Engineering a safer world: systems thinking applied to safety
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Cambridge, Mass. [u.a.]
MIT Press
2011
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| Schriftenreihe: | Engineering systems
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Includes bibliographical references and index |
| Beschreibung: | xx, 534 p. graph. Darst. 24 cm |
| ISBN: | 9780262016629 0262016621 |
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| 245 | 1 | 0 | |a Engineering a safer world |b systems thinking applied to safety |c Nancy G. Leveson |
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Datensatz im Suchindex
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|---|---|
| adam_text | Titel: Engineering a safer world
Autor: Leveson, Nancy Gail
Jahr: 2011
Contents
Series Foreword xv
Preface xvii
I FOUNDATIONS 1
1 Why Do We Need Something Different? 3
2 Questioning the Foundations of Traditional Safety Engineering 7
2.1 Confusing Safety with Reliability 7
2.2 Modeling Accident Causation as Event Chains 15
2.2.1 Direct Causality 19
2.2.2 Subjectivity in Selecting Events 20
2.2.3 Subjectivity in Selecting the Chaining Conditions 22
2.2.4 Discounting Systemic Factors 24
2.2.5 Including Systems Factors in Accident Models 28
2.3 Limitations of Probabilistic Risk Assessment 33
2.4 The Role of Operators in Accidents 36
2.4.1 Do Operators Cause Most Accidents? 37
2.4.2 Hindsight Bias 38
2.4.3 The Impact of System Design on Human Error 39
2.4.4 The Role of Mental Models 41
2.4.5 An Alternative View of Human Error 45
2.5 The Role of Software in Accidents 47
2.6 Static versus Dynamic Views of Systems 51
2.7 The Focus on Determining Blame 53
2.8 Goals for a New Accident Model 57
3 Systems Theory and Its Relationship to Safety 61
3.1 An Introduction to Systems Theory 61
3.2 Emergence and Hierarchy 63
3.3 Communication and Control 64
3.4 Using Systems Theory to Understand Accidents 67
3.5 Systems Engineering and Safety 69
3.6 Building Safety into the System Design 70
Contents
II STAMP: AN ACCIDENT MODEL BASED ON SYSTEMS THEORY 73
4 A Systems-Theoretic View of Causality 75
4.1 Safety Constraints 76
4.2 The Hierarchical Safety Control Structure 80
4.3 Process Models 87
4.4 STAMP 89
4.5 A General Classification of Accident Causes 92
4.5.1 Controller Operation 92
4.5.2 Actuators and Controlled Processes 97
4.5.3 Coordination and Communication among Controllers and Decision Makers 98
4.5.4 Context and Environment 100
4.6 Applying the New Model 100
5 A Friendly Fire Accident 103
5.1 Background 103
5.2 The Hierarchical Safety Control Structure to Prevent Friendly Fire Accidents 105
5.3 The Accident Analysis Using STAMP 119
5.3.1 Proximate Events 119
5.3.2 Physical Process Failures and Dysfunctional Interactions 123
5.3.3 The Controllers of the Aircraft and Weapons 126
5.3.4 The ACE and Mission Director 140
5.3.5 The AWACS Operators 144
5.3.6 The Higher Levels of Control 155
5.4 Conclusions from the Friendly Fire Example 166
III USING STAMP 169
6 Engineering and Operating Safer Systems Using STAMP 171
6.1 Why Are Safety Efforts Sometimes Not Cost-Effective? 171
6.2 The Role of System Engineering in Safety 176
6.3 A System Safety Engineering Process 177
6.3.1 Management 177
6.3.2 Engineering Development 177
6.3.3 Operations 179
7 Fundamentals 181
7.1 Defining Accidents and Unacceptable Losses 181
7.2 System Hazards 184
7.2.1 Drawing the System Boundaries 185
7.2.2 Identifying the High-Level System Hazards 187
7.3 System Safety Requirements and Constraints 191
7.4 The Safety Control Structure 195
7.4.1 The Safety Control Structure for a Technical System 195
7.4.2 Safety Control Structures in Social Systems 198
Contents xi
8 STPA: A New Hazard Analysis Technique 211
8.1 Goals for a New Hazard Analysis Technique 211
8.2 The STPA Process 212
8.3 Identifying Potentially Hazardous Control Actions (Step 1) 217
8.4 Determining How Unsafe Control Actions Could Occur (Step 2) 220
8.4.1 Identifying Causal Scenarios 221
8.4.2 Considering the Degradation of Controls over Time 226
8.5 Human Controllers 227
8.6 Using STPA on Organizational Components of the Safety Control Structure 231
8.6.1 Programmatic and Organizational Risk Analysis 231
8.6.2 Gap Analysis 232
8.6.3 Hazard Analysis to Identity Organizational and Programmatic Risks 235
8.6.4 Use of the Analysis and Potential Extensions 238
8.6.5 Comparisons with Traditional Programmatic Risk Analysis Techniques 239
8.7 Reengineering a Sociotechnical System: Pharmaceutical Safety and the Vioxx
Tragedy 239
8.7.1 The Events Surrounding the Approval and Withdrawal of Vioxx 240
8.7.2 Analysis of the Vioxx Case 242
8.8 Comparison of STPA with Traditional Hazard Analysis Techniques 248
8.9 Summary 249
9 Safety-Guided Design 251
9.1 The Safety-Guided Design Process 251
9.2 An Example of Safety-Guided Design for an Industrial Robot 252
9.3 Designing for Safety 263
9.3.1 Controlled Process and Physical Component Design 263
9.3.2 Functional Design of the Control Algorithm 265
9.4 Special Considerations in Designing for Human Controllers 273
9.4.1 Easy but Ineffective Approaches 273
9.4.2 The Role of Humans in Control Systems 275
9.4.3 Human Error Fundamentals 278
9.4.4 Providing Control Options 281
9.4.5 Matching Tasks to Human Characteristics 283
9.4.6 Designing to Reduce Common Human Errors 284
9.4.7 Support in Creating and Maintaining Accurate Process Models 286
9.4.8 Providing Information and Feedback 295
9.5 Summary 306
10 Integrating Safety into System Engineering 307
10.1 The Role of Specifications and the Safety Information System 307
10.2 Intent Specifications 309
10.3 An Integrated System and Safety Engineering Process 314
10.3.1 Establishing the Goals for the System 315
10.3.2 Defining Accidents 317
10.3.3 Identifying the System Hazards 317
10.3.4 Integrating Safety into Architecture Selection and System Trade Studies 318
Contents
10.3.5 Documenting Environmental Assumptions 327
10.3.6 System-Level Requirements Generation 329
10.3.7 Identifying High-Level Design and Safety Constraints 331
10.3.8 System Design and Analysis 338
10.3.9 Documenting System Limitations 345
10.3.10 System Certification, Maintenance, and Evolution 347
11 Analyzing Accidents and Incidents (CAST) 349
11.1 The General Process of Applying STAMP to Accident Analysis 350
11.2 Creating the Proximal Event Chain 352
11.3 Defining the System(s) and Hazards Involved in the Loss 353
11.4 Documenting the Safety Control Structure 356
11.5 Analyzing the Physical Process 357
11.6 Analyzing the Higher Levels of the Safety Control Structure 360
11.7 A Few Words about Hindsight Bias and Examples 372
11.8 Coordination and Communication 378
11.9 Dynamics and Migration to a High-Risk State 382
11.10 Generating Recommendations from the CAST Analysis 383
11.11 Experimental Comparisons of CAST with Traditional Accident Analysis 388
11.12 Summary 390
12 Controlling Safety during Operations 391
12.1 Operations Based on STAMP 392
12.2 Detecting Development Process Flaws during Operations 394
12.3 Managing or Controlling Change 396
12.3.1 Planned Changes 397
12.3.2 Unplanned Changes 398
12.4 Feedback Channels 400
12.4.1 Audits and Performance Assessments 401
12.4.2 Anomaly, Incident, and Accident Investigation 403
12.4.3 Reporting Systems 404
12.5 Using the Feedback 409
12.6 Education and Training 410
12.7 Creating an Operations Safety Management Plan 412
12.8 Applying STAMP to Occupational Safety 414
13 Managing Safety and the Safety Culture 415
13.1 Why Should Managers Care about and Invest in Safety? 415
13.2 General Requirements for Achieving Safety Goals 420
13.2.1 Management Commitment and Leadership 421
13.2.2 Corporate Safety Policy 422
13.2.3 Communication and Risk Awareness 423
13.2.4 Controls on System Migration toward Higher Risk 425
13.2.5 Safety, Culture, and Blame 426
13.2.6 Creating an Effective Safety Control Structure 433
13.2.7 The Safety Information System 440
Contents
13.2.8 Continual Improvement and Learning 442
13.2.9 Education, Training, and Capability Development 442
13.3 Final Thoughts 443
14 SUBSAFE: An Example of a Successful Safety Program 445
14.1 History 445
14.2 SUBSAFE Goals and Requirements 448
14.3 SUBSAFE Risk Management Fundamentals 450
14.4 Separation of Powers 451
14.5 Certification 452
14.5.1 Initial Certification 453
14.5.2 Maintaining Certification 454
14.6 Audit Procedures and Approach 455
14.7 Problem Reporting and Critiques 458
14.8 Challenges 458
14.9 Continual Training and Education 459
14.10 Execution and Compliance over the Life of a Submarine 459
14.11 Lessons to Be Learned from SUBSAFE 460
Epilogue 463
APPENDIXES 465
A Definitions 467
B The Loss of a Satellite 469
C A Bacterial Contamination of a Public Water Supply 495
D A Brief Introduction to System Dynamics Modeling 517
References 521
Index 531
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| spelling | Leveson, Nancy Gail Verfasser aut Engineering a safer world systems thinking applied to safety Nancy G. Leveson Cambridge, Mass. [u.a.] MIT Press 2011 xx, 534 p. graph. Darst. 24 cm txt rdacontent n rdamedia nc rdacarrier Engineering systems Includes bibliographical references and index Industrial safety System safety Sicherheitstechnik (DE-588)4077423-5 gnd rswk-swf Sicherheitstechnik (DE-588)4077423-5 s DE-604 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025192225&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Leveson, Nancy Gail Engineering a safer world systems thinking applied to safety Industrial safety System safety Sicherheitstechnik (DE-588)4077423-5 gnd |
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| title | Engineering a safer world systems thinking applied to safety |
| title_auth | Engineering a safer world systems thinking applied to safety |
| title_exact_search | Engineering a safer world systems thinking applied to safety |
| title_full | Engineering a safer world systems thinking applied to safety Nancy G. Leveson |
| title_fullStr | Engineering a safer world systems thinking applied to safety Nancy G. Leveson |
| title_full_unstemmed | Engineering a safer world systems thinking applied to safety Nancy G. Leveson |
| title_short | Engineering a safer world |
| title_sort | engineering a safer world systems thinking applied to safety |
| title_sub | systems thinking applied to safety |
| topic | Industrial safety System safety Sicherheitstechnik (DE-588)4077423-5 gnd |
| topic_facet | Industrial safety System safety Sicherheitstechnik |
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