Systems Engineering Principles and Practice
by Kossiakoff, Alexander; Sweet, William N.; Seymour, Sam; Biemer, Steven M.Edition: 2nd
Format: Hardcover
Pub. Date: 2011-05-24
Publisher(s): Wiley-Interscience
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Summary
This bestselling textbook on systems engineering addresses the need for an introductory overview, first-text for the development and acquisition of complex technical systems. The material is fundamental to learning how to think like a systems engineer and carry out best practices in the field. Now, colleagues of the original authors have upgraded this unique interdisciplinary guide to maintain relevance and currency in this rapidly changing field, providing updated problems and references with a new solutions manual available for instructors. Advanced undergraduate and graduate students in systems engineering or project management will find it invaluable.
Author Biography
Alexander Kossiakoff (deceased) was a director and chief scientist of the Johns Hopkins University Applied Physics Laboratory, as well as program chair of the MS program in systems engineering and technical management at JHU Whiting School of Engineering. William N. Sweet, now retired, was associate department head of the Fleet Systems Department at the Johns Hopkins University Applied Physics Laboratory. Samuel J. Seymour is the systems engineering vice chair at the Johns Hopkins University Whiting School of Engineering. He served under Professor Kossiakoff for more than twenty-five years. Steven M. Biemer is an instructor at the Johns Hopkins University Whiting School of Engineering. He assisted Professor Kossiakoff in developing the first edition of this book.
Table of Contents
| List of Illustrations | p. xiii |
| List of Tables | p. xvii |
| Preface to the Second Edition | p. xix |
| Preface to the First Edition | p. xxiii |
| Foundations of Systems Engineering | p. 1 |
| Systems Engineering and the World of Modern Systems | p. 3 |
| What Is Systems Engineering? | p. 3 |
| Origins of Systems Engineering | p. 5 |
| Examples of Systems Requiring Systems Engineering | p. 10 |
| Systems Engineering as a Profession | p. 12 |
| Systems Engineer Career Development Model | p. 18 |
| The Power of Systems Engineering | p. 21 |
| Summary | p. 23 |
| Problems | p. 25 |
| Further Reading | p. 26 |
| Systems Engineering Landscape | p. 27 |
| Systems Engineering Viewpoint | p. 27 |
| Perspectives of Systems Engineering | p. 32 |
| Systems Domains | p. 34 |
| Systems Engineering Fields | p. 35 |
| Systems Engineering Approaches | p. 36 |
| Systems Engineering Activities and Products | p. 37 |
| Summary | p. 38 |
| Problems | p. 39 |
| Further Reading | p. 40 |
| Structure of Complex Systems | p. 41 |
| System Building Blocks and Interfaces | p. 41 |
| Hierarchy of Complex Systems | p. 42 |
| System Building Blocks | p. 45 |
| The System Environment | p. 51 |
| Interfaces and Interactions | p. 58 |
| Complexity in Modern Systems | p. 60 |
| Summary | p. 64 |
| Problems | p. 66 |
| Further Reading | p. 67 |
| The System Development Process | p. 69 |
| Systems Engineering through the System Life Cycle | p. 69 |
| System Life Cycle | p. 70 |
| Evolutionary Characteristics of the Development Process | p. 82 |
| The Systems Engineering Method | p. 87 |
| Testing throughout System Development | p. 103 |
| Summary | p. 106 |
| Problems | p. 108 |
| Further Reading | p. 109 |
| Systems Engineering Management | p. 111 |
| Managing System Development and Risks | p. 111 |
| WBS | p. 113 |
| SEMP | p. 117 |
| Risk Management | p. 120 |
| Organization of Systems Engineering | p. 128 |
| Summary | p. 132 |
| Problems | p. 133 |
| Further Reading | p. 134 |
| Concept Development Stage | p. 137 |
| Needs Analysis | p. 139 |
| Originating a New System | p. 139 |
| Operations Analysis | p. 146 |
| Functional Analysis | p. 151 |
| Feasibility Definition | p. 153 |
| Needs Validation | p. 155 |
| System Operational Requirements | p. 158 |
| Summary | p. 162 |
| Problems | p. 163 |
| Further Reading | p. 164 |
| Concept Exploration | p. 165 |
| Developing the System Requirements | p. 165 |
| Operational Requirements Analysis | p. 170 |
| Performance Requirements Formulation | p. 178 |
| Implementation of Concept Exploration | p. 185 |
| Performance Requirements Validation | p. 189 |
| Summary | p. 191 |
| Problems | p. 193 |
| Further Reading | p. 194 |
| Concept Definition | p. 197 |
| Selecting the System Concept | p. 197 |
| Performance Requirements Analysis | p. 201 |
| Functional Analysis and Formulation | p. 206 |
| Functional Allocation | p. 212 |
| Concept Selection | p. 214 |
| Concept Validation | p. 217 |
| System Development Planning | p. 219 |
| Systems Architecting | p. 222 |
| System Modeling Languages: Unified Modeling Language (UML) and Systems Modeling Language (SysML) | p. 228 |
| Model-Based Systems Engineering (MBSE) | p. 243 |
| System Functional Specifications | p. 246 |
| Summary | p. 247 |
| Problems | p. 250 |
| Further Reading | p. 252 |
| Decision Analysis and Support | p. 255 |
| Decision Making | p. 256 |
| Modeling throughout System Development | p. 262 |
| Modeling for Decisions | p. 263 |
| Simulation | p. 272 |
| Trade-Off Analysis | p. 282 |
| Review of Probability | p. 295 |
| Evaluation Methods | p. 299 |
| Summary | p. 308 |
| Problems | p. 311 |
| Further Reading | p. 312 |
| Engineering Development Stage | p. 315 |
| Advanced Development | p. 317 |
| Reducing Program Risks | p. 317 |
| Requirements Analysis | p. 322 |
| Functional Analysis and Design | p. 327 |
| Prototype Development as a Risk Mitigation Technique | p. 333 |
| Development Testing | p. 340 |
| Risk Reduction | p. 349 |
| Summary | p. 350 |
| Problems | p. 352 |
| Further Reading | p. 354 |
| Software Systems Engineering | p. 355 |
| Coping with Complexity and Abstraction | p. 356 |
| Nature of Software Development | p. 360 |
| Software Development Life Cycle Models | p. 365 |
| Software Concept Development: Analysis and Design | p. 373 |
| Software Engineering Development: Coding and Unit Test | p. 385 |
| Software Integration and Test | p. 393 |
| Software Engineering Management | p. 396 |
| Summary | p. 402 |
| Problems | p. 405 |
| Further Reading | p. 406 |
| Engineering Design | p. 409 |
| Implementing the System Building Blocks | p. 409 |
| Requirements Analysis | p. 414 |
| Functional Analysis and Design | p. 416 |
| Component Design | p. 419 |
| Design Validation | p. 432 |
| CM | p. 436 |
| Summary | p. 439 |
| Problems | p. 441 |
| Further Reading | p. 442 |
| Integration and Evaluation | p. 443 |
| Integrating, Testing, and Evaluating the Total System | p. 443 |
| Test Planning and Preparation | p. 450 |
| System Integration | p. 455 |
| Developmental System Testing | p. 462 |
| Operational Test and Evaluation | p. 467 |
| Summary | p. 475 |
| Problems | p. 478 |
| Further Reading | p. 478 |
| Postdevelopment Stage | p. 481 |
| Production | p. 483 |
| Systems Engineering in the Factory | p. 483 |
| Engineering for Production | p. 485 |
| Transition from Development to Production | p. 489 |
| Production Operations | p. 492 |
| Acquiring a Production Knowledge Base | p. 497 |
| Summary | p. 500 |
| Problems | p. 502 |
| Further Reading | p. 503 |
| Operations and Support | p. 505 |
| Installing, Maintaining, and Upgrading the System | p. 505 |
| Installation and Test | p. 507 |
| In-Service Support | p. 512 |
| Major System Upgrades: Modernization | p. 516 |
| Operational Factors in System Development | p. 520 |
| Summary | p. 522 |
| Problems | p. 523 |
| Further Reading | p. 524 |
| Index | p. 525<SpI_ |
| Table of Contents provided by Ingram. All Rights Reserved. |
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