UID:
almahu_9949697299602882
Format:
1 online resource (320 p.)
Edition:
1st edition
ISBN:
1-281-18944-8
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9786611189440
,
0-08-055831-3
Series Statement:
The MK/OMG Press
Uniform Title:
Systems Engineering mit SysML/UML.
Content:
UML, the Universal Modeling Language, was the first programming language designed to fulfill the requirement for ""universality."" However, it is a software-specific language, and does not support the needs of engineers designing from the broader systems-based perspective. Therefore, SysML was created. It has been steadily gaining popularity, and many companies, especially in the heavily-regulated Defense, Automotive, Aerospace, Medical Device and Telecomms industries, are already using SysML, or are planning to switch over to it in the near future. However, little information is curr
Note:
Description based upon print version of record.
,
Front Cover; Systems Engineering with Sysml/UML; Copyright Page; Contents; Foreword; Author Biography; CHAPTER 1 Introduction; 1.1 Preliminaries; 1.1.1 Is This Book for Me?; 1.1.2 What Will I Get from This Book?; 1.1.3 What Motivated This Book? And Thanks!; 1.1.4 How Do I Read This Book?; 1.1.5 What Next?; 1.2 Systems Engineering; 1.2.1 What Is Systems Engineering?; 1.2.2 Systems Engineering Processes; 1.2.3 The Systems Engineer; 1.2.4 Systems Engineering History; 1.2.5 International Council on Systems Engineering; 1.2.6 Systems Engineering versus Software Engineering; 1.2.7 Marginal Notes
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1.3 The OMG SysMLTM and UMLTM Languages1.4 Book Context; 1.4.1 Autosar; 1.4.2 Capability Maturity Model Integration; 1.4.3 BPM; 1.4.4 ISO/IEC 15288; 1.4.5 MATLAB/Simulink; 1.4.6 The Requirement Interchange Format; 1.4.7 Statemate; 1.4.8 Step; 1.4.9 Specification and Description Language; 1.4.10 V-Model XT; CHAPTER 2 The Pragmatic SYSMOD Approach; 2.1 Case Study; 2.1.1 Describe Project Context; 2.2 Determining Requirements; 2.2.1 Identify Stakeholders; 2.2.2 Collect Requirements; 2.3 Modeling the System Context; 2.3.1 Identify System Actors; 2.3.2 Model System/Actor Information Flow
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2.3.3 Identify System Interaction Points2.4 Modeling Use Cases; 2.4.1 Identify Use Cases; 2.4.2 Describe Use Case Essences; 2.4.3 Describe System Processes; 2.4.4 Model Use Cases Without Redundancies; 2.4.5 Model Use Case Flows; 2.4.6 Model Object Flows; 2.5 Model Domain Knowledge; 2.6 Create Glossary; 2.7 Realizing Use Cases; 2.7.1 Model System/Actor Interaction; 2.7.2 Derive System Interfaces; 2.7.3 Model System Structures; 2.7.4 Desire State Model; 2.8 Marginal Notes; 2.8.1 Variant Management; 2.8.2 Model Simulation; 2.8.3 Testing; 2.8.4 The System of Systems; 2.8.5 Modeling Patterns
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2.8.6 Model ViewsCHAPTER 3 UML-Unified Modeling Language; 3.1 History; 3.2 Structure and Concepts; 3.3 The Class Diagram; 3.3.1 Class; 3.3.2 Attribute; 3.3.3 Operation; 3.3.4 Association; 3.3.5 Aggregation and Composition; 3.3.6 Dependency; 3.3.7 Abstraction Dependency; 3.3.8 Generalization; 3.3.9 Interface; 3.3.10 Signal; 3.3.11 Data Types; 3.3.12 Association Class; 3.4 The Composite Structure Diagram; 3.4.1 Role; 3.4.2 Connector; 3.4.3 Port; 3.5 The Use Case Diagram; 3.5.1 Use Case; 3.5.2 Actor; 3.5.3 Include Relationship; 3.6 The Activity Diagram; 3.6.1 Activity; 3.6.2 Action and PIN
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3.6.3 Parameter Set3.6.4 Activity Edge; 3.6.5 Initial and Final Nodes; 3.6.6 Decision and Merge Nodes; 3.6.7 Fork and Join Nodes; 3.6.8 Interruptible Activity Region; 3.6.9 Expansion Region; 3.6.10 Activity Partition; 3.7 The State Machine Diagram; 3.7.1 State Machine; 3.7.2 State; 3.7.3 Transition; 3.7.4 Trigger and Event; 3.7.5 Initial and Final States; 3.7.6 Pseudostate; 3.8 Interaction Diagrams; 3.8.1 Interaction; 3.8.2 Lifeline; 3.8.3 Message; 3.8.4 Combined Fragment; 3.8.5 Interaction Use; 3.8.6 State Invariant; 3.8.7 Time Constraints; 3.9 The Package Diagram; 3.9.1 Package
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3.10 Other Model Elements
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English
Additional Edition:
ISBN 0-12-374274-9
Language:
English
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