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A Practical Guide to SysML
The Systems Modeling Language
1st Edition - August 20, 2009
Authors: Sanford Friedenthal, Alan Moore, Rick Steiner
Language: English
eBook ISBN:9780123838575
9 7 8 - 0 - 1 2 - 3 8 3 8 5 7 - 5
A Practical Guide to SysML: The Systems Modeling Language is a comprehensive guide to SysML for systems and software engineers. It provides an advanced and practical resource for…Read more
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A Practical Guide to SysML: The Systems Modeling Language is a comprehensive guide to SysML for systems and software engineers. It provides an advanced and practical resource for modeling systems with SysML. The source describes the modeling language and offers information about employing SysML in transitioning an organization or project to model-based systems engineering. The book also presents various examples to help readers understand the OMG Systems Modeling Professional (OCSMP) Certification Program. The text is organized into four parts. The first part provides an overview of systems engineering. It explains the model-based approach by comparing it with the document-based approach and providing the modeling principles. The overview of SYsML is also discussed. The second part of the book covers a comprehensive description of the language. It discusses the main concepts of model organization, parametrics, blocks, use cases, interactions, requirements, allocations, and profiles. The third part presents examples that illustrate how SysML supports different model-based procedures. The last part discusses how to transition and deploy SysML into an organization or project. It explains the integration of SysML into a systems development environment. Furthermore, it describes the category of data that are exchanged between a SysML tool and other types of tools, and the types of exchange mechanisms that can be used. It also covers the criteria that must be considered when selecting a SysML. Software and systems engineers, programmers, IT practitioners, experts, and non-experts will find this book useful.
*The authoritative guide for understanding and applying SysML*Authored by the foremost experts on the language*Language description, examples, and quick reference guide included
Systems Engineers and Software Engineers, Designers and Programmers. Particularly the intersection between these two groups, often termed "Systems Software Engineers"
PrefaceAbout the AuthorsPart I Introduction Chapter 1 Systems Engineering Overview 1.1 Motivation for Systems Engineering 1.2 The Systems Engineering Process 1.3 Typical Application of the Systems Engineering Process 1.4 Multidisciplinary Systems Engineering Team 1.5 Codifying Systems Engineering Practice through Standards 1.6 Summary 1.7 Questions Chapter 2 Model-Based Systems Engineering 2.1 Contrasting the Document-Based and Model-Based Approach 2.2 Modeling Principles 2.3 Summary 2.4 Questions Chapter 3 SysML Language Overview 3.1 SysML Purpose and Key Features 3.2 SysML Diagram Overview 3.3 Using SysML in Support of MBSE 3.4 A Simple Example Using SysML for an Automobile Design 3.5 Summary 3.6 QuestionsPart II Language Description Chapter 4 SysML Language Architecture 4.1 The OMG SysML Language Specification 4.2 The Architecture of the SysML Language 4.3 SysML Diagrams 4.4 The Surveillance System Case Study 4.5 Chapter Organization for Part II 4.6 Questions Chapter 5 Organizing the Model with Packages 5.1 Overview 5.2 The Package Diagram 5.3 Defining Packages Using a Package Diagram 5.4 Organizing a Package Hierarchy 5.5 Showing Packageable Elements on a Package Diagram 5.6 Packages as Namespaces 5.7 Importing Model Elements into Packages 5.8 Showing Dependencies between Packageable Elements 5.9 Specifying Views and Viewpoints 5.10 Summary 5.11 Questions Chapter 6 Modeling Structure with Blocks 6.1 Overview 6.2 Modeling Blocks on a Block Definition Diagram 6.3 Modeling the Structure and Characteristics of Blocks Using Properties 6.4 Modeling Interfaces Using Ports and Flows 6.5 Modeling Block Behavior 6.6 Modeling Classification Hierarchies Using Generalization 6.7 Summary 6.8 Questions Chapter 7 Modeling Constraints with Parametrics 7.1 Overview 7.2 Using Constraint Expressions to Represent System Constraints 7.3 Encapsulating Constraints in Constraint Blocks to Enable Reuse 7.4 Using Composition to Build Complex Constraint Blocks 7.5 Using a Parametric Diagram to Bind Parameters of Constraint Blocks 7.6 Constraining Value Properties of a Block 7.7 Capturing Values in Block Configurations 7.8 Constraining Time-Dependent Properties to Facilitate Time-Based Analysis 7.9 Using Constraint Blocks to Constrain Item Flows 7.10 Describing an Analysis Context 7.11 Modeling Evaluation of Alternatives and Trade Studies 7.12 Summary 7.13 Questions Chapter 8 Modeling Flow-Based Behavior with Activities 8.1 Overview 8.2 The Activity Diagram 8.3 Actions—The Foundation of Activities 8.4 The Basics of Modeling Activities 8.5 Using Object Flows to Describe the Flow of Items between Actions 8.6 Using Control Flows to Specify the Order of Action Execution 8.7 Handling Signals and Other Events 8.8 Advanced Activity Modeling 8.9 Relating Activities to Blocks and Other Behaviors 8.10 Modeling Activity Hierarchies Using Block Definition Diagrams 8.11 Enhanced Functional Flow Block Diagram 8.12 Executing Activities 8.13 Summary 8.14 Questions Chapter 9 Modeling Message-Based Behavior with Interactions 9.1 Overview 9.2 The Sequence Diagram 9.3 The Context for Interactions 9.4 Using Lifelines to Represent Participants in an Interaction 9.5 Exchanging Messages between Lifelines 9.6 Representing Time on a Sequence Diagram 9.7 Describing Complex Scenarios Using Combined Fragments 9.8 Using Interaction References to Structure Complex Interactions 9.9 Decomposing Lifelines to Represent Internal Behavior 9.10 Summary 9.11 Questions Chapter 10 Modeling Event-Based Behavior with State Machines 10.1 Overview 10.2 State Machine Diagram 10.3 Specifying States in a State Machine 10.4 Transitioning between States 10.5 State Machines and Operation Calls 10.6 State Hierarchies 10.7 Contrasting Discrete and Continuous States 10.8 Summary 10.9 Questions Chapter 11 Modeling Functionality with Use Cases 11.1 Overview 11.2 Use Case Diagram 11.3 Using Actors to Represent the Users of a System 11.4 Using Use Cases to Describe System Functionality 11.5 Elaborating Use Cases with Behaviors 11.6 Summary 11.7 Questions Chapter 12 Modeling Text-Based Requirements and Their Relationship to Design 12.1 Overview 12.2 Requirement Diagram 12.3 Representing a Text Requirement in the Model 12.4 Types of Requirements Relationships 12.5 Representing Cross-Cutting Relationships in SysML Diagrams 12.6 Depicting Rationale for Requirements Relationships 12.7 Depicting Requirements and Their Relationships in Tables 12.8 Modeling Requirement Hierarchies in Packages 12.9 Modeling a Requirements Containment Hierarchy 12.10 Modeling Requirement Derivation 12.11 Asserting That a Requirement Is Satisfied 12.12 Verifying That a Requirement Is Satisfied 12.13 Reducing Requirements Ambiguity Using the Refine Relationship 12.14 Using the General-Purpose Trace Relationship 12.15 Summary 12.16 Questions Chapter 13 Modeling Cross-Cutting Relationships with Allocations 13.1 Overview 13.2 Allocation Relationship 13.3 Allocation Notation 13.4 Types of Allocation 13.5 Planning for Reuse: Specifying Definition and Usage in Allocation 13.6 Allocating Behavior to Structure Using Functional Allocation 13.7 Connecting Functional Flow with Structural Flow Using Functional Flow Allocation 13.8 Modeling Allocation between Independent Structural Hierarchies 13.9 Modeling Structural Flow Allocation 13.10 Evaluating Allocation across a User Model 13.11 Taking Allocation to the Next Step 13.12 Summary 13.13 Questions Chapter 14 Customizing SysML for Specific Domains 14.1 Overview 14.2 Defining Model Libraries to Provide Reusable Constructs 14.3 Defining Stereotypes to Extend Existing SysML Concepts 14.4 Extending the SysML Language Using Profiles 14.5 Applying Profiles to User Models in Order to Use Stereotypes 14.6 Applying Stereotypes when Building a Model 14.7 Summary 14.8 QuestionsPart III Modeling Examples Chapter 15 Water Distiller Example Using Functional Analysis 15.1 Stating the Problem 15.2 Defining the Model-Based Systems Engineering Approach 15.3 Organizing the Model 15.4 Establishing Requirements 15.5 Modeling Behavior 15.6 Modeling Structure 15.7 Analyzing Performance 15.8 Modifying the Original Design 15.9 Summary 15.10 Questions Chapter 16 Residential Security System Example Using the Object-Oriented Systems Engineering Method 16.1 Method Overview 16.2 Residential Security Example Overview and Project Setup 16.3 Applying the Method to Specify and Design the System 16.4 Summary 16.5 QuestionsPart IV Transitioning to Model-Based Systems Engineering Chapter 17 Integrating SysML into a Systems Development Environment 17.1 Understanding the System Model’s Role in a Systems Development Environment 17.2 Integrating the Systems Modeling Tool with Other Tools 17.3 Data Exchange Mechanisms in an Integrated Systems Development Environment 17.4 Selecting a System Modeling Tool 17.5 Summary 17.6 Questions Chapter 18 Deploying SysML into an Organization 18.1 Improvement Process 18.2 Summary 18.3 QuestionsAppendix SysML Reference Guide A.1 Overview A.2 Notational Conventions A.3 Package Diagram A.4 Block Definition Diagram A.5 Internal Block Diagram A.6 Parametric Diagram A.7 Activity Diagram A.8 Sequence Diagram A.9 State Machine Diagram A.10 Use Case Diagram A.11 Requirement Diagram A.12 Allocation A.13 StereotypesReferencesIndex
No. of pages: 576
Language: English
Edition: 1
Published: August 20, 2009
Imprint: Morgan Kaufmann
eBook ISBN: 9780123838575
SF
Sanford Friedenthal
Sanford Friedenthal is an MBSE Consultant. He has been an advocate for model-based systems engineering and a leader of the industry team that developed SysML from its inception through its adoption by the OMG.
Affiliations and expertise
MBSE Consultant
AM
Alan Moore
Alan Moore is an Architecture Modeling Specialist at The MathWorks. He has extensive experience in the development of real-time and object-oriented methodologies and their application. Alan was co-chair of the OMG's Real-time Analysis and Design Working Group and served as the language architect during the development of SysML.
Affiliations and expertise
Architecture Modeling Specialist, The MathWorks, Ltd.
RS
Rick Steiner
Rick Steiner is an independent consultant focusing on pragmatic application of systems engineering modeling techniques. He culminated his 29 year career at Raytheon as an Engineering Fellow, Raytheon Certified Architect and INCOSE Expert Systems Engineering Professional (ESEP).
Mr. Steiner has been an advocate, consultant, and instructor of model driven systems development for over 20 years. He has served as chief engineer, architect, or lead system modeler for several large scale electronics programs, incorporating the practical application of the OOSEM methodology and generation of Department of Defense Architecture Framework (DoDAF) artifacts from complex system models.
Mr. Steiner has been a key contributor to both the original requirements for SysML and the development of SysML specification. While his main technical contribution has been in the area of allocations, requirements, and the sample problem, Mr. Steiner has also served as co-chair of the SysML Revision Task Force (RTF). He continues to provide frequent tutorials and workshops on SysML and model driven engineering topics at INCOSE events, NDIA conferences, and other corporate engagements.