Aimed to make telecommunications engineering easily accessible to students, this book contains numerous worked examples, case studies and review questions at the end of each section.
Readers of the book can thus easily check their understanding of the topics progressively. Parts of this book are taught in undergraduate curriculum, while the rest is taught in graduate courses.
Without formal training in systems engineering, the discipline is often difficult to understand and apply, and its use within projects is often confusing. Systems Engineering for Projects: Achieving Positive Outcomes in a Complex World provides an approach that utilizes a combination of the most effective processes from both project management and systems engineering disciplines in a simplified and straightforward manner. The processes described in the book are lightweight, flexible, and tailorable.
They provide the shortest path to success in projects across the entire project life cycle, from research to operations, and from simple to the most complex. The book also addresses how this methodology can be used in a continually adapting and changing world, as projects span disciplines and become even more interconnected across all areas of human existence.
Each chapter includes diagrams, templates, summary lists, a case study, and a thought-provoking question and answer section that assists readers in immediate application of the material to their own projects. It is a comprehensive, go-to manual on the application of systems engineering processes to projects of all types and complexity. Score: 3. This revised Third Edition offers expert guidance for selecting the appropriate technologies, using the proper analytical tools, and applying the critical resources to develop an enhanced system engineering process.
This fully revised and up-to-date edition features new and expanded coverage of such timely topics as:ProcessingOutsourcingRisk analysisGlobalizationNew technologiesWith the help of numerous, real-life case studies, Benjamin Blanchard demonstrates, step by step, a comprehensive, top-down, life-cycle approach that has been proven to reduce costs, streamline the design and development process, improve reliability, and win customers.
The full range of system engineering concepts, tools, and techniques covered here is useful to both large- and small-scale projects. System Engineering Management, Third Edition is an essential resource for all engineers working in design, planning, and manufacturing.
It is also an excellent introductory text for students of system engineering. Score: 1. This book considers systems engineering of phased arrays and addresses not only radar, but also these modern applications. It presents a system-level perspective and approach that is essential for the successful development of modern phased arrays.
Using practical examples, this book helps solve problems often encountered by technical professionals. Thermal management challenges, antenna element design issues, and architectures solutions are explored as well as the benefits and challenges of digital beam forming.
This book provides the information required to train engineers to design and develop phased arrays and contains questions at the end of each chapter that professors will find useful for instruction. This methodology integrates model based systems and software engineering approaches for the development of complex products, including aerospace, robotics and energy domains applications.
Readers learn how to synthesize physical architectures using design heuristics and trade-off analysis.
The book provides information about how to identify, classify and specify the system requirements of a new product or service. Researchers are using intelligence-based techniques to support the practices of systems engineering in an innovative way.
This research volume includes a selection of contributions by subject experts to design better systems. Grounded in systems thinking and based on sound systems engineering principles, the systems decisions process SDP leverages multiple objective decision analysis, multiple attribute value theory, and value-focused thinking to define the problem, measure stakeholder value, design creative solutions, explore the decision trade off space in the presence of uncertainty, and structure successful solution implementation.
In addition to classical systems engineering problems, this approach has been successfully applied to a wide range of challenges including personnel recruiting, retention, and management; strategic policy analysis; facilities design and management; resource allocation; information assurance; security systems design; and other settings whose structure can be conceptualized as a system.
Another principle is that the requirements for the aircraft and its subsystems emanate from a logical set of organized functions and from economic or customer-oriented requirements as well as the regulatory requirements for certification.
Systems Engineering -- 2. Concepts of Computer-Based Systems Engineering -- 2. Computer-Based Systems -- 2. Systems Engineering of Computer-Based Systems -- 2. System Development Activity -- 3. Fundamental Concepts -- 3. The Systems Engineer's Role -- 4. The Development Life-Cycle -- 4.
Life-Cycle Forms -- 4. Life-Cycle Formalisation -- 4. Particular Rationale for Development Life-Cycles -- 4. Pitfalls in the Use of Development Life-Cycles -- 4. Automation of Life-Cycles -- 4. Choice of Life-Cycle -- 5. Configuration Management -- 5. Preliminary Concepts -- 5. Scope and Content of System Configuration Management -- 5. A Configuration Management Reference Model -- 6. Project Management -- 6. Preliminaries on Management -- 6. Pervasive Topics in Management -- 6.
The Systems View of a Project -- 6. The Systems View of People -- 6. The Systems View of Methods and Tools -- 6. Relationship to Life-Cycle Processes -- 6. Relationship to Quality -- 7. Quality -- 7.
Quality Activity Levels -- 7. Total Quality Management -- 7. Monitoring the Development Process -- 7. Conducting the Process and Monitoring the Product -- 8. Basics of Performance Evaluation -- 8. Performance Evaluation Methods and Techniques -- 8. Monitoring Techniques -- 8.
Mathematical Modelling -- 8. Simulation -- 8. Heterogeneous Hierarchical Modelling -- 8. Life-Cycle Integration of Performance Evaluation -- 9.
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