INCOSE Systems Engineering Handbook
John Wiley & Sons Inc (Verlag)
978-1-118-99940-0 (ISBN)
- Titel erscheint in neuer Auflage
- Artikel merken
A detailed and thorough reference on the discipline and practice of systems engineering
The objective of the International Council on Systems Engineering (INCOSE) Systems Engineering Handbook is to describe key process activities performed by systems engineers and other engineering professionals throughout the life cycle of a system. The book covers a wide range of fundamental system concepts that broaden the thinking of the systems engineering practitioner, such as system thinking, system science, life cycle management, specialty engineering, system of systems, and agile and iterative methods. This book also defines the discipline and practice of systems engineering for students and practicing professionals alike, providing an authoritative reference that is acknowledged worldwide.
The latest edition of the INCOSE Systems Engineering Handbook:
Is consistent with ISO/IEC/IEEE 15288:2015 Systems and software engineering—System life cycle processes and the Guide to the Systems Engineering Body of Knowledge (SEBoK)
Has been updated to include the latest concepts of the INCOSE working groups
Is the body of knowledge for the INCOSE Certification Process
This book is ideal for any engineering professional who has an interest in or needs to apply systems engineering practices. This includes the experienced systems engineer who needs a convenient reference, a product engineer or engineer in another discipline who needs to perform systems engineering, a new systems engineer, or anyone interested in learning more about systems engineering.
HANDBOOK EDITORS David D. Walden, ESEP, is co-owner and principal Consultant for Sysnovation, LLC, USA, which provides consulting and training in systems engineering throughout the world. Mr. Walden is Member of Tau Beta Pi, Senior Member of the IEEE, and an INCOSE ESEP. Garry J. Roedler, ESEP, is Fellow and the Engineering Outreach Program Manager for Lockheed Martin, USA. Mr. Roedler is an INCOSE Fellow and the recipient of the INCOSE Founders Award, the IEEE Golden Core, the Lockheed Martin Technical Leadership Award, and the Lockheed Martin NOVA Award. Kevin J. Forsberg, ESEP, is a recipient of the INCOSE Pioneer Award, an INCOSE Fellow, and a Fellow of ASME. Dr. Forsberg is co-owner and principal Consultant for OGR Systems, Inc., which provides consulting and training in systems engineering and project management worldwide. R. Douglas Hamelin is a Systems Engineering Specialist and Technical Writer for the Idaho National Laboratory. Mr. Hamelin is trained in requirements management, and contributes to a wide range of systems engineering applications as a functional analyst and document specialist. Thomas M. Shortell, CSEP, is a Senior Member of the engineering staff at Lockheed Martin. Mr. Shortell's experience spans requirements, architecture, integration, verification, and validation. He is a member of INCOSE and an INCOSE CSEP.
INCOSE Notices vii
History of Changes viii
Preface ix
List of Figures x
List of Tables xii
1 Systems Engineering Handbook Scope 1
1.1 Purpose 1
1.2 Application 1
1.3 Contents 1
1.4 Format 3
1.5 Definitions of Frequently Used Terms 4
2 Systems Engineering Overview 5
2.1 Introduction 5
2.2 Definitions and Concepts of a System 5
2.3 The Hierarchy within a System 7
2.4 Definition of Systems of Systems 8
2.5 Enabling Systems 10
2.6 Definition of Systems Engineering 11
2.7 Origins and Evolution of Systems Engineering 12
2.8 Use and Value of Systems Engineering 13
2.9 Systems Science and Systems Thinking 17
2.10 Systems Engineering Leadership 21
2.11 Systems Engineering Professional Development 22
3 Generic Life Cycle Stages 25
3.1 Introduction 25
3.2 Life Cycle Characteristics 26
3.3 Life Cycle Stages 27
3.4 Life Cycle Approaches 32
3.5 What Is Best for Your Organization, Project, or Team? 36
3.6 Introduction to Case Studies 39
4 Technical Processes 47
4.1 Business or Mission Analysis Process 49
4.2 Stakeholder Needs and Requirements Definition Process 52
4.3 System Requirements Definition Process 57
4.4 Architecture Definition Process 64
4.5 Design Definition Process 70
4.6 System Analysis Process 74
4.7 Implementation Process 77
4.8 Integration Process 79
4.9 Verification Process 83
4.10 Transition Process 88
4.11 Validation Process 89
4.12 Operation Process 95
4.13 Maintenance Process 97
4.14 Disposal Process 101
5 Technical Management Processes 104
5.1 Project Planning Process 104
5.2 Project Assessment and Control Process 108
5.3 Decision Management Process 110
5.4 Risk Management Process 114
5.5 Configuration Management Process 122
5.6 Information Management Process 128
5.7 Measurement Process 130
5.8 Quality Assurance Process 135
6 Agreement Processes 139
6.1 Acquisition Process 140
6.2 Supply Process 142
7 Organizational Project‐Enabling Processes 145
7.1 Life Cycle Model Management Process 145
7.2 Infrastructure Management Process 149
7.3 Portfolio Management Process 151
7.4 Human Resource Management Process 154
7.5 Quality Management Process 156
7.6 Knowledge Management Process 158
8 Tailoring process and Application of Systems Engineering 162
8.1 Tailoring Process 163
8.2 Tailoring for Specific Product Sector or Domain Application 165
8.3 Application of Systems Engineering for Product Line Management 170
8.4 Application of Systems Engineering for Services 171
8.5 Application of Systems Engineering for Enterprises 175
8.6 Application of Systems Engineering for Very Small and Micro Enterprises 179
9 Cross‐Cutting Systems Engineering Methods 180
9.1 Modeling and Simulation 180
9.2 Model‐Based Systems Engineering 189
9.3 Functions‐Based Systems Engineering Method 190
9.4 Object‐Oriented Systems Engineering Method 193
9.5 Prototyping 197
9.6 Interface Management 197
9.7 Integrated Product and Process Development 199
9.8 Lean Systems Engineering 203
9.9 Agile Systems Engineering 207
10 Specialty Engineering Activities 211
10.1 Affordability/Cost‐Effectiveness/ Life Cycle Cost Analysis 211
10.2 Electromagnetic Compatibility 219
10.3 Environmental Engineering/Impact Analysis 220
10.4 Interoperability Analysis 221
10.5 Logistics Engineering 222
10.6 Manufacturing and Producibility Analysis 225
10.7 Mass Properties Engineering 225
10.8 Reliability, Availability, and Maintainability 226
10.9 Resilience Engineering 229
10.10 System Safety Engineering 231
10.11 System Security Engineering 234
10.12 Training Needs Analysis 237
10.13 Usability Analysis/Human Systems Integration 237
10.14 Value Engineering 241
Appendix A: References 246
Appendix B: Acronyms 257
Appendix C: Terms and Definitions 261
Appendix D: N2 Diagram of Systems Engineering Processes 267
Appendix E: Input/Output Descriptions 269
Appendix F: Acknowledgements 284
Appendix G: Comment Form 286
Index 287
Erscheint lt. Verlag | 11.8.2015 |
---|---|
Verlagsort | New York |
Sprache | englisch |
Maße | 201 x 249 mm |
Gewicht | 703 g |
Themenwelt | Technik ► Elektrotechnik / Energietechnik |
ISBN-10 | 1-118-99940-1 / 1118999401 |
ISBN-13 | 978-1-118-99940-0 / 9781118999400 |
Zustand | Neuware |
Haben Sie eine Frage zum Produkt? |
aus dem Bereich