Model-based system architecture /

Model-based system architecture /

Presents modeling approaches that can be performed in SysML and other modeling languages This book combines the emerging discipline of systems architecting with model-based approaches using SysML. The early chapters of the book provide the fundamentals of systems architecting; discussing what system...

Πλήρης περιγραφή

Λεπτομέρειες βιβλιογραφικής εγγραφής
Κύριος συγγραφέας: Weilkiens, Tim
Άλλοι συγγραφείς: Lamm, Jesko G., 1976-, Roth, Stephan, 1968-, Walker, Markus, 1965-
Μορφή: Ηλ. βιβλίο
Γλώσσα:English
Έκδοση: Hoboken, New Jersey : John Wiley & Sons, Inc., [2016]
Σειρά:Wiley series in systems engineering and management.
Θέματα:
System design.
Computer simulation.
SysML (Computer science)
TECHNOLOGY & ENGINEERING / Engineering (General)
TECHNOLOGY & ENGINEERING / Reference
Electronic books.
Διαθέσιμο Online:Full Text via HEAL-Link
Πίνακας περιεχομένων:
  • Title Page; Wiley Series in Systems Engineering and Management; Copyright; Table of Contents; Foreword; Preface; About the Companion Website; Chapter 1: Introduction; Chapter 2: An Example: The Virtual Museum Tour System; Chapter 3: Better Products
  • The Value of Systems Architecting; 3.1 The Share of Systems Architecting in Making Better Products; 3.2 The Benefits that can be Achieved; 3.3 The Benefits that can be Communicated Inside the Organization; 3.4 The Beneficial Elements of Systems Architecting; 3.5 Benefits of Model-Based Systems Architecting
  • Chapter 4: Definition of System Architecture4.1 What is Architecture?
  • Discussion of Some Existing Definitions; 4.2 Modeling the Definitions of "System" and "System Architecture"; Chapter 5: Model-Based System Architecture; Chapter 6: Architecture Description; 6.1 Why Spending Effort to Describe the Architecture?; 6.2 The Architecture Description; 6.3 How to Get an Architecture Description?; Chapter 7: Architecture Patterns and Principles; 7.1 The SYSMOD Zigzag Pattern; 7.2 The Base Architecture; 7.3 Cohesion and Coupling; 7.4 Separation of Definition, Usage and Run-Time
  • 7.5 Separate Stable from unstable parts7.6 The Ideal System; 7.7 View and Model; 7.8 Diagram Layout; 7.9 System Model Structure; 7.10 Heuristics; Chapter 8: Requirements and Use Case Analysis; 8.1 Identify and Define Requirements; 8.2 Specify The System Context; 8.3 Identify Use Cases; 8.4 Describe Use Case Flows; 8.5 Model the Domain Knowledge; Chapter 9: Perspectives, Viewpoints and Views in System Architecture*; 9.1 Overview; 9.2 The Functional Perspective; 9.3 The Physical Perspective; 9.4 The Behavioral Perspective; 9.5 The Layered Perspective; 9.6 System Deployment Perspective
  • 9.7 Other Perspectives9.8 Relation to the System Context; 9.9 Mapping Different Perspectives and Levels; 9.10 Traceability; 9.11 Perspectives and Views in Model-Based Systems Architecting; Chapter 10: Typical Architecture Stakeholders; 10.1 Overview; 10.2 Requirements Engineering; 10.3 Verification; 10.4 Configuration Management; 10.5 Engineering Disciplines; 10.6 Project and Product Management; 10.7 Development Roadmap Planners; 10.8 Production and Distribution; 10.9 Suppliers; 10.10 Marketing and Brand Management; 10.11 Management; Chapter 11: Roles; 11.1 Roles
  • 11.2 The System Architect Role11.3 System Architecture Teams; 11.4 System Architecture Stakeholders; 11.5 Recruiting System Architecture People; 11.6 Talent Development for System Architects; Chapter 12: Processes; 12.1 The Systems Architecting Processes; 12.2 Change and Configuration Management Processes; 12.3 Other Processes Involving the System Architect; Chapter 13: Agile Approaches; 13.1 The History of Iterative-Incremental and Agile Development; 13.2 System Architects in an Agile Environment; Chapter 14: The FAS Method; 14.1 Motivation; 14.2 Functional Architectures for Systems

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