysis; 1.3 System Safety Background; 1.4 System Safety Overview; 1.5 System Safety Process; 1.6 System Safety Standards; 1.7 System Safety Principles; 1.8 Key Terms; 1.9 Summary; Chapter 2: Systems; 2.1 System Concept; 2.2 System Attributes; 2.3 System Types; 2.4 System Life Cycle; 2.5 System Development; 2.6 System Development Process; 2.7 System Hierarchy; 2.8 System Views; 2.9 System Development Artifacts; 2.10 Systems Complexity and Safety.
2.11 System Requirements2.12 System Laws; 2.13 Summary; References; Chapter 3: Hazards, Mishap, and Risk; 3.1 Introduction; 3.2 Hazard, Mishap, and Risk Definitions; 3.3 Accident (Mishap) Theory; 3.4 The Hazard-Mishap Relationship; 3.5 Hazard Risk; 3.6 The Components of A Hazard; 3.7 Hazard Triangle; 3.8 Hazard Actuation; 3.9 Hazard Causal Factors; 3.10 Hazard-Mishap Probability Example; 3.11 Recognizing Hazards; 3.12 Hazard Description; 3.13 Hazard Theory Summary; Hazard Theory References; Further Readings; Chapter 4: Hazard Analysis Features; 4.1 Introduction; 4.2 Types Versus Technique.
4.3 Description of Hazard Analysis Types4.4 The Timing of Hazard Analysis Types; 4.5 The Interrelationship of Hazard Analysis Types; 4.6 Hazard Analysis Techniques; 4.7 Hazard Analysis Technique Attributes; 4.8 Primary and Secondary Techniques; 4.9 Inductive and Deductive Techniques; 4.10 Qualitative and Quantitative Techniques; 4.11 Summary; Further Readings; Chapter 5: Hazard Recognition and Management; 5.1 Introduction; 5.2 Hazard Analysis Tasks; 5.3 Hazard Recognition; 5.4 Describing the Identified Hazard; 5.5 Hazard Types By General Circumstances; 5.6 Hazard Types By Analysis Category.
5.7 Modelling Hazard Space5.8 Summary; References; Chapter 6: Functional Hazard Analysis; 6.1 FHA Introduction; 6.2 FHA Background; 6.3 FHA History; 6.4 FHA Theory; 6.5 FHA Methodology; 6.6 FHA Worksheets; 6.7 FHA Example 1: Aircraft Flight Functions; 6.8 FHA Example 2: Aircraft Landing Gear Software; 6.9 FHA Example 3: ACE Missile System; 6.10 FHA Advantages and Disadvantages; 6.11 Common FHA Mistakes to Avoid; 6.12 FHA Summary; Further Readings; Chapter 7: Preliminary Hazard List Analysis; 7.1 PHL Introduction; 7.2 PHL Background; 7.3 PHL History; 7.4 PHL Theory; 7.5 PHL Methodology.
7.6 PHL Worksheet7.7 Hazard Checklists; 7.8 PHL Guidelines; 7.9 PHL Example: Ace Missile System; 7.10 PHL Advantages and Disadvantages; 7.11 Common PHL Mistakes to Avoid; 7.12 PHL Summary; Further Readings; Chapter 8: Preliminary Hazard Analysis; 8.1 PHA Introduction; 8.2 PHA Background; 8.3 PHA History; 8.4 PHA Theory; 8.5 PHA Methodology; 8.6 PHA Worksheet; 8.7 PHA Guidelines; 8.8 PHA Example: Ace Missile System; 8.9 PHA Advantages and Disadvantages; 8.10 Common PHA Mistakes to Avoid; 8.11 PHA Summary; Further Readings; Chapter 9: Subsystem Hazard Analysis; 9.1 SSHA Introduction.
Summary: "This book explains, in detail, how to perform the most commonly used hazard analysis techniques employed by the system safety engineering discipline. The book also explains when and why to use each technique. The goal of this book is to explain each technique with sufficient detail and examples that the techniques can be easily understood and performed by the reader. The book is not overly technical, and can be easily understood by readers with a minimal amount of technical background. This book gathers the techniques safety analysts can apply into one reference source and describes them in a way that benefits both new and seasoned safety analysts. In addition, this book describes the three components that comprise a hazard, and how to use these components to recognized hazards during an analysis. It includes detailed examples that apply the methodology to everyday problems, making the concepts easier for the reader to grasp. The new edition updates the chapters with the latest information and includes new chapters on Concepts of Hazard Recognition, as well as chapters that address new techniques added in MIL-STD-882E and techniques that are becoming popular in different industries such as: Environmental Hazard Analysis, Process Hazard Analysis, Test Hazard Analysis, Job Hazard Analysis, and System of Systems Hazard Analysis"-- Provided by publisher.
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Books Books Odessa College Stacks 363.11 ER68H2 (Browse shelf(Opens below)) 1 Available 51994001714619

Includes bibliographical references and index.

"This book explains, in detail, how to perform the most commonly used hazard analysis techniques employed by the system safety engineering discipline. The book also explains when and why to use each technique. The goal of this book is to explain each technique with sufficient detail and examples that the techniques can be easily understood and performed by the reader. The book is not overly technical, and can be easily understood by readers with a minimal amount of technical background. This book gathers the techniques safety analysts can apply into one reference source and describes them in a way that benefits both new and seasoned safety analysts. In addition, this book describes the three components that comprise a hazard, and how to use these components to recognized hazards during an analysis. It includes detailed examples that apply the methodology to everyday problems, making the concepts easier for the reader to grasp. The new edition updates the chapters with the latest information and includes new chapters on Concepts of Hazard Recognition, as well as chapters that address new techniques added in MIL-STD-882E and techniques that are becoming popular in different industries such as: Environmental Hazard Analysis, Process Hazard Analysis, Test Hazard Analysis, Job Hazard Analysis, and System of Systems Hazard Analysis"-- Provided by publisher.

Print version record and CIP data provided by publisher.

Title Page; Copyright; Preface; Acknowledgments; Chapter 1: System Safety and Hazard Analysis; 1.1 Introduction; 1.2 The Need for Hazard Analysis; 1.3 System Safety Background; 1.4 System Safety Overview; 1.5 System Safety Process; 1.6 System Safety Standards; 1.7 System Safety Principles; 1.8 Key Terms; 1.9 Summary; Chapter 2: Systems; 2.1 System Concept; 2.2 System Attributes; 2.3 System Types; 2.4 System Life Cycle; 2.5 System Development; 2.6 System Development Process; 2.7 System Hierarchy; 2.8 System Views; 2.9 System Development Artifacts; 2.10 Systems Complexity and Safety.

2.11 System Requirements2.12 System Laws; 2.13 Summary; References; Chapter 3: Hazards, Mishap, and Risk; 3.1 Introduction; 3.2 Hazard, Mishap, and Risk Definitions; 3.3 Accident (Mishap) Theory; 3.4 The Hazard-Mishap Relationship; 3.5 Hazard Risk; 3.6 The Components of A Hazard; 3.7 Hazard Triangle; 3.8 Hazard Actuation; 3.9 Hazard Causal Factors; 3.10 Hazard-Mishap Probability Example; 3.11 Recognizing Hazards; 3.12 Hazard Description; 3.13 Hazard Theory Summary; Hazard Theory References; Further Readings; Chapter 4: Hazard Analysis Features; 4.1 Introduction; 4.2 Types Versus Technique.

4.3 Description of Hazard Analysis Types4.4 The Timing of Hazard Analysis Types; 4.5 The Interrelationship of Hazard Analysis Types; 4.6 Hazard Analysis Techniques; 4.7 Hazard Analysis Technique Attributes; 4.8 Primary and Secondary Techniques; 4.9 Inductive and Deductive Techniques; 4.10 Qualitative and Quantitative Techniques; 4.11 Summary; Further Readings; Chapter 5: Hazard Recognition and Management; 5.1 Introduction; 5.2 Hazard Analysis Tasks; 5.3 Hazard Recognition; 5.4 Describing the Identified Hazard; 5.5 Hazard Types By General Circumstances; 5.6 Hazard Types By Analysis Category.

5.7 Modelling Hazard Space5.8 Summary; References; Chapter 6: Functional Hazard Analysis; 6.1 FHA Introduction; 6.2 FHA Background; 6.3 FHA History; 6.4 FHA Theory; 6.5 FHA Methodology; 6.6 FHA Worksheets; 6.7 FHA Example 1: Aircraft Flight Functions; 6.8 FHA Example 2: Aircraft Landing Gear Software; 6.9 FHA Example 3: ACE Missile System; 6.10 FHA Advantages and Disadvantages; 6.11 Common FHA Mistakes to Avoid; 6.12 FHA Summary; Further Readings; Chapter 7: Preliminary Hazard List Analysis; 7.1 PHL Introduction; 7.2 PHL Background; 7.3 PHL History; 7.4 PHL Theory; 7.5 PHL Methodology.

7.6 PHL Worksheet7.7 Hazard Checklists; 7.8 PHL Guidelines; 7.9 PHL Example: Ace Missile System; 7.10 PHL Advantages and Disadvantages; 7.11 Common PHL Mistakes to Avoid; 7.12 PHL Summary; Further Readings; Chapter 8: Preliminary Hazard Analysis; 8.1 PHA Introduction; 8.2 PHA Background; 8.3 PHA History; 8.4 PHA Theory; 8.5 PHA Methodology; 8.6 PHA Worksheet; 8.7 PHA Guidelines; 8.8 PHA Example: Ace Missile System; 8.9 PHA Advantages and Disadvantages; 8.10 Common PHA Mistakes to Avoid; 8.11 PHA Summary; Further Readings; Chapter 9: Subsystem Hazard Analysis; 9.1 SSHA Introduction.

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