Model-Based System Architecture

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Informationen zum Autor TIM WEILKIENS is Executive Board Member of Oose, a German engineering consultancy, and a co-author of the SysML specification. JESKO G. LAMM is a Senior Systems Engineer in the European hearing healthcare industry. STEPHAN ROTH is a coach, consultant, and trainer for systems and software engineering at oose. He is a certified systems engineer (GfSE)®- Level C. MARKUS WALKER is Elevator System Architect in the CTO Division at Schindler Elevator. He is an INCOSE Certified Systems Engineering Professional (CSEP). Klappentext AN UP-TO-DATE EXPLORATION OF THE NEWEST STANDARDS AND BEST PRACTICES IN SYSTEM ARCHITECTING In the newly revised Second Edition of Model-Based System Architecture, a team of expert engineers deliver a detailed and authoritative review of the practice of system architecture in organizations that use models to support the systems engineering process. In the book, readers will find introductions to the fundamentals of architecting systems and using models to assist the architecting process. The latest edition offers refreshed content based on ISO 15288:2015 and a renewed focus on the role of the system architect. New chapters on systems-of-systems, and cyber-physical systems, and system architect tools offer guidance to practicing professionals on how to apply the presented concepts in the real-world. In addition to the latest definitions of the architecture governance and evaluation processes described in ISO 42020 and 42030, the book provides: A thorough introduction to the value of systems architecting, definitions of system architecture, and model-based system architecture Comprehensive explorations of model governance, architecture descriptions, patterns, and principles, and the roles of typical architecture stakeholders Practical discussions of Agile approaches to systems architecture, the FAS Method, and architecture frameworks In-depth examinations of systems architecting work and necessary soft skills for systems architects Modeling of system architectures with SysML including a brief overview of SysML v1 and an outlook to SysML v2 Perfect for system architects and system engineers, Model-Based System Architecture will also earn a place in the libraries of students and researchers studying functional architectures. Zusammenfassung MODEL-BASED SYSTEM ARCHITECTUREAN UP-TO-DATE EXPLORATION OF THE NEWEST STANDARDS AND BEST PRACTICES IN SYSTEM ARCHITECTINGIn the newly revised Second Edition of Model-Based System Architecture, a team of expert engineers deliver a detailed and authoritative review of the practice of system architecture in organizations that use models to support the systems engineering process. In the book, readers will find introductions to the fundamentals of architecting systems and using models to assist the architecting process.The latest edition offers refreshed content based on ISO 15288:2015 and a renewed focus on the role of the system architect. New chapters on systems-of-systems, and cyber-physical systems, and system architect tools offer guidance to practicing professionals on how to apply the presented concepts in the real-world.In addition to the latest definitions of the architecture governance and evaluation processes described in ISO 42020 and 42030, the book provides:* A thorough introduction to the value of systems architecting, definitions of system architecture, and model-based system architecture* Comprehensive explorations of model governance, architecture descriptions, patterns, and principles, and the roles of typical architecture stakeholders* Practical discussions of Agile approaches to systems architecture, the FAS Method, and architecture frameworks* In-depth examinations of systems architecting work and necessary soft skills for systems architects* Modeling of system architectures with SysML including a brief overview of SysML ...

List of contents

Foreword xv
 
Preface xvii
 
About the Companion Website xxi
 
1 Introduction 1
 
2 An Example: The Scalable Observation and Rescue System 5
 
3 Better Products - The Value of Systems Architecting 9
 
3.1 The Share of Systems Architecting in Making Better Products 9
 
3.2 Benefits that can be Achieved 10
 
3.2.1 Benefit for the Customer 10
 
3.2.2 Benefit for the Organization 12
 
3.3 Benefits that can be Communicated Inside the Organization 14
 
3.4 Beneficial Elements of Systems Architecting 15
 
3.5 Benefits of Model-Based Systems Architecting 16
 
4 Systems, Systems of Systems, and Cyber-Physical Systems 17
 
4.1 Definition of "System" 17
 
4.1.1 System Elements 19
 
4.1.2 System Context 20
 
4.1.3 System Characteristics 21
 
4.1.4 Purpose 22
 
4.1.5 System Evolution 23
 
4.2 Definition of "System of Systems" 23
 
4.3 Definition of "Cyber-Physical System" 26
 
4.4 Composition of a "Cyber-Physical System of Systems" 27
 
5 Definition of System Architecture 31
 
5.1 What Is Architecture? - Discussion of Some Existing Definitions 31
 
5.2 Relations Between Concepts of "System," "Architecture," and "Architecture Description" 33
 
5.3 Definition of "Architecture" 35
 
5.3.1 Interactions 36
 
5.3.2 Principles 37
 
5.3.3 Architecture Decisions 37
 
5.4 Functional and Physical Architecture 37
 
5.5 Taxonomy of Physical Architectures 39
 
5.5.1 Logical Architecture 40
 
5.5.2 Product Architecture 41
 
5.5.3 Base Architecture 41
 
5.6 Architecture Landscape for Systems 41
 
5.6.1 System Architecture 42
 
5.6.2 System Design 43
 
5.6.3 Discipline-Specific Architecture and Design 44
 
6 Model-Based Systems Architecting 45
 
7 Model Governance 51
 
7.1 Overview 51
 
7.2 Model Governance in Practice 52
 
8 Architecture Description 57
 
8.1 Architecture Descriptions for Stakeholders 58
 
8.2 Definition of "Architecture Description" 60
 
8.2.1 Architecture Viewpoints 62
 
8.2.2 Architecture Views 65
 
8.2.3 Architecture Decisions 67
 
8.2.4 Architecture Rationales 69
 
8.3 How to Get Architecture Descriptions? 69
 
8.3.1 Model-Based Vision 69
 
8.3.2 Forms and Templates 71
 
9 Architecture Patterns and Principles 75
 
9.1 The SYSMOD Zigzag Pattern 76
 
9.2 The Base Architecture 82
 
9.3 Cohesion and Coupling 85
 
9.4 Separation of Definition, Usage, and Run-Time 87
 
9.5 Separate Stable from Unstable Parts 89
 
9.6 The Ideal System 89
 
9.7 View and Model 90
 
9.8 Diagram Layout 92
 
9.9 System Model Structure 93
 
9.10 System Architecture Principles 95
 
9.11 Heuristics 95
 
9.11.1 Heuristics as a Tool for the System Architect 95
 
9.11.2 Simplify, Simplify, Simplify: Strength and Pitfall 97
 
10 Model-Based Requirements Engineering and Use Case Analysis 99
 
10.1 Requirement and Use Case Definitions 99
 
10.2 Model-Based Requirements and Use Case Analysis from the MBSA Viewpoint 102
 
10.2.1 Identify and Define Requirements 103
 
10.2.2 Specify the System Context 104
 
10.2.3 Identify Use Cases 105
 
10.2.4 Describe Use Case Flows 109
 
10.2.5 Model the Domain Knowledge 110
 
10.3 The SAMS Method 112
 
10.3.1 SAMS Method Definitions 113
 
10.3.2 SAMS Method 114
 
10.4 Use Cases 2.0 117